ORF » Species Summary » Homo sapiens » ATAD2B cDNA ORF clone

ATAD2B cDNA ORF clone, Homo sapiens(human)

The following ATAD2B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATAD2B cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu35442 XM_011532928.2
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68323 XM_011532929.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68324 XM_011532930.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68325 XM_011532931.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68326 XM_011532932.2
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu89591 XM_017004375.2
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu35440 XM_006712031.4
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu68319 XM_011532924.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu68320 XM_011532925.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu68316 NM_001354107.2
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68327 NM_017552.4
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu68328 NM_001242338.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu35438 XM_005264372.4
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu35439 XM_006712030.4
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68313 XM_011532918.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu68314 XM_011532919.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu68315 XM_011532920.3
Latest version!		 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68316 XM_011532921.2
Latest version!		 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu68316 NM_001354107.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68327 NM_017552.3 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu68324 XM_011532930.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68326 XM_011532932.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X20, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $391.30
$559.00
OHu68323 XM_011532929.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68328 NM_001242338.2 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu89591 XM_017004375.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu35439 XM_006712030.3 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68320 XM_011532925.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu35442 XM_011532928.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68325 XM_011532931.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu68319 XM_011532924.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu35440 XM_006712031.3 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu68314 XM_011532919.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu35438 XM_005264372.3 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu68313 XM_011532918.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu68315 XM_011532920.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    ATAD2B ( XM_011532928.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531230.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu35442
    Clone ID Related Accession (Same CDS sequence) XM_011532928.1 , XM_011532928.2
    Accession Version XM_011532928.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2550bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGTTTT TCTGTTTTCT ACTACACCTT 
    GCACATCCAC CAATCCAAGA CACCCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531230.1
    CDS345..2894
    Translation

    Target ORF information:

    RefSeq Version XM_011532928.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532928.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGTTTT TCTGTTTTCT ACTACACCTT 
    GCACATCCAC CAATCCAAGA CACCCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532928.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531230.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu35442
    Clone ID Related Accession (Same CDS sequence) XM_011532928.1 , XM_011532928.2
    Accession Version XM_011532928.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2550bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532928.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGTTTT TCTGTTTTCT ACTACACCTT 
    GCACATCCAC CAATCCAAGA CACCCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531230.1
    CDS297..2846
    Translation

    Target ORF information:

    RefSeq Version XM_011532928.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532928.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGTTTT TCTGTTTTCT ACTACACCTT 
    GCACATCCAC CAATCCAAGA CACCCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532929.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531231.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu68323
    Clone ID Related Accession (Same CDS sequence) XM_011532929.3 , XM_011532929.2
    Accession Version XM_011532929.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2532bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532929.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGCCCA AAATAAACTC TACATGGGCA 
    GTGGAACTAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531231.1
    CDS297..2828
    Translation

    Target ORF information:

    RefSeq Version XM_011532929.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532929.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGCCCA AAATAAACTC TACATGGGCA 
    GTGGAACTAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532929.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531231.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu68323
    Clone ID Related Accession (Same CDS sequence) XM_011532929.3 , XM_011532929.2
    Accession Version XM_011532929.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2532bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532929.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGCCCA AAATAAACTC TACATGGGCA 
    GTGGAACTAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531231.1
    CDS345..2876
    Translation

    Target ORF information:

    RefSeq Version XM_011532929.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532929.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGCCCA AAATAAACTC TACATGGGCA 
    GTGGAACTAT AA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532930.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531232.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu68324
    Clone ID Related Accession (Same CDS sequence) XM_011532930.2 , XM_011532930.3
    Accession Version XM_011532930.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2526bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532930.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGACAA AATTACTGCA GGTTGTATGC 
    AAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531232.1
    CDS345..2870
    Translation

    Target ORF information:

    RefSeq Version XM_011532930.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532930.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGACAA AATTACTGCA GGTTGTATGC 
    AAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532930.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531232.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA.
    Price & Availability↑
    CloneID OHu68324
    Clone ID Related Accession (Same CDS sequence) XM_011532930.2 , XM_011532930.3
    Accession Version XM_011532930.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2526bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532930.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGACAA AATTACTGCA GGTTGTATGC 
    AAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531232.1
    CDS297..2822
    Translation

    Target ORF information:

    RefSeq Version XM_011532930.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532930.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGACAA AATTACTGCA GGTTGTATGC 
    AAGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532931.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531233.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X18, mRNA.
    Price & Availability↑
    CloneID OHu68325
    Clone ID Related Accession (Same CDS sequence) XM_011532931.2 , XM_011532931.3
    Accession Version XM_011532931.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2514bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532931.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGAACT TTGGAAAAAA ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531233.1
    CDS345..2858
    Translation

    Target ORF information:

    RefSeq Version XM_011532931.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532931.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGAACT TTGGAAAAAA ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532931.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531233.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA.
    Price & Availability↑
    CloneID OHu68325
    Clone ID Related Accession (Same CDS sequence) XM_011532931.2 , XM_011532931.3
    Accession Version XM_011532931.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2514bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532931.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGAACT TTGGAAAAAA ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531233.1
    CDS297..2810
    Translation

    Target ORF information:

    RefSeq Version XM_011532931.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532931.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGAACT TTGGAAAAAA ATAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532932.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531234.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X20, mRNA.
    Price & Availability↑
    CloneID OHu68326
    Clone ID Related Accession (Same CDS sequence) XM_011532932.1 , XM_011532932.2
    Accession Version XM_011532932.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2376bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATA AAGATGATAT ACACTGTAGA AAATTCAAGT 
    AATAAAGAAG AGCATAAAGA AGAAAGTAAA AATTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531234.1
    CDS345..2720
    Translation

    Target ORF information:

    RefSeq Version XM_011532932.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X20, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532932.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATA AAGATGATAT ACACTGTAGA AAATTCAAGT 
    AATAAAGAAG AGCATAAAGA AGAAAGTAAA AATTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532932.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531234.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X19, mRNA.
    Price & Availability↑
    CloneID OHu68326
    Clone ID Related Accession (Same CDS sequence) XM_011532932.1 , XM_011532932.2
    Accession Version XM_011532932.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2376bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532932.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATA AAGATGATAT ACACTGTAGA AAATTCAAGT 
    AATAAAGAAG AGCATAAAGA AGAAAGTAAA AATTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531234.1
    CDS297..2672
    Translation

    Target ORF information:

    RefSeq Version XM_011532932.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532932.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATA AAGATGATAT ACACTGTAGA AAATTCAAGT 
    AATAAAGAAG AGCATAAAGA AGAAAGTAAA AATTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_017004375.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859864.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu89591
    Clone ID Related Accession (Same CDS sequence) XM_017004375.1 , XM_017004375.2
    Accession Version XM_017004375.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    ATGAAGCACA GCTTCAGGGA AAGAAATTCT GTGCCAGCTA GTCCTTTTCT TCTCCTCCCT 
    GATGAGCTTC AAGCCATGGA AGGTAAAAGA AGGCGAGAGT GGAGGAAAAA GGTGGGTAAA 
    ATGGAAAATA AAAGTTTAAT GTTTTTCTTG CATTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016859864.1
    CDS345..4823
    Translation

    Target ORF information:

    RefSeq Version XM_017004375.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017004375.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    ATGAAGCACA GCTTCAGGGA AAGAAATTCT GTGCCAGCTA GTCCTTTTCT TCTCCTCCCT 
    GATGAGCTTC AAGCCATGGA AGGTAAAAGA AGGCGAGAGT GGAGGAAAAA GGTGGGTAAA 
    ATGGAAAATA AAAGTTTAAT GTTTTTCTTG CATTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_017004375.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016859864.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OHu89591
    Clone ID Related Accession (Same CDS sequence) XM_017004375.1 , XM_017004375.2
    Accession Version XM_017004375.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017004375.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    ATGAAGCACA GCTTCAGGGA AAGAAATTCT GTGCCAGCTA GTCCTTTTCT TCTCCTCCCT 
    GATGAGCTTC AAGCCATGGA AGGTAAAAGA AGGCGAGAGT GGAGGAAAAA GGTGGGTAAA 
    ATGGAAAATA AAAGTTTAAT GTTTTTCTTG CATTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016859864.1
    CDS297..4775
    Translation

    Target ORF information:

    RefSeq Version XM_017004375.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017004375.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    ATGAAGCACA GCTTCAGGGA AAGAAATTCT GTGCCAGCTA GTCCTTTTCT TCTCCTCCCT 
    GATGAGCTTC AAGCCATGGA AGGTAAAAGA AGGCGAGAGT GGAGGAAAAA GGTGGGTAAA 
    ATGGAAAATA AAAGTTTAAT GTTTTTCTTG CATTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_006712031.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_006712094.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu35440
    Clone ID Related Accession (Same CDS sequence) XM_006712031.4 , XM_006712031.3
    Accession Version XM_006712031.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3204bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006712031.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGAACAC 
    TTGGCCATTT GGGGAAAAAA CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006712094.1
    CDS297..3500
    Translation

    Target ORF information:

    RefSeq Version XM_006712031.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006712031.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGAACAC 
    TTGGCCATTT GGGGAAAAAA CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_006712031.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006712094.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OHu35440
    Clone ID Related Accession (Same CDS sequence) XM_006712031.4 , XM_006712031.3
    Accession Version XM_006712031.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3204bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006712031.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGAACAC 
    TTGGCCATTT GGGGAAAAAA CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006712094.1
    CDS345..3548
    Translation

    Target ORF information:

    RefSeq Version XM_006712031.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006712031.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGAACAC 
    TTGGCCATTT GGGGAAAAAA CTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532924.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531226.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OHu68319
    Clone ID Related Accession (Same CDS sequence) XM_011532924.3 , XM_011532924.2
    Accession Version XM_011532924.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3252bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532924.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATGTAAG TGGTAATATC 
    TTTATTTTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531226.1
    CDS297..3548
    Translation

    Target ORF information:

    RefSeq Version XM_011532924.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532924.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATGTAAG TGGTAATATC 
    TTTATTTTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532924.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531226.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu68319
    Clone ID Related Accession (Same CDS sequence) XM_011532924.3 , XM_011532924.2
    Accession Version XM_011532924.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3252bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532924.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATGTAAG TGGTAATATC 
    TTTATTTTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531226.1
    CDS345..3596
    Translation

    Target ORF information:

    RefSeq Version XM_011532924.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532924.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATGTAAG TGGTAATATC 
    TTTATTTTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532925.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531227.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OHu68320
    Clone ID Related Accession (Same CDS sequence) XM_011532925.2 , XM_011532925.3
    Accession Version XM_011532925.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3240bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532925.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATTTCAG TGATAAATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531227.1
    CDS345..3584
    Translation

    Target ORF information:

    RefSeq Version XM_011532925.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532925.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATTTCAG TGATAAATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532925.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531227.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OHu68320
    Clone ID Related Accession (Same CDS sequence) XM_011532925.2 , XM_011532925.3
    Accession Version XM_011532925.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3240bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532925.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATTTCAG TGATAAATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531227.1
    CDS297..3536
    Translation

    Target ORF information:

    RefSeq Version XM_011532925.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532925.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATACT 
    CATCTATATG TCCTAAGTAG CCAGTACTTT TTGCTGAAGA CAAATTTCAG TGATAAATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_001354107.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341036.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu68316
    Clone ID Related Accession (Same CDS sequence) NM_001354107.2 , NM_001354107.1 , XM_011532921.2
    Accession Version NM_001354107.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-31
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC066692.3, KF456640.1, AC079924.6, AC009242.6 and BM974506.1. On Jun 1, 2019 this sequence version replaced NM_001354107.1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.120656.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001341036.1
    CDS354..4757
    Translation

    Target ORF information:

    RefSeq Version NM_001354107.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354107.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_001354107.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001341036.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA.
    Price & Availability↑
    CloneID OHu68316
    Clone ID Related Accession (Same CDS sequence) NM_001354107.2 , NM_001354107.1 , XM_011532921.2
    Accession Version NM_001354107.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-25
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC066692.3, KF456640.1, AC079924.6, AC009242.6 and BM974506.1. On Aug 29, 2017 this sequence version replaced XM_011532921.2. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.120656.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001341036.1
    CDS345..4748
    Translation

    Target ORF information:

    RefSeq Version NM_001354107.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001354107.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_017552.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_060022.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu68327
    Clone ID Related Accession (Same CDS sequence) NM_017552.3 , NM_017552.4
    Accession Version NM_017552.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4377bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-10-02
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK094821.1, BC171846.1, AB033066.1, AK125718.1 and BM974506.1. This sequence is a reference standard in the RefSeqGene project. On Jul 30, 2014 this sequence version replaced NM_017552.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGGAGAT GGAAAGAACA GTTCATATGT TTGAGACATT CCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_060022.2
    CDS345..4721
    Translation

    Target ORF information:

    RefSeq Version NM_017552.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017552.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGGAGAT GGAAAGAACA GTTCATATGT TTGAGACATT CCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_017552.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_060022.2 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu68327
    Clone ID Related Accession (Same CDS sequence) NM_017552.3 , NM_017552.4
    Accession Version NM_017552.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4377bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-21
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC066692.3, AK094821.1, BC171846.1, AB033066.1, AK125718.1 and BM974506.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_017552.3. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology MANE Ensembl match :: ENST00000238789.10/ ENSP00000238789.5 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGGAGAT GGAAAGAACA GTTCATATGT TTGAGACATT CCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_060022.2
    CDS354..4730
    Translation

    Target ORF information:

    RefSeq Version NM_017552.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_017552.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGGAGAT GGAAAGAACA GTTCATATGT TTGAGACATT CCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_001242338.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001229267.2 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu68328
    Clone ID Related Accession (Same CDS sequence) NM_001242338.3 , NM_001242338.2
    Accession Version NM_001242338.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-05-30
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC066692.3, AK094821.1, BC171846.1, AB033066.1 and BM974506.1. On May 31, 2019 this sequence version replaced NM_001242338.2. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.166457.1, SRR1660809.63807.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    GAGATGGAAA GAACAGTTCA TATGTTTGAG ACATTCCTAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001229267.2
    CDS354..4715
    Translation

    Target ORF information:

    RefSeq Version NM_001242338.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001242338.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    GAGATGGAAA GAACAGTTCA TATGTTTGAG ACATTCCTAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( NM_001242338.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001229267.2 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu68328
    Clone ID Related Accession (Same CDS sequence) NM_001242338.3 , NM_001242338.2
    Accession Version NM_001242338.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-23
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK094821.1, BC171846.1, AB033066.1 and BM974506.1. On Jul 30, 2014 this sequence version replaced NM_001242338.1. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.166457.1, SRR1660809.63807.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end. 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    GAGATGGAAA GAACAGTTCA TATGTTTGAG ACATTCCTAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001229267.2
    CDS345..4706
    Translation

    Target ORF information:

    RefSeq Version NM_001242338.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001242338.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT TTCAGATTAT CTTGAAGTAA TCAAGGAACC AATGGACTTA 
    TCAACAGTAA TAACTAAAAT TGATAAACAT AATTACCTGA CTGCAAAGGA TTTCCTGAAA 
    GATATTGACC TCATCTGTAG CAATGCTTTA GAGTATAATC CAGATAAGGA CCCAGGAGAT 
    AAAATAATTA GGCACAGGGC TTGTACCCTG AAGGACACTG CACATGCTAT CATTGCAGCT 
    GAATTAGATC CAGAATTTAA TAAACTTTGT GAGGAAATTA AGGAAGCAAG AATAAAAAGA 
    GGCTTATCAG TAACATCAGA ACAAATAAAT CCTCATAGTA CTGGAGCTCG GAAGACAGAA 
    ACTAGAGTCG AAGAGGCATT TCGGCACAAA CAAAGAAATC CAATGGATGT GTGGCACAAC 
    TCTGCAAATA AATGTGCATT TCGGGTTCGG AGAAAATCAA GGCGGAGATC ACAGTGGGGT 
    AAAGGAATTA TTAAGAAAAG GAAAGTTAAT AATTTAAAAA AAGATGAAGA AGACACCAAA 
    TTTGCAGACT ATGAGAACCA TACGGAGGAC AGGAAATTAT TAGAGAATGG AGAGTTTGAG 
    GTAAGCACTG ACTGCCATGA GGAAAATGGA GAAGAGACTG GAGACTTATC TATGACCAAT 
    GATGAATCAT CCTGTGACAT CATGGACTTG GACCAGGGGC AGAGGCTTAA CAATGGAGCA 
    GGCACAAAAG AGAACTTTGC ATCTACTGAG GAGGAAAGTT CAAATGAATC TCTACTGGTC 
    AACAGCAGCA GTTCCTTAAA CCCGGAGCAG ACCTCCAGGA AAGAGACTTT CCTTAAAGGA 
    AATTGTCTAA ATGGTGAGGC TTCCACTGAC AGTTTTGAAG GAATACCAGT TCTGGAATGT 
    CAGAATGGCA AGCTTGAAGT AGTTTCTTTC TGTGATAGTG GAGATAAATG TAGTTCTGAA 
    CAAAAGATTC TTCTGGAGGA CCAGTCAAAA GAAAAACCAG AAACTTCGAC TGAAAATCAT 
    GGAGATGATC TTGAGAAACT AGAGGCACTG GAATGTAGCA ATAATGAGAA GTTAGAACCT 
    GGCTCTGATG TGGAGGTTAA AGATGCAGAA CTGGATAAAG AAGGTGCTTC TAAAGTAAAG 
    AAATACCGTA AATTAATTTT AGAGCAGGCA AAAACGACAA GCCTGGAACT GGTTCCAGAA 
    GAGCCATCTG AGCCTGTGCC TCCTCTTATA GTTGATCGTG AGAGATTGAA GAAATTGCTT 
    GATTTGTTGG TGGATAAAAG CAACAATCTG GCAGTTGATC AGCTTGAGAG ATTATATTCT 
    CTTCTTAGTC AGTGTATCTA CCGTCATCGT AAAGATTATG ACAAATCACA ACTTGTAGAG 
    GAGATGGAAA GAACAGTTCA TATGTTTGAG ACATTCCTAT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_005264372.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_005264429.2 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu35438
    Clone ID Related Accession (Same CDS sequence) XM_005264372.4 , XM_005264372.3
    Accession Version XM_005264372.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4419bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_005264372.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGAG 
    ATGGAAAGAA CAGTTCATAT GTTTGAGACA TTCCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_005264429.2
    CDS297..4715
    Translation

    Target ORF information:

    RefSeq Version XM_005264372.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005264372.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGAG 
    ATGGAAAGAA CAGTTCATAT GTTTGAGACA TTCCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_005264372.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_005264429.2 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu35438
    Clone ID Related Accession (Same CDS sequence) XM_005264372.4 , XM_005264372.3
    Accession Version XM_005264372.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4419bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005264372.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGAG 
    ATGGAAAGAA CAGTTCATAT GTTTGAGACA TTCCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_005264429.2
    CDS345..4763
    Translation

    Target ORF information:

    RefSeq Version XM_005264372.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_005264372.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGAG 
    ATGGAAAGAA CAGTTCATAT GTTTGAGACA TTCCTATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_006712030.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_006712093.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OHu35439
    Clone ID Related Accession (Same CDS sequence) XM_006712030.3 , XM_006712030.4
    Accession Version XM_006712030.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_006712030.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGCA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006712093.1
    CDS345..4727
    Translation

    Target ORF information:

    RefSeq Version XM_006712030.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006712030.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGCA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_006712030.4 ) cDNA ORF clone, Homo sapiens(human) -> XP_006712093.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu35439
    Clone ID Related Accession (Same CDS sequence) XM_006712030.3 , XM_006712030.4
    Accession Version XM_006712030.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4383bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_006712030.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGCA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_006712093.1
    CDS297..4679
    Translation

    Target ORF information:

    RefSeq Version XM_006712030.4
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006712030.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGGCA 
    TGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532918.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531220.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu68313
    Clone ID Related Accession (Same CDS sequence) XM_011532918.2 , XM_011532918.3
    Accession Version XM_011532918.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4536bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532918.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGATG 
    AAGCACAGCT TCAGGGAAAG AAATTCTGTG CCAGCTAGTC CTTTTCTTCT CCTCCCTGAT 
    GAGCTTCAAG CCATGGAAGG TAAAAGAAGG CGAGAGTGGA GGAAAAAGGT GGGTAAAATG 
    GAAAATAAAA GTTTAATGTT TTTCTTGCAT TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531220.1
    CDS345..4880
    Translation

    Target ORF information:

    RefSeq Version XM_011532918.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532918.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGATG 
    AAGCACAGCT TCAGGGAAAG AAATTCTGTG CCAGCTAGTC CTTTTCTTCT CCTCCCTGAT 
    GAGCTTCAAG CCATGGAAGG TAAAAGAAGG CGAGAGTGGA GGAAAAAGGT GGGTAAAATG 
    GAAAATAAAA GTTTAATGTT TTTCTTGCAT TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532918.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531220.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu68313
    Clone ID Related Accession (Same CDS sequence) XM_011532918.2 , XM_011532918.3
    Accession Version XM_011532918.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4536bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532918.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGATG 
    AAGCACAGCT TCAGGGAAAG AAATTCTGTG CCAGCTAGTC CTTTTCTTCT CCTCCCTGAT 
    GAGCTTCAAG CCATGGAAGG TAAAAGAAGG CGAGAGTGGA GGAAAAAGGT GGGTAAAATG 
    GAAAATAAAA GTTTAATGTT TTTCTTGCAT TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531220.1
    CDS297..4832
    Translation

    Target ORF information:

    RefSeq Version XM_011532918.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532918.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTGGATATTG AAGAGGTTTC AGATTATCTT GAAGTAATCA AGGAACCAAT GGACTTATCA 
    ACAGTAATAA CTAAAATTGA TAAACATAAT TACCTGACTG CAAAGGATTT CCTGAAAGAT 
    ATTGACCTCA TCTGTAGCAA TGCTTTAGAG TATAATCCAG ATAAGGACCC AGGAGATAAA 
    ATAATTAGGC ACAGGGCTTG TACCCTGAAG GACACTGCAC ATGCTATCAT TGCAGCTGAA 
    TTAGATCCAG AATTTAATAA ACTTTGTGAG GAAATTAAGG AAGCAAGAAT AAAAAGAGGC 
    TTATCAGTAA CATCAGAACA AATAAATCCT CATAGTACTG GAGCTCGGAA GACAGAAACT 
    AGAGTCGAAG AGGCATTTCG GCACAAACAA AGAAATCCAA TGGATGTGTG GCACAACTCT 
    GCAAATAAAT GTGCATTTCG GGTTCGGAGA AAATCAAGGC GGAGATCACA GTGGGGTAAA 
    GGAATTATTA AGAAAAGGAA AGTTAATAAT TTAAAAAAAG ATGAAGAAGA CACCAAATTT 
    GCAGACTATG AGAACCATAC GGAGGACAGG AAATTATTAG AGAATGGAGA GTTTGAGGTA 
    AGCACTGACT GCCATGAGGA AAATGGAGAA GAGACTGGAG ACTTATCTAT GACCAATGAT 
    GAATCATCCT GTGACATCAT GGACTTGGAC CAGGGGCAGA GGCTTAACAA TGGAGCAGGC 
    ACAAAAGAGA ACTTTGCATC TACTGAGGAG GAAAGTTCAA ATGAATCTCT ACTGGTCAAC 
    AGCAGCAGTT CCTTAAACCC GGAGCAGACC TCCAGGAAAG AGACTTTCCT TAAAGGAAAT 
    TGTCTAAATG GTGAGGCTTC CACTGACAGT TTTGAAGGAA TACCAGTTCT GGAATGTCAG 
    AATGGCAAGC TTGAAGTAGT TTCTTTCTGT GATAGTGGAG ATAAATGTAG TTCTGAACAA 
    AAGATTCTTC TGGAGGACCA GTCAAAAGAA AAACCAGAAA CTTCGACTGA AAATCATGGA 
    GATGATCTTG AGAAACTAGA GGCACTGGAA TGTAGCAATA ATGAGAAGTT AGAACCTGGC 
    TCTGATGTGG AGGTTAAAGA TGCAGAACTG GATAAAGAAG GTGCTTCTAA AGTAAAGAAA 
    TACCGTAAAT TAATTTTAGA GCAGGCAAAA ACGACAAGCC TGGAACTGGT TCCAGAAGAG 
    CCATCTGAGC CTGTGCCTCC TCTTATAGTT GATCGTGAGA GATTGAAGAA ATTGCTTGAT 
    TTGTTGGTGG ATAAAAGCAA CAATCTGGCA GTTGATCAGC TTGAGAGATT ATATTCTCTT 
    CTTAGTCAGT GTATCTACCG TCATCGTAAA GATTATGACA AATCACAACT TGTAGAGATG 
    AAGCACAGCT TCAGGGAAAG AAATTCTGTG CCAGCTAGTC CTTTTCTTCT CCTCCCTGAT 
    GAGCTTCAAG CCATGGAAGG TAAAAGAAGG CGAGAGTGGA GGAAAAAGGT GGGTAAAATG 
    GAAAATAAAA GTTTAATGTT TTTCTTGCAT TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532919.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531221.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu68314
    Clone ID Related Accession (Same CDS sequence) XM_011532919.3 , XM_011532919.2
    Accession Version XM_011532919.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4521bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532919.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGATGAAGCA CAGCTTCAGG 
    GAAAGAAATT CTGTGCCAGC TAGTCCTTTT CTTCTCCTCC CTGATGAGCT TCAAGCCATG 
    GAAGGTAAAA GAAGGCGAGA GTGGAGGAAA AAGGTGGGTA AAATGGAAAA TAAAAGTTTA 
    ATGTTTTTCT TGCATTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531221.1
    CDS297..4817
    Translation

    Target ORF information:

    RefSeq Version XM_011532919.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532919.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGATGAAGCA CAGCTTCAGG 
    GAAAGAAATT CTGTGCCAGC TAGTCCTTTT CTTCTCCTCC CTGATGAGCT TCAAGCCATG 
    GAAGGTAAAA GAAGGCGAGA GTGGAGGAAA AAGGTGGGTA AAATGGAAAA TAAAAGTTTA 
    ATGTTTTTCT TGCATTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532919.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531221.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OHu68314
    Clone ID Related Accession (Same CDS sequence) XM_011532919.3 , XM_011532919.2
    Accession Version XM_011532919.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4521bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532919.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGATGAAGCA CAGCTTCAGG 
    GAAAGAAATT CTGTGCCAGC TAGTCCTTTT CTTCTCCTCC CTGATGAGCT TCAAGCCATG 
    GAAGGTAAAA GAAGGCGAGA GTGGAGGAAA AAGGTGGGTA AAATGGAAAA TAAAAGTTTA 
    ATGTTTTTCT TGCATTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531221.1
    CDS345..4865
    Translation

    Target ORF information:

    RefSeq Version XM_011532919.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532919.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGATGAAGCA CAGCTTCAGG 
    GAAAGAAATT CTGTGCCAGC TAGTCCTTTT CTTCTCCTCC CTGATGAGCT TCAAGCCATG 
    GAAGGTAAAA GAAGGCGAGA GTGGAGGAAA AAGGTGGGTA AAATGGAAAA TAAAAGTTTA 
    ATGTTTTTCT TGCATTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532920.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531222.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu68315
    Clone ID Related Accession (Same CDS sequence) XM_011532920.2 , XM_011532920.3
    Accession Version XM_011532920.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532920.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGATGAA GCACAGCTTC AGGGAAAGAA ATTCTGTGCC AGCTAGTCCT 
    TTTCTTCTCC TCCCTGATGA GCTTCAAGCC ATGGAAGGTA AAAGAAGGCG AGAGTGGAGG 
    AAAAAGGTGG GTAAAATGGA AAATAAAAGT TTAATGTTTT TCTTGCATTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531222.1
    CDS345..4838
    Translation

    Target ORF information:

    RefSeq Version XM_011532920.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532920.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGATGAA GCACAGCTTC AGGGAAAGAA ATTCTGTGCC AGCTAGTCCT 
    TTTCTTCTCC TCCCTGATGA GCTTCAAGCC ATGGAAGGTA AAAGAAGGCG AGAGTGGAGG 
    AAAAAGGTGG GTAAAATGGA AAATAAAAGT TTAATGTTTT TCTTGCATTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532920.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531222.1 Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OHu68315
    Clone ID Related Accession (Same CDS sequence) XM_011532920.2 , XM_011532920.3
    Accession Version XM_011532920.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product ATPase family AAA domain-containing protein 2B isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011532920.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGATGAA GCACAGCTTC AGGGAAAGAA ATTCTGTGCC AGCTAGTCCT 
    TTTCTTCTCC TCCCTGATGA GCTTCAAGCC ATGGAAGGTA AAAGAAGGCG AGAGTGGAGG 
    AAAAAGGTGG GTAAAATGGA AAATAAAAGT TTAATGTTTT TCTTGCATTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531222.1
    CDS297..4790
    Translation

    Target ORF information:

    RefSeq Version XM_011532920.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ATPase family AAA domain containing 2B (ATAD2B), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532920.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGAATCTC AAGAGGAGGA TGGAGATATA GAAGTTGAAG AGGCAGAAGG AGAAGAAAAT 
    GATAGACCAT ATAATTTGAG ACAGAGAAAA ACAGTGGATC GATACCAAGC ACCTCCAATA 
    GTACCAGCTC ATCAAAAAAA GAGGGAAAAC ACGCTGTTTG ATATTCATAG ATCTCCAGCA 
    AGAAGAAGCC ATATTAGGAG AAAGAAGCAT GCCATTCATA GTAGTGACAC AACTTCTTCT 
    GATGAGGAAC GCTTTGAAAG AAGGAAATCA AAGAGCATGG CAAGAGCAAG AAATAGATGT 
    TTGCCTATGA ACTTCAGAGC AGAGGACTTA GCTAGCGGTA TTCTCCGAGA ACGAGTGAAA 
    GTGGGTGCAA GCTTGGCTGA TGTTGATCCA ATGAACATTG ATAAATCAGT ACGGTTTGAT 
    AGCATAGGTG GATTGAGCCA TCATATTCAT GCGCTAAAGG AAATGGTAGT ATTCCCACTT 
    TTATATCCAG AAATTTTTGA AAAGTTTAAA ATTCAGCCTC CAAGGGGCTG TTTGTTTTAT 
    GGCCCTCCTG GCACAGGTAA AACCTTGGTT GCCAGAGCAT TAGCTAATGA ATGCAGCCAA 
    GGAGACAAAA AAGTGGCTTT TTTTATGCGA AAAGGAGCAG ATTGTTTGAG CAAGTGGGTT 
    GGTGAATCTG AAAGGCAACT TAGGCTTCTT TTTGATCAGG CATATTTGAT GAGACCTTCT 
    ATAATATTTT TTGATGAAAT AGATGGATTA GCTCCAGTTC GCTCTAGCAG ACAAGATCAG 
    ATCCACAGCT CTATAGTATC AACCCTCCTT GCTCTTATGG ATGGATTAGA TAATAGGGGT 
    GAAATTGTTG TTATTGGTGC TACAAACAGA CTTGACTCTA TAGATCCTGC ACTCAGGAGA 
    CCTGGTCGTT TTGACAGAGA ATTCCTCTTC AACCTGCCTG ATCAAAAGGC AAGAAAACAC 
    ATCTTACAGA TCCATACCAG GGACTGGAAT CCAAAATTGT CAGATGCATT TTTAGGTGAA 
    TTGGCTGAAA AATGTGTTGG CTACTGTGGA GCCGATATCA AGGCCCTGTG CACTGAAGCC 
    GCCCTGATTG CACTGCGGAG GCGTTATCCC CAGATCTATG CTAGCAGTCA TAAACTGCAG 
    CTGGATGTTT CCTCAATAGT GCTTAGTGCC CAAGATTTTT ACCATGCAAT GCAGAATATC 
    GTGCCTGCTT CCCAACGTGC TGTGATGTCT TCAGGGCATG CACTATCCCC CATCATAAGA 
    CCACTGCTGG AAAGAAGCTT CAACAACATC CTAGCAGTCT TGCAAAAAGT GTTTCCTCAT 
    GCTGAAATTA GCCAGAGTGA CAAAAAAGAA GATATAGAAA CTTTAATTTT AGAGGATAGT 
    GAAGATGAAA ATGCTTTATC AATTTTTGAG ACCAATTGTC ACTCAGGATC ACCAAAGAAA 
    CAGTCATCAT CTGCTGCTAT ACATAAACCC TACCTTCATT TTACAATGTC ACCATATCAT 
    CAGCCAACCT CTTACAGGCC ACGCTTATTG CTCTCTGGAG AACGGGGCTC AGGTCAAACT 
    TCTCACCTTG CTCCAGCACT TTTGCACACT CTAGAAAGAT TCTCTGTGCA TAGACTAGAT 
    CTCCCAGCAC TTTATTCAGT TAGTGCCAAA ACACCTGAGG AATCATGTGC ACAGATTTTT 
    CGTGAAGCTC GAAGAACAGT ACCTAGTATT GTTTACATGC CTCACATTGG GGATTGGTGG 
    GAAGCTGTCA GTGAAACTGT GAGAGCAACT TTTCTGACAT TGCTACAAGA TATACCATCA 
    TTTTCACCTA TATTTTTATT GTCTACCTCT GAAACCATGT ACAGTGAACT GCCTGAAGAG 
    GTTAAATGTA TCTTTAGAAT ACAGTATGAA GAGGTCTTGT ATATTCAAAG GCCTATTGAA 
    GAAGACAGAA GAAAATTTTT TCAAGAATTG ATTCTCAATC AGGCATCAAT GGCTCCACCA 
    CGAAGGAAAC ATGCTGCTCT TTGTGCTATG GAAGTGCTTC CTCTTGCACT ACCTTCTCCA 
    CCTCGTCAAT TATCAGAATC AGAAAAAAGT CGAATGGAGG ACCAGGAGGA AAATACTTTA 
    AGAGAGTTGC GGTTGTTTCT CAGGGATGTA ACCAAGAGGC TGGCCACAGA TAAACGCTTT 
    AACATCTTCA GCAAACCGGT GGATATTGAA GAGGTTTCAG ATTATCTTGA AGTAATCAAG 
    GAACCAATGG ACTTATCAAC AGTAATAACT AAAATTGATA AACATAATTA CCTGACTGCA 
    AAGGATTTCC TGAAAGATAT TGACCTCATC TGTAGCAATG CTTTAGAGTA TAATCCAGAT 
    AAGGACCCAG GAGATAAAAT AATTAGGCAC AGGGCTTGTA CCCTGAAGGA CACTGCACAT 
    GCTATCATTG CAGCTGAATT AGATCCAGAA TTTAATAAAC TTTGTGAGGA AATTAAGGAA 
    GCAAGAATAA AAAGAGGCTT ATCAGTAACA TCAGAACAAA TAAATCCTCA TAGTACTGGA 
    GCTCGGAAGA CAGAAACTAG AGTCGAAGAG GCATTTCGGC ACAAACAAAG AAATCCAATG 
    GATGTGTGGC ACAACTCTGC AAATAAATGT GCATTTCGGG TTCGGAGAAA ATCAAGGCGG 
    AGATCACAGT GGGGTAAAGG AATTATTAAG AAAAGGAAAG TTAATAATTT AAAAAAAGAT 
    GAAGAAGACA CCAAATTTGC AGACTATGAG AACCATACGG AGGACAGGAA ATTATTAGAG 
    AATGGAGAGT TTGAGGTAAG CACTGACTGC CATGAGGAAA ATGGAGAAGA GACTGGAGAC 
    TTATCTATGA CCAATGATGA ATCATCCTGT GACATCATGG ACTTGGACCA GGGGCAGAGG 
    CTTAACAATG GAGCAGGCAC AAAAGAGAAC TTTGCATCTA CTGAGGAGGA AAGTTCAAAT 
    GAATCTCTAC TGGTCAACAG CAGCAGTTCC TTAAACCCGG AGCAGACCTC CAGGAAAGAG 
    ACTTTCCTTA AAGGAAATTG TCTAAATGGT GAGGCTTCCA CTGACAGTTT TGAAGGAATA 
    CCAGTTCTGG AATGTCAGAA TGGCAAGCTT GAAGTAGTTT CTTTCTGTGA TAGTGGAGAT 
    AAATGTAGTT CTGAACAAAA GATTCTTCTG GAGGACCAGT CAAAAGAAAA ACCAGAAACT 
    TCGACTGAAA ATCATGGAGA TGATCTTGAG AAACTAGAGG CACTGGAATG TAGCAATAAT 
    GAGAAGTTAG AACCTGGCTC TGATGTGGAG GTTAAAGATG CAGAACTGGA TAAAGAAGGT 
    GCTTCTAAAG TAAAGAAATA CCGTAAATTA ATTTTAGAGC AGGCAAAAAC GACAAGCCTG 
    GAACTGGTTC CAGAAGAGCC ATCTGAGCCT GTGCCTCCTC TTATAGTTGA TCGTGAGAGA 
    TTGAAGAAAT TGCTTGATTT GTTGGTGGAT AAAAGCAACA ATCTGGCAGT TGATCAGCTT 
    GAGAGATTAT ATTCTCTTCT TAGTCAGTGT ATCTACCGTC ATCGTAAAGA TTATGACAAA 
    TCACAACTTG TAGAGATGAA GCACAGCTTC AGGGAAAGAA ATTCTGTGCC AGCTAGTCCT 
    TTTCTTCTCC TCCCTGATGA GCTTCAAGCC ATGGAAGGTA AAAGAAGGCG AGAGTGGAGG 
    AAAAAGGTGG GTAAAATGGA AAATAAAAGT TTAATGTTTT TCTTGCATTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    ATAD2B ( XM_011532921.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011531223.1 Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OHu68316
    Clone ID Related Accession (Same CDS sequence) NM_001354107.2 , NM_001354107.1 , XM_011532921.2
    Accession Version XM_011532921.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4404bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(Human)
    Product ATPase family AAA domain-containing protein 2B isoform X6
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000002.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011532921.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011531223.1
    CDS345..4748
    Translation

    Target ORF information:

    RefSeq Version XM_011532921.2
    Organism Homo sapiens(Human)
    Definition Homo sapiens ATPase family, AAA domain containing 2B (ATAD2B), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011532921.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGAACA CCCGGAAGAG CTCTCTCCGC CTTCTCGGGT CCAAGTCTCC TGGTCCCGGG 
    CCTGGGCCTG GGGCCGGAGC AGAGCCTGGG GCGACCGGAG GCAGCAGCCA TTTCATCTCC 
    TCTCGGACCC GCTCCTCCAA GACCCGCGCC GCCAGCTGCC CCGCCGCCAA AGCCGGGGGA 
    AGCGGTGGCG CCGGCGTCAC TCTGGATGAG GCCAGGAAAG TTGAAGTTGA TGGTAGTTTA 
    AGTGATAGCC ACGTATCTCC TCCAGCCAAA CGCACTTTGA AACAACCTGA TTCTGTTTGC 
    AAAGACAAAT CAAAATCACG AAGTACTGGT CAGCGAGAGG AATGGAACTT ATCAACTGGA 
    CAGGCCAGGT TAACTTCTCA GCCTGGTGCT ACATTACCAA ATGGACATAG TGGCTTATCC 
    CTTCGAAGCC ATCCCCTTCG AGGGGAAAAG AAGGGAGATG GGGACCTTTC TTGTATAAAT 
    GGTGACATGG AAGTCAGAAA AAGTTGTCGT TCCAGGAAAA ACAGATTTGA AAGTGTGAAC 
    CAGAGTTTGT TATTTGATCA ACTAGTAAAT AGCACTGCTG AAGCTGTACT ACAGGAAATG 
    GACAACATTA ACATCCGACG GAATCGTCGA TCAGGAGAAG TAGAACGACT TCGAATGTGG 
    ACAGATACAG AATTTGAAAA CATGGATATG TATTCAAGAG TGAAAAGGCG AAGAAAGTCA 
    CTAAGAAGAA ATAGTTATGG GATACAAAAT CATCATGAAG TTTCTACTGA GGGTGAAGAA 
    GAAGCTAGAA CCTCTAAATT GCTTCCTTTG GAGAAAATCA GTATAGAATC TCAAGAGGAG 
    GATGGAGATA TAGAAGTTGA AGAGGCAGAA GGAGAAGAAA ATGATAGACC ATATAATTTG 
    AGACAGAGAA AAACAGTGGA TCGATACCAA GCACCTCCAA TAGTACCAGC TCATCAAAAA 
    AAGAGGGAAA ACACGCTGTT TGATATTCAT AGATCTCCAG CAAGAAGAAG CCATATTAGG 
    AGAAAGAAGC ATGCCATTCA TAGTAGTGAC ACAACTTCTT CTGATGAGGA ACGCTTTGAA 
    AGAAGGAAAT CAAAGAGCAT GGCAAGAGCA AGAAATAGAT GTTTGCCTAT GAACTTCAGA 
    GCAGAGGACT TAGCTAGCGG TATTCTCCGA GAACGAGTGA AAGTGGGTGC AAGCTTGGCT 
    GATGTTGATC CAATGAACAT TGATAAATCA GTACGGTTTG ATAGCATAGG TGGATTGAGC 
    CATCATATTC ATGCGCTAAA GGAAATGGTA GTATTCCCAC TTTTATATCC AGAAATTTTT 
    GAAAAGTTTA AAATTCAGCC TCCAAGGGGC TGTTTGTTTT ATGGCCCTCC TGGCACAGGT 
    AAAACCTTGG TTGCCAGAGC ATTAGCTAAT GAATGCAGCC AAGGAGACAA AAAAGTGGCT 
    TTTTTTATGC GAAAAGGAGC AGATTGTTTG AGCAAGTGGG TTGGTGAATC TGAAAGGCAA 
    CTTAGGCTTC TTTTTGATCA GGCATATTTG ATGAGACCTT CTATAATATT TTTTGATGAA 
    ATAGATGGAT TAGCTCCAGT TCGCTCTAGC AGACAAGATC AGATCCACAG CTCTATAGTA 
    TCAACCCTCC TTGCTCTTAT GGATGGATTA GATAATAGGG GTGAAATTGT TGTTATTGGT 
    GCTACAAACA GACTTGACTC TATAGATCCT GCACTCAGGA GACCTGGTCG TTTTGACAGA 
    GAATTCCTCT TCAACCTGCC TGATCAAAAG GCAAGAAAAC ACATCTTACA GATCCATACC 
    AGGGACTGGA ATCCAAAATT GTCAGATGCA TTTTTAGGTG AATTGGCTGA AAAATGTGTT 
    GGCTACTGTG GAGCCGATAT CAAGGCCCTG TGCACTGAAG CCGCCCTGAT TGCACTGCGG 
    AGGCGTTATC CCCAGATCTA TGCTAGCAGT CATAAACTGC AGCTGGATGT TTCCTCAATA 
    GTGCTTAGTG CCCAAGATTT TTACCATGCA ATGCAGAATA TCGTGCCTGC TTCCCAACGT 
    GCTGTGATGT CTTCAGGGCA TGCACTATCC CCCATCATAA GACCACTGCT GGAAAGAAGC 
    TTCAACAACA TCCTAGCAGT CTTGCAAAAA GTGTTTCCTC ATGCTGAAAT TAGCCAGAGT 
    GACAAAAAAG AAGATATAGA AACTTTAATT TTAGAGGATA GTGAAGATGA AAATGCTTTA 
    TCAATTTTTG AGACCAATTG TCACTCAGGA TCACCAAAGA AACAGTCATC ATCTGCTGCT 
    ATACATAAAC CCTACCTTCA TTTTACAATG TCACCATATC ATCAGCCAAC CTCTTACAGG 
    CCACGCTTAT TGCTCTCTGG AGAACGGGGC TCAGGTCAAA CTTCTCACCT TGCTCCAGCA 
    CTTTTGCACA CTCTAGAAAG ATTCTCTGTG CATAGACTAG ATCTCCCAGC ACTTTATTCA 
    GTTAGTGCCA AAACACCTGA GGAATCATGT GCACAGATTT TTCGTGAAGC TCGAAGAACA 
    GTACCTAGTA TTGTTTACAT GCCTCACATT GGGGATTGGT GGGAAGCTGT CAGTGAAACT 
    GTGAGAGCAA CTTTTCTGAC ATTGCTACAA GATATACCAT CATTTTCACC TATATTTTTA 
    TTGTCTACCT CTGAAACCAT GTACAGTGAA CTGCCTGAAG AGGTTAAATG TATCTTTAGA 
    ATACAGTATG AAGAGGTCTT GTATATTCAA AGGCCTATTG AAGAAGACAG AAGAAAATTT 
    TTTCAAGAAT TGATTCTCAA TCAGGCATCA ATGGCTCCAC CACGAAGGAA ACATGCTGCT 
    CTTTGTGCTA TGGAAGTGCT TCCTCTTGCA CTACCTTCTC CACCTCGTCA ATTATCAGAA 
    TCAGAAAAAA GTCGAATGGA GGACCAGGAG GAAAATACTT TAAGAGAGTT GCGGTTGTTT 
    CTCAGGGATG TAACCAAGAG GCTGGCCACA GATAAACGCT TTAACATCTT CAGCAAACCG 
    GTTTCAGATT ATCTTGAAGT AATCAAGGAA CCAATGGACT TATCAACAGT AATAACTAAA 
    ATTGATAAAC ATAATTACCT GACTGCAAAG GATTTCCTGA AAGATATTGA CCTCATCTGT 
    AGCAATGCTT TAGAGTATAA TCCAGATAAG GACCCAGGAG ATAAAATAAT TAGGCACAGG 
    GCTTGTACCC TGAAGGACAC TGCACATGCT ATCATTGCAG CTGAATTAGA TCCAGAATTT 
    AATAAACTTT GTGAGGAAAT TAAGGAAGCA AGAATAAAAA GAGGCTTATC AGTAACATCA 
    GAACAAATAA ATCCTCATAG TACTGGAGCT CGGAAGACAG AAACTAGAGT CGAAGAGGCA 
    TTTCGGCACA AACAAAGAAA TCCAATGGAT GTGTGGCACA ACTCTGCAAA TAAATGTGCA 
    TTTCGGGTTC GGAGAAAATC AAGGCGGAGA TCACAGTGGG GTAAAGGAAT TATTAAGAAA 
    AGGAAAGTTA ATAATTTAAA AAAAGATGAA GAAGACACCA AATTTGCAGA CTATGAGAAC 
    CATACGGAGG ACAGGAAATT ATTAGAGAAT GGAGAGTTTG AGGTAAGCAC TGACTGCCAT 
    GAGGAAAATG GAGAAGAGAC TGGAGACTTA TCTATGACCA ATGATGAATC ATCCTGTGAC 
    ATCATGGACT TGGACCAGGG GCAGAGGCTT AACAATGGAG CAGGCACAAA AGAGAACTTT 
    GCATCTACTG AGGAGGAAAG TTCAAATGAA TCTCTACTGG TCAACAGCAG CAGTTCCTTA 
    AACCCGGAGC AGACCTCCAG GAAAGAGACT TTCCTTAAAG GAAATTGTCT AAATGGTGAG 
    GCTTCCACTG ACAGTTTTGA AGGAATACCA GTTCTGGAAT GTCAGAATGG CAAGCTTGAA 
    GTAGTTTCTT TCTGTGATAG TGGAGATAAA TGTAGTTCTG AACAAAAGAT TCTTCTGGAG 
    GACCAGTCAA AAGAAAAACC AGAAACTTCG ACTGAAAATC ATGGAGATGA TCTTGAGAAA 
    CTAGAGGCAC TGGAATGTAG CAATAATGAG AAGTTAGAAC CTGGCTCTGA TGTGGAGGTT 
    AAAGATGCAG AACTGGATAA AGAAGGTGCT TCTAAAGTAA AGAAATACCG TAAATTAATT 
    TTAGAGCAGG CAAAAACGAC AAGCCTGGAA CTGGTTCCAG AAGAGCCATC TGAGCCTGTG 
    CCTCCTCTTA TAGTTGATCG TGAGAGATTG AAGAAATTGC TTGATTTGTT GGTGGATAAA 
    AGCAACAATC TGGCAGTTGA TCAGCTTGAG AGATTATATT CTCTTCTTAG TCAGTGTATC 
    TACCGTCATC GTAAAGATTA TGACAAATCA CAACTTGTAG AGGAGATGGA AAGAACAGTT 
    CATATGTTTG AGACATTCCT ATGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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