ORF » Species Summary » Homo sapiens » ANKRD30A cDNA ORF clone

ANKRD30A cDNA ORF clone, Homo sapiens(human)

The following ANKRD30A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ANKRD30A 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
OHu16279 NM_052997.2
Latest version!		 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $923.30
$1319.00
OHu74294 XM_011519757.3
Latest version!		 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu74295 XM_011519758.2
Latest version!		 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu91789 XM_017016883.2
Latest version!		 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $391.30
$559.00
View Old Accession Versions >>
OHu74294 XM_011519757.2 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu91789 XM_017016883.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $391.30
$559.00
Hide Old Accession Versions >>

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** 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)
    ANKRD30A ( NM_052997.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_443723.2 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), mRNA.
    Price & Availability↑
    CloneID OHu16279
    Clone ID Related Accession (Same CDS sequence) NM_052997.2
    Accession Version NM_052997.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4026bp)
    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 2019-12-25
    Organism Homo sapiens(human)
    Product ankyrin repeat domain-containing protein 30A
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF269087.1, DN831985.1, AL357148.22 and BP312910.1. This sequence is a reference standard in the RefSeqGene project. On Oct 3, 2006 this sequence version replaced NM_052997.1. Sequence Note: This transcript contains splicing in the 3' UTR that makes it a candidate for nonsense-mediated mRNA decay (NMD). Limited transcript data is available to validate the splice pattern, and alternate transcripts and proteins may be expressed in vivo. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: AF269087.1 [ECO:0000331] RNAseq introns :: mixed/partial sample support SAMEA1968968, SAMEA2148874 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## NMD candidate :: PMID: 16675566, 17536312 RefSeq Select criteria :: based on conservation ##RefSeq-Attributes-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
    ATGACAAAGA GGAAGAAGAC CATCAACCTT AATATACAAG ACGCCCAGAA GAGGACTGCT 
    CTACACTGGG CCTGTGTCAA TGGCCATGAG GAAGTAGTAA CATTTCTGGT AGACAGAAAG 
    TGCCAGCTTG ACGTCCTTGA TGGCGAACAC AGGACACCTC TGATGAAGGC TCTACAATGC 
    CATCAGGAGG CTTGTGCAAA TATTCTGATA GATTCTGGTG CCGATATAAA TCTCGTAGAT 
    GTGTATGGCA ACACGGCTCT CCATTATGCT GTTTATAGTG AGATTTTGTC AGTGGTGGCA 
    AAACTGCTGT CCCATGGTGC AGTCATCGAA GTGCACAACA AGGCTAGCCT CACACCACTT 
    TTACTATCCA TAACGAAAAG AAGTGAGCAA ATTGTGGAAT TTTTGCTGAT AAAAAATGCA 
    AATGCGAATG CAGTTAATAA GTATAAATGC ACAGCCCTCA TGCTTGCTGT ATGTCATGGA 
    TCATCAGAGA TAGTTGGCAT GCTTCTTCAG CAAAATGTTG ACGTCTTTGC TGCAGATATA 
    TGTGGAGTAA CTGCAGAACA TTATGCTGTT ACTTGTGGAT TTCATCACAT TCATGAACAA 
    ATTATGGAAT ATATACGAAA ATTATCTAAA AATCATCAAA ATACCAATCC AGAAGGAACA 
    TCTGCAGGAA CACCTGATGA GGCTGCACCC TTGGCGGAAA GAACACCTGA CACAGCTGAA 
    AGCTTGGTGG AAAAAACACC TGATGAGGCT GCACCCTTGG TGGAAAGAAC ACCTGACACG 
    GCTGAAAGCT TGGTGGAAAA AACACCTGAT GAGGCTGCAT CCTTGGTGGA GGGAACATCT 
    GACAAAATTC AATGTTTGGA GAAAGCGACA TCTGGAAAGT TCGAACAGTC AGCAGAAGAA 
    ACACCTAGGG AAATTACGAG TCCTGCAAAA GAAACATCTG AGAAATTTAC GTGGCCAGCA 
    AAAGGAAGAC CTAGGAAGAT CGCATGGGAG AAAAAAGAAG ACACACCTAG GGAAATTATG 
    AGTCCCGCAA AAGAAACATC TGAGAAATTT ACGTGGGCAG CAAAAGGAAG ACCTAGGAAG 
    ATCGCATGGG AGAAAAAAGA AACACCTGTA AAGACTGGAT GCGTGGCAAG AGTAACATCT 
    AATAAAACTA AAGTTTTGGA AAAAGGAAGA TCTAAGATGA TTGCATGTCC TACAAAAGAA 
    TCATCTACAA AAGCAAGTGC CAATGATCAG AGGTTCCCAT CAGAATCCAA ACAAGAGGAA 
    GATGAAGAAT ATTCTTGTGA TTCTCGGAGT CTCTTTGAGA GTTCTGCAAA GATTCAAGTG 
    TGTATACCTG AGTCTATATA TCAAAAAGTA ATGGAGATAA ATAGAGAAGT AGAAGAGCCT 
    CCTAAGAAGC CATCTGCCTT CAAGCCTGCC ATTGAAATGC AAAACTCTGT TCCAAATAAA 
    GCCTTTGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC CGATGTTCCC ACCAGAATCC 
    AAACAAAAGG ACTATGAAGA AAATTCTTGG GATTCTGAGA GTCTCTGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTTTACC CAAGGCTACA CATCAAAAAG AAATAGATAA AATAAATGGA 
    AAATTAGAAG AGTCTCCTAA TAAAGATGGT CTTCTGAAGG CTACCTGCGG AATGAAAGTT 
    TCTATTCCAA CTAAAGCCTT AGAATTGAAG GACATGCAAA CTTTCAAAGC AGAGCCTCCG 
    GGGAAGCCAT CTGCCTTCGA GCCTGCCACT GAAATGCAAA AGTCTGTCCC AAATAAAGCC 
    TTGGAATTGA AAAATGAACA AACATTGAGA GCAGATGAGA TACTCCCATC AGAATCCAAA 
    CAAAAGGACT ATGAAGAAAA TTCTTGGGAT ACTGAGAGTC TCTGTGAGAC TGTTTCACAG 
    AAGGATGTGT GTTTACCCAA GGCTGCGCAT CAAAAAGAAA TAGATAAAAT AAATGGAAAA 
    TTAGAAGGGT CTCCTGTTAA AGATGGTCTT CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT 
    ATTCCAACTA AAGCCTTAGA ATTGATGGAC ATGCAAACTT TCAAAGCAGA GCCTCCCGAG 
    AAGCCATCTG CCTTCGAGCC TGCCATTGAA ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG 
    GAATTGAAGA ATGAACAAAC ATTGAGAGCA GATGAGATAC TCCCATCAGA ATCCAAACAA 
    AAGGACTATG AAGAAAGTTC TTGGGATTCT GAGAGTCTCT GTGAGACTGT TTCACAGAAG 
    GATGTGTGTT TACCCAAGGC TACGCATCAA AAAGAAATAG ATAAAATAAA TGGAAAATTA 
    GAAGAGTCTC CTGATAATGA TGGTTTTCTG AAGGCTCCCT GCAGAATGAA AGTTTCTATT 
    CCAACTAAAG CCTTAGAATT GATGGACATG CAAACTTTCA AAGCAGAGCC TCCCGAGAAG 
    CCATCTGCCT TCGAGCCTGC CATTGAAATG CAAAAGTCTG TTCCAAATAA AGCCTTGGAA 
    TTGAAGAATG AACAAACATT GAGAGCAGAT CAGATGTTCC CTTCAGAATC AAAACAAAAG 
    AAGGTTGAAG AAAATTCTTG GGATTCTGAG AGTCTCCGTG AGACTGTTTC ACAGAAGGAT 
    GTGTGTGTAC CCAAGGCTAC ACATCAAAAA GAAATGGATA AAATAAGTGG AAAATTAGAA 
    GATTCAACTA GCCTATCAAA AATCTTGGAT ACAGTTCATT CTTGTGAAAG AGCAAGGGAA 
    CTTCAAAAAG ATCACTGTGA ACAACGTACA GGAAAAATGG AACAAATGAA AAAGAAGTTT 
    TGTGTACTGA AAAAGAAACT GTCAGAAGCA AAAGAAATAA AATCACAGTT AGAGAACCAA 
    AAAGTTAAAT GGGAACAAGA GCTCTGCAGT GTGAGATTGA CTTTAAACCA AGAAGAAGAG 
    AAGAGAAGAA ATGCCGATAT ATTAAATGAA AAAATTAGGG AAGAATTAGG AAGAATCGAA 
    GAGCAGCATA GGAAAGAGTT AGAAGTGAAA CAACAACTTG AACAGGCTCT CAGAATACAA 
    GATATAGAAT TGAAGAGTGT AGAAAGTAAT TTGAATCAGG TTTCTCACAC TCATGAAAAT 
    GAAAATTATC TCTTACATGA AAATTGCATG TTGAAAAAGG AAATTGCCAT GCTAAAACTG 
    GAAATAGCCA CACTGAAACA CCAATACCAG GAAAAGGAAA ATAAATACTT TGAGGACATT 
    AAGATTTTAA AAGAAAAGAA TGCTGAACTT CAGATGACCC TAAAACTGAA AGAGGAATCA 
    TTAACTAAAA GGGCATCTCA ATATAGTGGG CAGCTTAAAG TTCTGATAGC TGAGAACACA 
    ATGCTCACTT CTAAATTGAA GGAAAAACAA GACAAAGAAA TACTAGAGGC AGAAATTGAA 
    TCACACCATC CTAGACTGGC TTCTGCTGTA CAAGACCATG ATCAAATTGT GACATCAAGA 
    AAAAGTCAAG AACCTGCTTT CCACATTGCA GGAGATGCTT GTTTGCAAAG AAAAATGAAT 
    GTTGATGTGA GTAGTACGAT ATATAACAAT GAGGTGCTCC ATCAACCACT TTCTGAAGCT 
    CAAAGGAAAT CCAAAAGCCT AAAAATTAAT CTCAATTATG CAGGAGATGC TCTAAGAGAA 
    AATACATTGG TTTCAGAACA TGCACAAAGA GACCAACGTG AAACACAGTG TCAAATGAAG 
    GAAGCTGAAC ACATGTATCA AAACGAACAA GATAATGTGA ACAAACACAC TGAACAGCAG 
    GAGTCTCTAG ATCAGAAATT ATTTCAACTA CAAAGCAAAA ATATGTGGCT TCAACAGCAA 
    TTAGTTCATG CACATAAGAA AGCTGACAAC AAAAGCAAGA TAACAATTGA TATTCATTTT 
    CTTGAGAGGA AAATGCAACA TCATCTCCTA AAAGAGAAAA ATGAGGAGAT ATTTAATTAC 
    AATAACCATT TAAAAAACCG TATATATCAA TATGAAAAAG AGAAAGCAGA AACAGAAAAC 
    TCATGA

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

    RefSeq NP_443723.2
    CDS100..4125
    Translation

    Target ORF information:

    RefSeq Version NM_052997.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_052997.2

    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
    ATGACAAAGA GGAAGAAGAC CATCAACCTT AATATACAAG ACGCCCAGAA GAGGACTGCT 
    CTACACTGGG CCTGTGTCAA TGGCCATGAG GAAGTAGTAA CATTTCTGGT AGACAGAAAG 
    TGCCAGCTTG ACGTCCTTGA TGGCGAACAC AGGACACCTC TGATGAAGGC TCTACAATGC 
    CATCAGGAGG CTTGTGCAAA TATTCTGATA GATTCTGGTG CCGATATAAA TCTCGTAGAT 
    GTGTATGGCA ACACGGCTCT CCATTATGCT GTTTATAGTG AGATTTTGTC AGTGGTGGCA 
    AAACTGCTGT CCCATGGTGC AGTCATCGAA GTGCACAACA AGGCTAGCCT CACACCACTT 
    TTACTATCCA TAACGAAAAG AAGTGAGCAA ATTGTGGAAT TTTTGCTGAT AAAAAATGCA 
    AATGCGAATG CAGTTAATAA GTATAAATGC ACAGCCCTCA TGCTTGCTGT ATGTCATGGA 
    TCATCAGAGA TAGTTGGCAT GCTTCTTCAG CAAAATGTTG ACGTCTTTGC TGCAGATATA 
    TGTGGAGTAA CTGCAGAACA TTATGCTGTT ACTTGTGGAT TTCATCACAT TCATGAACAA 
    ATTATGGAAT ATATACGAAA ATTATCTAAA AATCATCAAA ATACCAATCC AGAAGGAACA 
    TCTGCAGGAA CACCTGATGA GGCTGCACCC TTGGCGGAAA GAACACCTGA CACAGCTGAA 
    AGCTTGGTGG AAAAAACACC TGATGAGGCT GCACCCTTGG TGGAAAGAAC ACCTGACACG 
    GCTGAAAGCT TGGTGGAAAA AACACCTGAT GAGGCTGCAT CCTTGGTGGA GGGAACATCT 
    GACAAAATTC AATGTTTGGA GAAAGCGACA TCTGGAAAGT TCGAACAGTC AGCAGAAGAA 
    ACACCTAGGG AAATTACGAG TCCTGCAAAA GAAACATCTG AGAAATTTAC GTGGCCAGCA 
    AAAGGAAGAC CTAGGAAGAT CGCATGGGAG AAAAAAGAAG ACACACCTAG GGAAATTATG 
    AGTCCCGCAA AAGAAACATC TGAGAAATTT ACGTGGGCAG CAAAAGGAAG ACCTAGGAAG 
    ATCGCATGGG AGAAAAAAGA AACACCTGTA AAGACTGGAT GCGTGGCAAG AGTAACATCT 
    AATAAAACTA AAGTTTTGGA AAAAGGAAGA TCTAAGATGA TTGCATGTCC TACAAAAGAA 
    TCATCTACAA AAGCAAGTGC CAATGATCAG AGGTTCCCAT CAGAATCCAA ACAAGAGGAA 
    GATGAAGAAT ATTCTTGTGA TTCTCGGAGT CTCTTTGAGA GTTCTGCAAA GATTCAAGTG 
    TGTATACCTG AGTCTATATA TCAAAAAGTA ATGGAGATAA ATAGAGAAGT AGAAGAGCCT 
    CCTAAGAAGC CATCTGCCTT CAAGCCTGCC ATTGAAATGC AAAACTCTGT TCCAAATAAA 
    GCCTTTGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC CGATGTTCCC ACCAGAATCC 
    AAACAAAAGG ACTATGAAGA AAATTCTTGG GATTCTGAGA GTCTCTGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTTTACC CAAGGCTACA CATCAAAAAG AAATAGATAA AATAAATGGA 
    AAATTAGAAG AGTCTCCTAA TAAAGATGGT CTTCTGAAGG CTACCTGCGG AATGAAAGTT 
    TCTATTCCAA CTAAAGCCTT AGAATTGAAG GACATGCAAA CTTTCAAAGC AGAGCCTCCG 
    GGGAAGCCAT CTGCCTTCGA GCCTGCCACT GAAATGCAAA AGTCTGTCCC AAATAAAGCC 
    TTGGAATTGA AAAATGAACA AACATTGAGA GCAGATGAGA TACTCCCATC AGAATCCAAA 
    CAAAAGGACT ATGAAGAAAA TTCTTGGGAT ACTGAGAGTC TCTGTGAGAC TGTTTCACAG 
    AAGGATGTGT GTTTACCCAA GGCTGCGCAT CAAAAAGAAA TAGATAAAAT AAATGGAAAA 
    TTAGAAGGGT CTCCTGTTAA AGATGGTCTT CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT 
    ATTCCAACTA AAGCCTTAGA ATTGATGGAC ATGCAAACTT TCAAAGCAGA GCCTCCCGAG 
    AAGCCATCTG CCTTCGAGCC TGCCATTGAA ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG 
    GAATTGAAGA ATGAACAAAC ATTGAGAGCA GATGAGATAC TCCCATCAGA ATCCAAACAA 
    AAGGACTATG AAGAAAGTTC TTGGGATTCT GAGAGTCTCT GTGAGACTGT TTCACAGAAG 
    GATGTGTGTT TACCCAAGGC TACGCATCAA AAAGAAATAG ATAAAATAAA TGGAAAATTA 
    GAAGAGTCTC CTGATAATGA TGGTTTTCTG AAGGCTCCCT GCAGAATGAA AGTTTCTATT 
    CCAACTAAAG CCTTAGAATT GATGGACATG CAAACTTTCA AAGCAGAGCC TCCCGAGAAG 
    CCATCTGCCT TCGAGCCTGC CATTGAAATG CAAAAGTCTG TTCCAAATAA AGCCTTGGAA 
    TTGAAGAATG AACAAACATT GAGAGCAGAT CAGATGTTCC CTTCAGAATC AAAACAAAAG 
    AAGGTTGAAG AAAATTCTTG GGATTCTGAG AGTCTCCGTG AGACTGTTTC ACAGAAGGAT 
    GTGTGTGTAC CCAAGGCTAC ACATCAAAAA GAAATGGATA AAATAAGTGG AAAATTAGAA 
    GATTCAACTA GCCTATCAAA AATCTTGGAT ACAGTTCATT CTTGTGAAAG AGCAAGGGAA 
    CTTCAAAAAG ATCACTGTGA ACAACGTACA GGAAAAATGG AACAAATGAA AAAGAAGTTT 
    TGTGTACTGA AAAAGAAACT GTCAGAAGCA AAAGAAATAA AATCACAGTT AGAGAACCAA 
    AAAGTTAAAT GGGAACAAGA GCTCTGCAGT GTGAGATTGA CTTTAAACCA AGAAGAAGAG 
    AAGAGAAGAA ATGCCGATAT ATTAAATGAA AAAATTAGGG AAGAATTAGG AAGAATCGAA 
    GAGCAGCATA GGAAAGAGTT AGAAGTGAAA CAACAACTTG AACAGGCTCT CAGAATACAA 
    GATATAGAAT TGAAGAGTGT AGAAAGTAAT TTGAATCAGG TTTCTCACAC TCATGAAAAT 
    GAAAATTATC TCTTACATGA AAATTGCATG TTGAAAAAGG AAATTGCCAT GCTAAAACTG 
    GAAATAGCCA CACTGAAACA CCAATACCAG GAAAAGGAAA ATAAATACTT TGAGGACATT 
    AAGATTTTAA AAGAAAAGAA TGCTGAACTT CAGATGACCC TAAAACTGAA AGAGGAATCA 
    TTAACTAAAA GGGCATCTCA ATATAGTGGG CAGCTTAAAG TTCTGATAGC TGAGAACACA 
    ATGCTCACTT CTAAATTGAA GGAAAAACAA GACAAAGAAA TACTAGAGGC AGAAATTGAA 
    TCACACCATC CTAGACTGGC TTCTGCTGTA CAAGACCATG ATCAAATTGT GACATCAAGA 
    AAAAGTCAAG AACCTGCTTT CCACATTGCA GGAGATGCTT GTTTGCAAAG AAAAATGAAT 
    GTTGATGTGA GTAGTACGAT ATATAACAAT GAGGTGCTCC ATCAACCACT TTCTGAAGCT 
    CAAAGGAAAT CCAAAAGCCT AAAAATTAAT CTCAATTATG CAGGAGATGC TCTAAGAGAA 
    AATACATTGG TTTCAGAACA TGCACAAAGA GACCAACGTG AAACACAGTG TCAAATGAAG 
    GAAGCTGAAC ACATGTATCA AAACGAACAA GATAATGTGA ACAAACACAC TGAACAGCAG 
    GAGTCTCTAG ATCAGAAATT ATTTCAACTA CAAAGCAAAA ATATGTGGCT TCAACAGCAA 
    TTAGTTCATG CACATAAGAA AGCTGACAAC AAAAGCAAGA TAACAATTGA TATTCATTTT 
    CTTGAGAGGA AAATGCAACA TCATCTCCTA AAAGAGAAAA ATGAGGAGAT ATTTAATTAC 
    AATAACCATT TAAAAAACCG TATATATCAA TATGAAAAAG AGAAAGCAGA AACAGAAAAC 
    TCATGA

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

    ANKRD30A ( XM_011519757.3 ) cDNA ORF clone, Homo sapiens(human) -> XP_011518059.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74294
    Clone ID Related Accession (Same CDS sequence) XM_011519757.3 , XM_011519757.2
    Accession Version XM_011519757.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4758bp)
    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 ankyrin repeat domain-containing protein 30A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011519757.2. ##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
    4561
    4621
    4681
    4741
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    RefSeq XP_011518059.1
    CDS35..4792
    Translation

    Target ORF information:

    RefSeq Version XM_011519757.3
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519757.3

    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
    4561
    4621
    4681
    4741
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    ANKRD30A ( XM_011519757.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011518059.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OHu74294
    Clone ID Related Accession (Same CDS sequence) XM_011519757.3 , XM_011519757.2
    Accession Version XM_011519757.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4758bp)
    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 ankyrin repeat domain-containing protein 30A isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519757.1. ##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
    4561
    4621
    4681
    4741
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    RefSeq XP_011518059.1
    CDS35..4792
    Translation

    Target ORF information:

    RefSeq Version XM_011519757.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519757.2

    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
    4561
    4621
    4681
    4741
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    ANKRD30A ( XM_011519758.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011518060.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OHu74295
    Clone ID Related Accession (Same CDS sequence) XM_011519758.2
    Accession Version XM_011519758.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3579bp)
    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 ankyrin repeat domain-containing protein 30A isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011519758.1. ##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
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGGTTTCT CACACTCATG 
    AAAATGAAAA TTATCTCTTA CATGAAAATT GCATGTTGA

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

    RefSeq XP_011518060.1
    CDS35..3613
    Translation

    Target ORF information:

    RefSeq Version XM_011519758.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_011519758.2

    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
    ATGGAGGAGA TCTCTGCCGC CGCTGTCAAG GTCGTGCCGG GCCCGGAGCG CCCGAGCCCT 
    TTCAGCCAGC TAGTCTATAC CAGCAACGAC TCCTACATCG TCCACTCTGG GGATCTTAGA 
    AAGATCCATA AAGCTGCCTC CCGGGGACAA GTCCGGAAGC TGGAGAAGAT GACAAAGAGG 
    AAGAAGACCA TCAACCTTAA TATACAAGAC GCCCAGAAGA GGACTGCTCT ACACTGGGCC 
    TGTGTCAATG GCCATGAGGA AGTAGTAACA TTTCTGGTAG ACAGAAAGTG CCAGCTTGAC 
    GTCCTTGATG GCGAACACAG GACACCTCTG ATGAAGGCTC TACAATGCCA TCAGGAGGCT 
    TGTGCAAATA TTCTGATAGA TTCTGGTGCC GATATAAATC TCGTAGATGT GTATGGCAAC 
    ACGGCTCTCC ATTATGCTGT TTATAGTGAG ATTTTGTCAG TGGTGGCAAA ACTGCTGTCC 
    CATGGTGCAG TCATCGAAGT GCACAACAAG GCTAGCCTCA CACCACTTTT ACTATCCATA 
    ACGAAAAGAA GTGAGCAAAT TGTGGAATTT TTGCTGATAA AAAATGCAAA TGCGAATGCA 
    GTTAATAAGT ATAAATGCAC AGCCCTCATG CTTGCTGTAT GTCATGGATC ATCAGAGATA 
    GTTGGCATGC TTCTTCAGCA AAATGTTGAC GTCTTTGCTG CAGATATATG TGGAGTAACT 
    GCAGAACATT ATGCTGTTAC TTGTGGATTT CATCACATTC ATGAACAAAT TATGGAATAT 
    ATACGAAAAT TATCTAAAAA TCATCAAAAT ACCAATCCAG AAGGAACATC TGCAGGAACA 
    CCTGATGAGG CTGCACCCTT GGCGGAAAGA ACACCTGACA CAGCTGAAAG CTTGGTGGAA 
    AAAACACCTG ATGAGGCTGC ACCCTTGGTG GAAAGAACAC CTGACACGGC TGAAAGCTTG 
    GTGGAAAAAA CACCTGATGA GGCTGCATCC TTGGTGGAGG GAACATCTGA CAAAATTCAA 
    TGTTTGGAGA AAGCGACATC TGGAAAGTTC GAACAGTCAG CAGAAGAAAC ACCTAGGGAA 
    ATTACGAGTC CTGCAAAAGA AACATCTGAG AAATTTACGT GGCCAGCAAA AGGAAGACCT 
    AGGAAGATCG CATGGGAGAA AAAAGAAGAC ACACCTAGGG AAATTATGAG TCCCGCAAAA 
    GAAACATCTG AGAAATTTAC GTGGGCAGCA AAAGGAAGAC CTAGGAAGAT CGCATGGGAG 
    AAAAAAGAAA CACCTGTAAA GACTGGATGC GTGGCAAGAG TAACATCTAA TAAAACTAAA 
    GTTTTGGAAA AAGGAAGATC TAAGATGATT GCATGTCCTA CAAAAGAATC ATCTACAAAA 
    GCAAGTGCCA ATGATCAGAG GTTCCCATCA GAATCCAAAC AAGAGGAAGA TGAAGAATAT 
    TCTTGTGATT CTCGGAGTCT CTTTGAGAGT TCTGCAAAGA TTCAAGTGTG TATACCTGAG 
    TCTATATATC AAAAAGTAAT GGAGATAAAT AGAGAAGTAG AAGAGCCTCC TAAGAAGCCA 
    TCTGCCTTCA AGCCTGCCAT TGAAATGCAA AACTCTGTTC CAAATAAAGC CTTTGAATTG 
    AAGAATGAAC AAACATTGAG AGCAGATCCG ATGTTCCCAC CAGAATCCAA ACAAAAGGAC 
    TATGAAGAAA ATTCTTGGGA TTCTGAGAGT CTCTGTGAGA CTGTTTCACA GAAGGATGTG 
    TGTTTACCCA AGGCTACACA TCAAAAAGAA ATAGATAAAA TAAATGGAAA ATTAGAAGAG 
    TCTCCTAATA AAGATGGTCT TCTGAAGGCT ACCTGCGGAA TGAAAGTTTC TATTCCAACT 
    AAAGCCTTAG AATTGAAGGA CATGCAAACT TTCAAAGCAG AGCCTCCGGG GAAGCCATCT 
    GCCTTCGAGC CTGCCACTGA AATGCAAAAG TCTGTCCCAA ATAAAGCCTT GGAATTGAAA 
    AATGAACAAA CATTGAGAGC AGATGAGATA CTCCCATCAG AATCCAAACA AAAGGACTAT 
    GAAGAAAATT CTTGGGATAC TGAGAGTCTC TGTGAGACTG TTTCACAGAA GGATGTGTGT 
    TTACCCAAGG CTGCGCATCA AAAAGAAATA GATAAAATAA ATGGAAAATT AGAAGGTAGA 
    TATGCTGCTG AATTTAGAAC ATTCTCTGCA ATGATAAGGT CTCCTGTTAA AGATGGTCTT 
    CTGAAGGCTA ACTGCGGAAT GAAAGTTTCT ATTCCAACTA AAGCCTTAGA ATTGATGGAC 
    ATGCAAACTT TCAAAGCAGA GCCTCCCGAG AAGCCATCTG CCTTCGAGCC TGCCATTGAA 
    ATGCAAAAGT CTGTTCCAAA TAAAGCCTTG GAATTGAAGA ATGAACAAAC ATTGAGAGCA 
    GATGAGATAC TCCCATCAGA ATCCAAACAA AAGGACTATG AAGAAAGTTC TTGGGATTCT 
    GAGAGTCTCT GTGAGACTGT TTCACAGAAG GATGTGTGTT TACCCAAGGC TGCGCATCAA 
    AAAGAAATAG ATAAAATAAA TGGAAAATTA GAAGGTAGAT ATGCTGCTGA ATTTAGAACA 
    TTCTCTGCAA TGATAAGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGGTTTCT CACACTCATG 
    AAAATGAAAA TTATCTCTTA CATGAAAATT GCATGTTGA

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

    ANKRD30A ( XM_017016883.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016872372.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OHu91789
    Clone ID Related Accession (Same CDS sequence) XM_017016883.2 , XM_017016883.1
    Accession Version XM_017016883.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 ankyrin repeat domain-containing protein 30A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017016883.1. ##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
    ATGAAAGTTT CTATTCCAAC TAAAGCCTTA GAATTGATGG ACATGCAAAC TTTCAAAGCA 
    GAGCCTCCCG AGAAGCCATC TGCCTTCGAG CCTGCCATTG AAATGCAAAA GTCTGTTCCA 
    AATAAAGCCT TGGAATTGAA GAATGAACAA ACATTGAGAG CAGATGAGAT ACTCCCATCA 
    GAATCCAAAC AAAAGGACTA TGAAGAAAGT TCTTGGGATT CTGAGAGTCT CTGTGAGACT 
    GTTTCACAGA AGGATGTGTG TTTACCCAAG GCTGCGCATC AAAAAGAAAT AGATAAAATA 
    AATGGAAAAT TAGAAGGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    RefSeq XP_016872372.1
    CDS144..2621
    Translation

    Target ORF information:

    RefSeq Version XM_017016883.2
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016883.2

    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
    ATGAAAGTTT CTATTCCAAC TAAAGCCTTA GAATTGATGG ACATGCAAAC TTTCAAAGCA 
    GAGCCTCCCG AGAAGCCATC TGCCTTCGAG CCTGCCATTG AAATGCAAAA GTCTGTTCCA 
    AATAAAGCCT TGGAATTGAA GAATGAACAA ACATTGAGAG CAGATGAGAT ACTCCCATCA 
    GAATCCAAAC AAAAGGACTA TGAAGAAAGT TCTTGGGATT CTGAGAGTCT CTGTGAGACT 
    GTTTCACAGA AGGATGTGTG TTTACCCAAG GCTGCGCATC AAAAAGAAAT AGATAAAATA 
    AATGGAAAAT TAGAAGGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    ANKRD30A ( XM_017016883.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016872372.1 Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OHu91789
    Clone ID Related Accession (Same CDS sequence) XM_017016883.2 , XM_017016883.1
    Accession Version XM_017016883.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2478bp)
    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 ankyrin repeat domain-containing protein 30A isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000010.11) annotated using gene prediction method: Gnomon, supported by 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
    ATGAAAGTTT CTATTCCAAC TAAAGCCTTA GAATTGATGG ACATGCAAAC TTTCAAAGCA 
    GAGCCTCCCG AGAAGCCATC TGCCTTCGAG CCTGCCATTG AAATGCAAAA GTCTGTTCCA 
    AATAAAGCCT TGGAATTGAA GAATGAACAA ACATTGAGAG CAGATGAGAT ACTCCCATCA 
    GAATCCAAAC AAAAGGACTA TGAAGAAAGT TCTTGGGATT CTGAGAGTCT CTGTGAGACT 
    GTTTCACAGA AGGATGTGTG TTTACCCAAG GCTGCGCATC AAAAAGAAAT AGATAAAATA 
    AATGGAAAAT TAGAAGGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

    RefSeq XP_016872372.1
    CDS144..2621
    Translation

    Target ORF information:

    RefSeq Version XM_017016883.1
    Organism Homo sapiens(human)
    Definition Homo sapiens ankyrin repeat domain 30A (ANKRD30A), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017016883.1

    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
    ATGAAAGTTT CTATTCCAAC TAAAGCCTTA GAATTGATGG ACATGCAAAC TTTCAAAGCA 
    GAGCCTCCCG AGAAGCCATC TGCCTTCGAG CCTGCCATTG AAATGCAAAA GTCTGTTCCA 
    AATAAAGCCT TGGAATTGAA GAATGAACAA ACATTGAGAG CAGATGAGAT ACTCCCATCA 
    GAATCCAAAC AAAAGGACTA TGAAGAAAGT TCTTGGGATT CTGAGAGTCT CTGTGAGACT 
    GTTTCACAGA AGGATGTGTG TTTACCCAAG GCTGCGCATC AAAAAGAAAT AGATAAAATA 
    AATGGAAAAT TAGAAGGGTC TCCTGTTAAA GATGGTCTTC TGAAGGCTAA CTGCGGAATG 
    AAAGTTTCTA TTCCAACTAA AGCCTTAGAA TTGATGGACA TGCAAACTTT CAAAGCAGAG 
    CCTCCCGAGA AGCCATCTGC CTTCGAGCCT GCCATTGAAA TGCAAAAGTC TGTTCCAAAT 
    AAAGCCTTGG AATTGAAGAA TGAACAAACA TTGAGAGCAG ATGAGATACT CCCATCAGAA 
    TCCAAACAAA AGGACTATGA AGAAAGTTCT TGGGATTCTG AGAGTCTCTG TGAGACTGTT 
    TCACAGAAGG ATGTGTGTTT ACCCAAGGCT ACGCATCAAA AAGAAATAGA TAAAATAAAT 
    GGAAAATTAG AAGAGTCTCC TGATAATGAT GGTTTTCTGA AGGCTCCCTG CAGAATGAAA 
    GTTTCTATTC CAACTAAAGC CTTAGAATTG ATGGACATGC AAACTTTCAA AGCAGAGCCT 
    CCCGAGAAGC CATCTGCCTT CGAGCCTGCC ATTGAAATGC AAAAGTCTGT TCCAAATAAA 
    GCCTTGGAAT TGAAGAATGA ACAAACATTG AGAGCAGATC AGATGTTCCC TTCAGAATCA 
    AAACAAAAGA AGGTTGAAGA AAATTCTTGG GATTCTGAGA GTCTCCGTGA GACTGTTTCA 
    CAGAAGGATG TGTGTGTACC CAAGGCTACA CATCAAAAAG AAATGGATAA AATAAGTGGA 
    AAATTAGAAG ATTCAACTAG CCTATCAAAA ATCTTGGATA CAGTTCATTC TTGTGAAAGA 
    GCAAGGGAAC TTCAAAAAGA TCACTGTGAA CAACGTACAG GAAAAATGGA ACAAATGAAA 
    AAGAAGTTTT GTGTACTGAA AAAGAAACTG TCAGAAGCAA AAGAAATAAA ATCACAGTTA 
    GAGAACCAAA AAGTTAAATG GGAACAAGAG CTCTGCAGTG TGAGATTGAC TTTAAACCAA 
    GAAGAAGAGA AGAGAAGAAA TGCCGATATA TTAAATGAAA AAATTAGGGA AGAATTAGGA 
    AGAATCGAAG AGCAGCATAG GAAAGAGTTA GAAGTGAAAC AACAACTTGA ACAGGCTCTC 
    AGAATACAAG ATATAGAATT GAAGAGTGTA GAAAGTAATT TGAATCAGGT TTCTCACACT 
    CATGAAAATG AAAATTATCT CTTACATGAA AATTGCATGT TGAAAAAGGA AATTGCCATG 
    CTAAAACTGG AAATAGCCAC ACTGAAACAC CAATACCAGG AAAAGGAAAA TAAATACTTT 
    GAGGACATTA AGATTTTAAA AGAAAAGAAT GCTGAACTTC AGATGACCCT AAAACTGAAA 
    GAGGAATCAT TAACTAAAAG GGCATCTCAA TATAGTGGGC AGCTTAAAGT TCTGATAGCT 
    GAGAACACAA TGCTCACTTC TAAATTGAAG GAAAAACAAG ACAAAGAAAT ACTAGAGGCA 
    GAAATTGAAT CACACCATCC TAGACTGGCT TCTGCTGTAC AAGACCATGA TCAAATTGTG 
    ACATCAAGAA AAAGTCAAGA ACCTGCTTTC CACATTGCAG GAGATGCTTG TTTGCAAAGA 
    AAAATGAATG TTGATGTGAG TAGTACGATA TATAACAATG AGGTGCTCCA TCAACCACTT 
    TCTGAAGCTC AAAGGAAATC CAAAAGCCTA AAAATTAATC TCAATTATGC AGGAGATGCT 
    CTAAGAGAAA ATACATTGGT TTCAGAACAT GCACAAAGAG ACCAACGTGA AACACAGTGT 
    CAAATGAAGG AAGCTGAACA CATGTATCAA AACGAACAAG ATAATGTGAA CAAACACACT 
    GAACAGCAGG AGTCTCTAGA TCAGAAATTA TTTCAACTAC AAAGCAAAAA TATGTGGCTT 
    CAACAGCAAT TAGTTCATGC ACATAAGAAA GCTGACAACA AAAGCAAGAT AACAATTGAT 
    ATTCATTTTC TTGAGAGGAA AATGCAACAT CATCTCCTAA AAGAGAAAAA TGAGGAGATA 
    TTTAATTACA ATAACCATTT AAAAAACCGT ATATATCAAT ATGAAAAAGA GAAAGCAGAA 
    ACAGAAGTCA TTGTGAGACA ACTTCAAAAA AACTTGGCTG ATCTCAATAA ACAGTGTGTG 
    TCTGAGGCTT CACTAGAGGT TACATCACAT TATCACATTA ATCTCAAAGA TGAGATACAG 
    GATTTAATGA AGAAATGA

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

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