FAM135B cDNA ORF clone, Homo sapiens(human)

The following FAM135B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FAM135B 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
OHu09710 NM_001362965.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu09710 NM_015912.4
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu09710 XM_011517064.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu09710 XM_017013470.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$727.30
$1039.00
OHu98017 XM_017013471.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu67613 XM_011517068.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu67614 XM_011517069.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu67615 XM_011517070.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu67617 XM_011517072.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X17, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu67618 XM_011517073.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X18, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu67619 XM_011517074.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X19, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu67609 XM_011517060.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517063.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517056.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517058.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517061.2
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517059.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67609 XM_011517062.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu67610 XM_011517065.1
Latest version!
Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
View Old Accession Versions >>
OHu09710 NM_015912.3 Homo sapiens family with sequence similarity 135 member B (FAM135B), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$519.50-$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)
    CloneID OHu09710
    Clone ID Related Accession (Same CDS sequence) XM_017013470.1 , XM_011517064.2 , NM_015912.4 , NM_015912.3 , NM_001362965.1
    Accession Version NM_015912.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product protein FAM135B
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC068467.7, AK091433.1, BC037288.1, AC103777.14 and BX110118.1. On Nov 22, 2018 this sequence version replaced NM_015912.3. ##Evidence-Data-START## Transcript exon combination :: SRR1803617.82870.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968540 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000395297.6/ ENSP00000378710.1 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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    RefSeq NP_056996.2
    CDS611..4831
    Translation

    Target ORF information:

    RefSeq Version NM_015912.4
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015912.4

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    CloneID OHu09710
    Clone ID Related Accession (Same CDS sequence) XM_017013470.1 , XM_011517064.2 , NM_015912.4 , NM_015912.3 , NM_001362965.1
    Accession Version NM_015912.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product protein FAM135B
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK091433.1, BC037288.1, AC103777.14 and BX110118.1. On Sep 8, 2006 this sequence version replaced NM_015912.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968540 [ECO:0000350] ##Evidence-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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    RefSeq NP_056996.2
    CDS172..4392
    Translation

    Target ORF information:

    RefSeq Version NM_015912.3
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015912.3

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    CloneID OHu09710
    Clone ID Related Accession (Same CDS sequence) XM_017013470.1 , XM_011517064.2 , NM_015912.4 , NM_015912.3 , NM_001362965.1
    Accession Version NM_001362965.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 2020-01-01
    Organism Homo sapiens(human)
    Product protein FAM135B
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC068467.7, AK091433.1, BC037288.1, AC103777.14, BX110118.1 and H05729.1. On May 4, 2018 this sequence version replaced XM_017013470.1. 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 :: SRR1803613.27378.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1966682, SAMEA1968540 [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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    RefSeq NP_001349894.1
    CDS124..4344
    Translation

    Target ORF information:

    RefSeq Version NM_001362965.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001362965.1

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    CloneID OHu09710
    Clone ID Related Accession (Same CDS sequence) XM_017013470.1 , XM_011517064.2 , NM_015912.4 , NM_015912.3 , NM_001362965.1
    Accession Version XM_017013470.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 protein FAM135B isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    RefSeq XP_016868959.1
    CDS784..5004
    Translation

    Target ORF information:

    RefSeq Version XM_017013470.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017013470.1

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    CloneID OHu09710
    Clone ID Related Accession (Same CDS sequence) XM_017013470.1 , XM_011517064.2 , NM_015912.4 , NM_015912.3 , NM_001362965.1
    Accession Version XM_011517064.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4221bp)
    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 protein FAM135B isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517064.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    RefSeq XP_011515366.1
    CDS977..5197
    Translation

    Target ORF information:

    RefSeq Version XM_011517064.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517064.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTTTTTATCA GGCCAAAGAA
    AAATTTAAAA AAGAACTGAA GATTGAAGGA TTTCTGTACA GTGACTTAAC TGTACTAGCT
    TCTGATATAC CATATTTCCC ACCAGAGGAA GAGGAAGAAA ATTTGGAAGA TGGAATTCAC
    CTGGTTGTCT GTGTCCATGG CCTGGATGGG AACAGTGCAG ACCTCCGGCT GGTAAAGACT
    TTCATAGAAC TGGGGCTCCC TGGAGGAAAA CTGGACTTCC TAATGTCTGA AAAGAATCAG
    ATGGACACAT TTGCAGATTT TGATACTATG ACGGATCGGT TATTGGATGA AATCATTCAA
    CACATTCAGT TGTACAACCT CTCCATATCC CGAATTAGCT TCATTGGCCA TTCTCTTGGC
    AACATCATCA TCCGATCGGT CCTCACACGG CCCCGGTTCC GGTATTACCT CAACAAACTC
    CACACGTTCC TGTCACTCTC TGGGCCTCAC CTGGGAACCC TGTACAACAA CAGCACCCTG
    GTTAGTACAG GCTTATGGCT CATGCAGAAA CTGAAGAAAT CCGGGTCTCT ACTGCAGCTG
    ACCTTCAGGG ATAATGCTGA TTTGCGCAAA TGTTTCCTCT ACCAACTAAG CCAAAAAACA
    GGGCTGCAGT ATTTTAAAAA CGTCGTGCTG GTTGCTTCTC CCCAAGACCG TTATGTGCCA
    TTTCATTCAG CCAGGATTGA AATGTGTAAA ACTGCCCTCA AAGACAGACA CACAGGGCCA
    GTTTATGCAG AAATGATCAA CAACCTCCTG GGCCCTCTGG TTGAAGCCAA GGACTGCACT
    TTAATCCGAC ACAACGTGTT CCACGCCCTG CCCAACACTG CCAACACCCT GATCGGCCGA
    GCCGCTCACA TCGCTGTGCT GGATTCAGAA CTCTTCCTGG AGAAGTTTTT CTTGGTGGCA
    GGACTCAACT ACTTCAAGTA G

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

    CloneID OHu98017
    Clone ID Related Accession (Same CDS sequence) XM_017013471.1
    Accession Version XM_017013471.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4176bp)
    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 protein FAM135B isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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 :: 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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    ATGGAAGACG CACTGAGTGA AGTAGATTTT CAACTCAAGG TGGATCTGCA CTTTACGGAC
    AGTGAACAGC AGTTGAGGGA TGTGGCTGGG GCACCGATGG TCAGCAGCCG AACGCTTGGC
    CTGCACTTCC ACCCCCGGAA TGGTCTGCAC CACCAGGTCC CGGTCATGTT CGACTATTTC
    CACCTGTCTG TGATCTCGGT GACCGTCCAT GCTGCCCTGG TGGCTCTGCA GCAGCCATTG
    ATCAGTTTTA CTCGTCCAGG AAGAGGCTCC TGGCTTGGTA AAGGTGGCCC AGACACCGGA
    CAAGAACAGT CTATCATTTC TCTGGAAAAC TTGGTCTTTG GAGCTGGGTA CTGCAAGCCG
    ACTTCCTCAG AGGGAAGCTT CTACATCACC TCTGAGAACT GCATGCAGCA CGCACACAAG
    TGGCACCGAG ACCTGTGCCT GTTGCTCCTC CACGCTTACC GGGGTCTCCG TCTCCACTTC
    CTGGTGATCA TGCGGGACAT CCCAGAGCTG CCACACACGG AGCTGGAGGC CCTTGCTGTT
    GAAGAAACAC TTTCTCAGCT GTGCTCAGAG CTACAGATGT TGAACAATCC AGAGAAGATC
    GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG CTCACGTCCC ACATGATGAC TCTGTGGACC
    CAGTTCCTGG ACACAGTCAC TCTGCACTCC CAAGTGACCA CTTATCTCAC CCAGGAACAC
    CACACCCTGA GGGTCCGAAG GTTTTCTGAG GCCTTCTTTT ACATGGAGCA CCAAAAACTT
    GCAGTCCTGA CATTTCAGGA GAATCTGATA CAGACGCACA GCCAGCTGTC CCTGGATATC
    CGGAACTCGG AGTACCTCAC TAGCATGCCC CCGCTGCCTG CAGAGTGCCT GGACATCGAC
    GGCGATTGGA ACACCCTGCC GGTGATCTTT GAGGACAGAT ACGTGGACTG CCCTGCGACA
    GGGCATAACT TGAGTGTTTA TCCTAATTTT GATGTTCCAG TGACAAGTCC TACAATAATG
    AATCTGAAAG ACAAGGAAGA TAACTGTATG GTAAATAGCA ATTTATCTTT TAGGGAAGAC
    CTTGTCTTGT CTACCATAAA ACCATCCCAA ATGGATTCTG ATGAAGAAGT TATAAGGTGT
    CCAGAGCCAG GTGAGAATGT GGCCACACAA AATCATATGG ACATGTGCTC TGAATCTCAG
    GTGTATATAT CAATTGGTGA ATTTCAAAAC AAAGCAGGTG TGCCTGAAGA TGAATGTTGG
    ACTGGCCAAA CATCTGATGC TGGGACATAT CCAGTGGCAG ATGTGGATAC TTCTAGAAGG
    AGTCCAGGTC CAGAGGATGG ACAGGCCCCA GTGCTGACCT ACATTGACGT AAAATCTAGC
    AATAAGAACC CCTCCAGAGC TGAACCCCTG GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG
    AGCTCTAGAG ATAAGTATGG ATTAGACAGG ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA
    AGCCACCAAA ATGCCATCTC TTCAGACAAA ACAACTCTCC ATGAATTAAG TACTCTAGGA
    AAGGGAATAG ATCAAGAGGG GAAGATGGTG CTGCTAAGCT TGAAACTCAC CCCCTCTGAG
    CCCTGTGATC CACTAAGTTC TACCCTGAGG GAGCCCTTAG ATATTAGGTC TTCCCTAAAG
    GACTCTCACA CAGAAGAGCA GGAGGAACTC TCAGTGCTAT CCGGGGTCAT CAAGAGATCT
    TCATCCATCA TATCTGATTC AGGCATTGAG AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG
    GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT GATCGGGAAG TCTTGCACCC GTTTGTTCGA
    AGACATGCCC TCCACCGGAA CTCCCTAGAG GGTGGACACA CAGAAAGTAA CACAAGTTTG
    CCAAGCGGCA TCCAGGCTTC TCTCACCTCC ATTAGCTCTT TACCTTTTGA GGAGGATGAG
    CGGGAGGTGG CACTCACTAA GTTAACCAAG TCTGTATCTG CTCCCCACAT CAGTAGCCCA
    GAGGAGGCTG CTGAAGATGC GGACACCAAG CAGCAAGATG GAGGTTTTGC TGAACCTTCA
    GATATGCACA GCAAGAGCCA AGGTTCCCCA GGATCTTGCT CTCAACTTTG TGGTGACTCT
    GGAACAGATG CTGGAGCAGA CCATCCCCTG GTGGAGATAG TTTTAGATGC TGACAACCAG
    CAGGGCCCCG GATACATAGA CATCCCCAAA GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA
    CACTGTCTTC CTGATGGCAG GACTGAGAAC ACTCCAGGTG TTGAAACCAA AGGTCTTAAT
    TTAAAAATAC CACGCGTCAT AGCACTTGAA AACCCCAGGA CCAGATCTCT TCATAGAGCA
    CTTGAGGAAA CCCCAAAGGG CATGCCTAAA GACTTGAATG TGGGTCAGCA AGCTCTTTCC
    AACAGTGGCA TCTCAGAGGT TGAGGGTCTC TCTCAACATC AGGTGCCTGA ATTGAGCTGT
    ACGTCAGCTG CTGATGCCAT CAACAGGAAC TCAACAGGCC AGCAAAGCCA AAGCGGTTCA
    CCTTGCATTA TGGATGACAC AGCATTTAAT AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA
    CATAAAGCAG GCACTGTGTG CCCCACTGTG ACCCATTCCG TTCATTCCCA GGTTTTGAAA
    AACCAAGAGC TGAAGGCAGG CACTTCCATC ATGGGGTCCC ATCTGACTTC TGCAGAGACC
    TTTACTCTGG ACAGCCTGAA GGCTGTGGAG GTTGTGAACT TATCTGTGTC TTGCACTGCC
    ACCTGTCTCC CTTTCTCATC TGTGCCCAAG GAGACCCCTG CCAGGGCTGG ATTCTCTTCC
    AAACAGACCC TGTTTCCCAT CACCCATCAG CCTTTGGGAT CCTTTGGAGT TGTTTCTACC
    CATTCCAGCA CGTTGGATGA GGAAGTCAGT GAGAGGATGT TTAGTGTATT CTCCAGTTTT
    TATCAGGCCA AAGAAAAATT TAAAAAAGAA CTGAAGATTG AAGGATTTCT GTACAGTGAC
    TTAACTGTAC TAGCTTCTGA TATACCATAT TTCCCACCAG AGGAAGAGGA AGAAAATTTG
    GAAGATGGAA TTCACCTGGT TGTCTGTGTC CATGGCCTGG ATGGGAACAG TGCAGACCTC
    CGGCTGGTAA AGACTTTCAT AGAACTGGGG CTCCCTGGAG GAAAACTGGA CTTCCTAATG
    TCTGAAAAGA ATCAGATGGA CACATTTGCA GATTTTGATA CTATGACGGA TCGGTTATTG
    GATGAAATCA TTCAACACAT TCAGTTGTAC AACCTCTCCA TATCCCGAAT TAGCTTCATT
    GGCCATTCTC TTGGCAACAT CATCATCCGA TCGGTCCTCA CACGGCCCCG GTTCCGGTAT
    TACCTCAACA AACTCCACAC GTTCCTGTCA CTCTCTGGGC CTCACCTGGG AACCCTGTAC
    AACAACAGCA CCCTGGTTAG TACAGGCTTA TGGCTCATGC AGAAACTGAA GAAATCCGGG
    TCTCTACTGC AGCTGACCTT CAGGGATAAT GCTGATTTGC GCAAATGTTT CCTCTACCAA
    CTAAGCCAAA AAACAGGGCT GCAGTATTTT AAAAACGTCG TGCTGGTTGC TTCTCCCCAA
    GACCGTTATG TGCCATTTCA TTCAGCCAGG ATTGAAATGT GTAAAACTGC CCTCAAAGAC
    AGACACACAG GGCCAGTTTA TGCAGAAATG ATCAACAACC TCCTGGGCCC TCTGGTTGAA
    GCCAAGGACT GCACTTTAAT CCGACACAAC GTGTTCCACG CCCTGCCCAA CACTGCCAAC
    ACCCTGATCG GCCGAGCCGC TCACATCGCT GTGCTGGATT CAGAACTCTT CCTGGAGAAG
    TTTTTCTTGG TGGCAGGACT CAACTACTTC AAGTAG

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

    RefSeq XP_016868960.1
    CDS978..5153
    Translation

    Target ORF information:

    RefSeq Version XM_017013471.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017013471.1

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    ATGGAAGACG CACTGAGTGA AGTAGATTTT CAACTCAAGG TGGATCTGCA CTTTACGGAC
    AGTGAACAGC AGTTGAGGGA TGTGGCTGGG GCACCGATGG TCAGCAGCCG AACGCTTGGC
    CTGCACTTCC ACCCCCGGAA TGGTCTGCAC CACCAGGTCC CGGTCATGTT CGACTATTTC
    CACCTGTCTG TGATCTCGGT GACCGTCCAT GCTGCCCTGG TGGCTCTGCA GCAGCCATTG
    ATCAGTTTTA CTCGTCCAGG AAGAGGCTCC TGGCTTGGTA AAGGTGGCCC AGACACCGGA
    CAAGAACAGT CTATCATTTC TCTGGAAAAC TTGGTCTTTG GAGCTGGGTA CTGCAAGCCG
    ACTTCCTCAG AGGGAAGCTT CTACATCACC TCTGAGAACT GCATGCAGCA CGCACACAAG
    TGGCACCGAG ACCTGTGCCT GTTGCTCCTC CACGCTTACC GGGGTCTCCG TCTCCACTTC
    CTGGTGATCA TGCGGGACAT CCCAGAGCTG CCACACACGG AGCTGGAGGC CCTTGCTGTT
    GAAGAAACAC TTTCTCAGCT GTGCTCAGAG CTACAGATGT TGAACAATCC AGAGAAGATC
    GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG CTCACGTCCC ACATGATGAC TCTGTGGACC
    CAGTTCCTGG ACACAGTCAC TCTGCACTCC CAAGTGACCA CTTATCTCAC CCAGGAACAC
    CACACCCTGA GGGTCCGAAG GTTTTCTGAG GCCTTCTTTT ACATGGAGCA CCAAAAACTT
    GCAGTCCTGA CATTTCAGGA GAATCTGATA CAGACGCACA GCCAGCTGTC CCTGGATATC
    CGGAACTCGG AGTACCTCAC TAGCATGCCC CCGCTGCCTG CAGAGTGCCT GGACATCGAC
    GGCGATTGGA ACACCCTGCC GGTGATCTTT GAGGACAGAT ACGTGGACTG CCCTGCGACA
    GGGCATAACT TGAGTGTTTA TCCTAATTTT GATGTTCCAG TGACAAGTCC TACAATAATG
    AATCTGAAAG ACAAGGAAGA TAACTGTATG GTAAATAGCA ATTTATCTTT TAGGGAAGAC
    CTTGTCTTGT CTACCATAAA ACCATCCCAA ATGGATTCTG ATGAAGAAGT TATAAGGTGT
    CCAGAGCCAG GTGAGAATGT GGCCACACAA AATCATATGG ACATGTGCTC TGAATCTCAG
    GTGTATATAT CAATTGGTGA ATTTCAAAAC AAAGCAGGTG TGCCTGAAGA TGAATGTTGG
    ACTGGCCAAA CATCTGATGC TGGGACATAT CCAGTGGCAG ATGTGGATAC TTCTAGAAGG
    AGTCCAGGTC CAGAGGATGG ACAGGCCCCA GTGCTGACCT ACATTGACGT AAAATCTAGC
    AATAAGAACC CCTCCAGAGC TGAACCCCTG GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG
    AGCTCTAGAG ATAAGTATGG ATTAGACAGG ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA
    AGCCACCAAA ATGCCATCTC TTCAGACAAA ACAACTCTCC ATGAATTAAG TACTCTAGGA
    AAGGGAATAG ATCAAGAGGG GAAGATGGTG CTGCTAAGCT TGAAACTCAC CCCCTCTGAG
    CCCTGTGATC CACTAAGTTC TACCCTGAGG GAGCCCTTAG ATATTAGGTC TTCCCTAAAG
    GACTCTCACA CAGAAGAGCA GGAGGAACTC TCAGTGCTAT CCGGGGTCAT CAAGAGATCT
    TCATCCATCA TATCTGATTC AGGCATTGAG AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG
    GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT GATCGGGAAG TCTTGCACCC GTTTGTTCGA
    AGACATGCCC TCCACCGGAA CTCCCTAGAG GGTGGACACA CAGAAAGTAA CACAAGTTTG
    CCAAGCGGCA TCCAGGCTTC TCTCACCTCC ATTAGCTCTT TACCTTTTGA GGAGGATGAG
    CGGGAGGTGG CACTCACTAA GTTAACCAAG TCTGTATCTG CTCCCCACAT CAGTAGCCCA
    GAGGAGGCTG CTGAAGATGC GGACACCAAG CAGCAAGATG GAGGTTTTGC TGAACCTTCA
    GATATGCACA GCAAGAGCCA AGGTTCCCCA GGATCTTGCT CTCAACTTTG TGGTGACTCT
    GGAACAGATG CTGGAGCAGA CCATCCCCTG GTGGAGATAG TTTTAGATGC TGACAACCAG
    CAGGGCCCCG GATACATAGA CATCCCCAAA GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA
    CACTGTCTTC CTGATGGCAG GACTGAGAAC ACTCCAGGTG TTGAAACCAA AGGTCTTAAT
    TTAAAAATAC CACGCGTCAT AGCACTTGAA AACCCCAGGA CCAGATCTCT TCATAGAGCA
    CTTGAGGAAA CCCCAAAGGG CATGCCTAAA GACTTGAATG TGGGTCAGCA AGCTCTTTCC
    AACAGTGGCA TCTCAGAGGT TGAGGGTCTC TCTCAACATC AGGTGCCTGA ATTGAGCTGT
    ACGTCAGCTG CTGATGCCAT CAACAGGAAC TCAACAGGCC AGCAAAGCCA AAGCGGTTCA
    CCTTGCATTA TGGATGACAC AGCATTTAAT AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA
    CATAAAGCAG GCACTGTGTG CCCCACTGTG ACCCATTCCG TTCATTCCCA GGTTTTGAAA
    AACCAAGAGC TGAAGGCAGG CACTTCCATC ATGGGGTCCC ATCTGACTTC TGCAGAGACC
    TTTACTCTGG ACAGCCTGAA GGCTGTGGAG GTTGTGAACT TATCTGTGTC TTGCACTGCC
    ACCTGTCTCC CTTTCTCATC TGTGCCCAAG GAGACCCCTG CCAGGGCTGG ATTCTCTTCC
    AAACAGACCC TGTTTCCCAT CACCCATCAG CCTTTGGGAT CCTTTGGAGT TGTTTCTACC
    CATTCCAGCA CGTTGGATGA GGAAGTCAGT GAGAGGATGT TTAGTGTATT CTCCAGTTTT
    TATCAGGCCA AAGAAAAATT TAAAAAAGAA CTGAAGATTG AAGGATTTCT GTACAGTGAC
    TTAACTGTAC TAGCTTCTGA TATACCATAT TTCCCACCAG AGGAAGAGGA AGAAAATTTG
    GAAGATGGAA TTCACCTGGT TGTCTGTGTC CATGGCCTGG ATGGGAACAG TGCAGACCTC
    CGGCTGGTAA AGACTTTCAT AGAACTGGGG CTCCCTGGAG GAAAACTGGA CTTCCTAATG
    TCTGAAAAGA ATCAGATGGA CACATTTGCA GATTTTGATA CTATGACGGA TCGGTTATTG
    GATGAAATCA TTCAACACAT TCAGTTGTAC AACCTCTCCA TATCCCGAAT TAGCTTCATT
    GGCCATTCTC TTGGCAACAT CATCATCCGA TCGGTCCTCA CACGGCCCCG GTTCCGGTAT
    TACCTCAACA AACTCCACAC GTTCCTGTCA CTCTCTGGGC CTCACCTGGG AACCCTGTAC
    AACAACAGCA CCCTGGTTAG TACAGGCTTA TGGCTCATGC AGAAACTGAA GAAATCCGGG
    TCTCTACTGC AGCTGACCTT CAGGGATAAT GCTGATTTGC GCAAATGTTT CCTCTACCAA
    CTAAGCCAAA AAACAGGGCT GCAGTATTTT AAAAACGTCG TGCTGGTTGC TTCTCCCCAA
    GACCGTTATG TGCCATTTCA TTCAGCCAGG ATTGAAATGT GTAAAACTGC CCTCAAAGAC
    AGACACACAG GGCCAGTTTA TGCAGAAATG ATCAACAACC TCCTGGGCCC TCTGGTTGAA
    GCCAAGGACT GCACTTTAAT CCGACACAAC GTGTTCCACG CCCTGCCCAA CACTGCCAAC
    ACCCTGATCG GCCGAGCCGC TCACATCGCT GTGCTGGATT CAGAACTCTT CCTGGAGAAG
    TTTTTCTTGG TGGCAGGACT CAACTACTTC AAGTAG

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

    CloneID OHu67613
    Clone ID Related Accession (Same CDS sequence) XM_011517068.2
    Accession Version XM_011517068.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3924bp)
    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 protein FAM135B isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517068.1. ##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
    ATGGAAGACG CACTGAGTGA AGTAGATTTT CAACTCAAGG TGGATCTGCA CTTTACGGAC 
    AGTGAACAGC AGTTGAGGGA TGTGGCTGGG GCACCGATGG TCAGCAGCCG AACGCTTGGC
    CTGCACTTCC ACCCCCGGAA TGGTCTGCAC CACCAGGTCC CGGTCATGTT CGACTATTTC
    CACCTGTCTG TGATCTCGGT GACCGTCCAT GCTGCCCTGG TGGCTCTGCA GCAGCCATTG
    ATCAGTTTTA CTCGTCCAGG AAGAGGCTCC TGGCTTGGTA AAGGTGGCCC AGACACCGGA
    CAAGAACAGT CTATCATTTC TCTGGAAAAC TTGGTCTTTG GAGCTGGGTA CTGCAAGCCG
    ACTTCCTCAG AGGGAAGCTT CTACATCACC TCTGAGAACT GCATGCAGCA CGCACACAAG
    TGGCACCGAG ACCTGTGCCT GTTGCTCCTC CACGCTTACC GGGGTCTCCG TCTCCACTTC
    CTGGTGATCA TGCGGGACAT CCCAGAGCTG CCACACACGG AGCTGGAGGC CCTTGCTGTT
    GAAGAAACAC TTTCTCAGCT GTGCTCAGAG CTACAGATGT TGAACAATCC AGAGAAGATC
    GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG CTCACGTCCC ACATGATGAC TCTGTGGACC
    CAGTTCCTGG ACACAGTCAC TCTGCACTCC CAAGTGACCA CTTATCTCAC CCAGGAACAC
    CACACCCTGA GGGTCCGAAG GTTTTCTGAG GCCTTCTTTT ACATGGAGCA CCAAAAACTT
    GCAGTCCTGA CATTTCAGGA GAATCTGATA CAGACGCACA GCCAGCTGTC CCTGGATATC
    CGGAACTCGG AGTACCTCAC TAGCATGCCC CCGCTGCCTG CAGAGTGCCT GGACATCGAC
    GGCGATTGGA ACACCCTGCC GGTGATCTTT GAGGACAGAT ACGTGGACTG CCCTGCGACA
    GGGCATAACT TGAGTGTTTA TCCTAATTTT GATGTTCCAG TGACAAGTCC TACAATAATG
    AATCTGAAAG ACAAGGAAGA TAACTGTATG GTAAATAGCA ATTTATCTTT TAGGGAAGAC
    CTTGTCTTGT CTACCATAAA ACCATCCCAA ATGGATTCTG ATGAAGAAGT TATAAGGTGT
    CCAGAGCCAG GTGAGAATGT GGCCACACAA AATCATATGG ACATGTGCTC TGAATCTCAG
    GTGTATATAT CAATTGGTGA ATTTCAAAAC AAAGCAGGTG TGCCTGAAGA TGAATGTTGG
    ACTGGCCAAA CATCTGATGC TGGGACATAT CCAGTGGCAG ATGTGGATAC TTCTAGAAGG
    AGTCCAGGTC CAGAGGATGG ACAGGCCCCA GTGCTGACCT ACATTGACGT AAAATCTAGC
    AATAAGAACC CCTCCAGAGC TGAACCCCTG GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG
    AGCTCTAGAG ATAAGTATGG ATTAGACAGG ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA
    AGCCACCAAA ATGCCATCTC TTCAGACAAA ACAACTCTCC ATGAATTAAG TACTCTAGGA
    AAGGGAATAG ATCAAGAGGG GAAGATGGTG CTGCTAAGCT TGAAACTCAC CCCCTCTGAG
    CCCTGTGATC CACTAAGTTC TACCCTGAGG GAGCCCTTAG ATATTAGGTC TTCCCTAAAG
    GACTCTCACA CAGAAGAGCA GGAGGAACTC TCAGTGCTAT CCGGGGTCAT CAAGAGATCT
    TCATCCATCA TATCTGATTC AGGCATTGAG AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG
    GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT GATCGGGAAG TCTTGCACCC GTTTGTTCGA
    AGACATGCCC TCCACCGGAA CTCCCTAGAG GGTGGACACA CAGAAAGTAA CACAAGTTTG
    CCAAGCGGCA TCCAGGCTTC TCTCACCTCC ATTAGCTCTT TACCTTTTGA GGAGGATGAG
    CGGGAGGTGG CACTCACTAA GTTAACCAAG TCTGTATCTG CTCCCCACAT CAGTAGCCCA
    GAGGAGGCTG CTGAAGATGC GGACACCAAG CAGCAAGATG GAGGTTTTGC TGAACCTTCA
    GATATGCACA GCAAGAGCCA AGGTTCCCCA GGATCTTGCT CTCAACTTTG TGGTGACTCT
    GGAACAGATG CTGGAGCAGA CCATCCCCTG GTGGAGATAG TTTTAGATGC TGACAACCAG
    CAGGGCCCCG GATACATAGA CATCCCCAAA GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA
    CACTGTCTTC CTGATGGCAG GACTGAGAAC ACTCCAGGTG TTGAAACCAA AGGTCTTAAT
    TTAAAAATAC CACGCGTCAT AGCACTTGAA AACCCCAGGA CCAGATCTCT TCATAGAGCA
    CTTGAGGAAA CCCCAAAGGG CATGCCTAAA GACTTGAATG TGGGTCAGCA AGCTCTTTCC
    AACAGTGGCA TCTCAGAGGT TGAGGGTCTC TCTCAACATC AGGTGCCTGA ATTGAGCTGT
    ACGTCAGCTG CTGATGCCAT CAACAGGAAC TCAACAGGCC AGCAAAGCCA AAGCGGTTCA
    CCTTGCATTA TGGATGACAC AGCATTTAAT AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA
    CATAAAGCAG GCACTGTGTG CCCCACTGTG ACCCATTCCG TTCATTCCCA GGTTTTGAAA
    AACCAAGAGC TGAAGGCAGG CACTTCCATC ATGGGGTCCC ATCTGACTTC TGCAGAGACC
    TTTACTCTGG ACAGCCTGAA GGCTGTGGAG GTTGTGAACT TATCTGTGTC TTGCACTGCC
    ACCTGTCTCC CTTTCTCATC TGTGCCCAAG GAGACCCCTG CCAGGGCTGG ATTCTCTTCC
    AAACAGACCC TGTTTCCCAT CACCCATCAG CCTTTGGGAT CCTTTGGAGT TGTTTCTACC
    CATTCCAGCA CGTTGGATGA GGAAGTCAGT GAGAGGATGT TTAGTTTTTA TCAGGCCAAA
    GAAAAATTTA AAAAAGAACT GAAGATTGAA GGATTTCTGT ACAGTGACTT AACTGTACTA
    GCTTCTGATA TACCATATTT CCCACCAGAG GAAGAGGAAG AAAATTTGGA AGATGGAATT
    CACCTGGTTG TCTGTGTCCA TGGCCTGGAT GGGAACAGTG CAGACCTCCG GCTGGTAAAG
    ACTTTCATAG AACTGGGGCT CCCTGGAGGA AAACTGGACT TCCTAATGTC TGAAAAGAAT
    CAGATGGACA CATTTGCAGA TTTTGATACT ATGACGGATC GGTTATTGGA TGAAATCATT
    CAACACATTC AGTTGTACAA CCTCTCCATA TCCCGAATTA GCTTCATTGG CCATTCTCTT
    GGCAACATCA TCATCCGATC GGTCCTCACA CGGCCCCGGT TCCGGTATTA CCTCAACAAA
    CTCCACACGT TCCTGTCACT CTCTGGGCCT CACCTGGGAA CCCTGTACAA CAACAGCACC
    CTGGTTAGTA CAGGCTTATG GCTCATGCAG AAACTGAAGA AATCCGGGTC TCTACTGCAG
    CTGACCTTCA GGGATAATGC TGATTTGCGC AAATGTTTCC TCTACCAACT AAGCCAAAAA
    ACAGGGCTGC AGTATTTTAA AAACGTCGTG CTGGTTGCTT CTCCCCAAGA CCGTTATGTG
    CCATTTCATT CAGCCAGGAT TGAAATGTGT AAAACTGCCC TCAAAGACAG ACACACAGGG
    CCAGTTTATG CAGAAATGAT CAACAACCTC CTGGGCCCTC TGGTTGAAGC CAAGGACTGC
    ACTTTAATCC GACACAACGT GTTCCACGCC CTGCCCAACA CTGCCAACAC CCTGATCGGC
    CGAGCCGCTC ACATCGCTGT GCTGGATTCA GAACTCTTCC TGGAGAAGTT TTTCTTGGTG
    GCAGGACTCA ACTACTTCAA GTAG

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

    RefSeq XP_011515370.1
    CDS362..4285
    Translation

    Target ORF information:

    RefSeq Version XM_011517068.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517068.2

    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
    ATGGAAGACG CACTGAGTGA AGTAGATTTT CAACTCAAGG TGGATCTGCA CTTTACGGAC 
    AGTGAACAGC AGTTGAGGGA TGTGGCTGGG GCACCGATGG TCAGCAGCCG AACGCTTGGC
    CTGCACTTCC ACCCCCGGAA TGGTCTGCAC CACCAGGTCC CGGTCATGTT CGACTATTTC
    CACCTGTCTG TGATCTCGGT GACCGTCCAT GCTGCCCTGG TGGCTCTGCA GCAGCCATTG
    ATCAGTTTTA CTCGTCCAGG AAGAGGCTCC TGGCTTGGTA AAGGTGGCCC AGACACCGGA
    CAAGAACAGT CTATCATTTC TCTGGAAAAC TTGGTCTTTG GAGCTGGGTA CTGCAAGCCG
    ACTTCCTCAG AGGGAAGCTT CTACATCACC TCTGAGAACT GCATGCAGCA CGCACACAAG
    TGGCACCGAG ACCTGTGCCT GTTGCTCCTC CACGCTTACC GGGGTCTCCG TCTCCACTTC
    CTGGTGATCA TGCGGGACAT CCCAGAGCTG CCACACACGG AGCTGGAGGC CCTTGCTGTT
    GAAGAAACAC TTTCTCAGCT GTGCTCAGAG CTACAGATGT TGAACAATCC AGAGAAGATC
    GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG CTCACGTCCC ACATGATGAC TCTGTGGACC
    CAGTTCCTGG ACACAGTCAC TCTGCACTCC CAAGTGACCA CTTATCTCAC CCAGGAACAC
    CACACCCTGA GGGTCCGAAG GTTTTCTGAG GCCTTCTTTT ACATGGAGCA CCAAAAACTT
    GCAGTCCTGA CATTTCAGGA GAATCTGATA CAGACGCACA GCCAGCTGTC CCTGGATATC
    CGGAACTCGG AGTACCTCAC TAGCATGCCC CCGCTGCCTG CAGAGTGCCT GGACATCGAC
    GGCGATTGGA ACACCCTGCC GGTGATCTTT GAGGACAGAT ACGTGGACTG CCCTGCGACA
    GGGCATAACT TGAGTGTTTA TCCTAATTTT GATGTTCCAG TGACAAGTCC TACAATAATG
    AATCTGAAAG ACAAGGAAGA TAACTGTATG GTAAATAGCA ATTTATCTTT TAGGGAAGAC
    CTTGTCTTGT CTACCATAAA ACCATCCCAA ATGGATTCTG ATGAAGAAGT TATAAGGTGT
    CCAGAGCCAG GTGAGAATGT GGCCACACAA AATCATATGG ACATGTGCTC TGAATCTCAG
    GTGTATATAT CAATTGGTGA ATTTCAAAAC AAAGCAGGTG TGCCTGAAGA TGAATGTTGG
    ACTGGCCAAA CATCTGATGC TGGGACATAT CCAGTGGCAG ATGTGGATAC TTCTAGAAGG
    AGTCCAGGTC CAGAGGATGG ACAGGCCCCA GTGCTGACCT ACATTGACGT AAAATCTAGC
    AATAAGAACC CCTCCAGAGC TGAACCCCTG GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG
    AGCTCTAGAG ATAAGTATGG ATTAGACAGG ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA
    AGCCACCAAA ATGCCATCTC TTCAGACAAA ACAACTCTCC ATGAATTAAG TACTCTAGGA
    AAGGGAATAG ATCAAGAGGG GAAGATGGTG CTGCTAAGCT TGAAACTCAC CCCCTCTGAG
    CCCTGTGATC CACTAAGTTC TACCCTGAGG GAGCCCTTAG ATATTAGGTC TTCCCTAAAG
    GACTCTCACA CAGAAGAGCA GGAGGAACTC TCAGTGCTAT CCGGGGTCAT CAAGAGATCT
    TCATCCATCA TATCTGATTC AGGCATTGAG AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG
    GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT GATCGGGAAG TCTTGCACCC GTTTGTTCGA
    AGACATGCCC TCCACCGGAA CTCCCTAGAG GGTGGACACA CAGAAAGTAA CACAAGTTTG
    CCAAGCGGCA TCCAGGCTTC TCTCACCTCC ATTAGCTCTT TACCTTTTGA GGAGGATGAG
    CGGGAGGTGG CACTCACTAA GTTAACCAAG TCTGTATCTG CTCCCCACAT CAGTAGCCCA
    GAGGAGGCTG CTGAAGATGC GGACACCAAG CAGCAAGATG GAGGTTTTGC TGAACCTTCA
    GATATGCACA GCAAGAGCCA AGGTTCCCCA GGATCTTGCT CTCAACTTTG TGGTGACTCT
    GGAACAGATG CTGGAGCAGA CCATCCCCTG GTGGAGATAG TTTTAGATGC TGACAACCAG
    CAGGGCCCCG GATACATAGA CATCCCCAAA GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA
    CACTGTCTTC CTGATGGCAG GACTGAGAAC ACTCCAGGTG TTGAAACCAA AGGTCTTAAT
    TTAAAAATAC CACGCGTCAT AGCACTTGAA AACCCCAGGA CCAGATCTCT TCATAGAGCA
    CTTGAGGAAA CCCCAAAGGG CATGCCTAAA GACTTGAATG TGGGTCAGCA AGCTCTTTCC
    AACAGTGGCA TCTCAGAGGT TGAGGGTCTC TCTCAACATC AGGTGCCTGA ATTGAGCTGT
    ACGTCAGCTG CTGATGCCAT CAACAGGAAC TCAACAGGCC AGCAAAGCCA AAGCGGTTCA
    CCTTGCATTA TGGATGACAC AGCATTTAAT AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA
    CATAAAGCAG GCACTGTGTG CCCCACTGTG ACCCATTCCG TTCATTCCCA GGTTTTGAAA
    AACCAAGAGC TGAAGGCAGG CACTTCCATC ATGGGGTCCC ATCTGACTTC TGCAGAGACC
    TTTACTCTGG ACAGCCTGAA GGCTGTGGAG GTTGTGAACT TATCTGTGTC TTGCACTGCC
    ACCTGTCTCC CTTTCTCATC TGTGCCCAAG GAGACCCCTG CCAGGGCTGG ATTCTCTTCC
    AAACAGACCC TGTTTCCCAT CACCCATCAG CCTTTGGGAT CCTTTGGAGT TGTTTCTACC
    CATTCCAGCA CGTTGGATGA GGAAGTCAGT GAGAGGATGT TTAGTTTTTA TCAGGCCAAA
    GAAAAATTTA AAAAAGAACT GAAGATTGAA GGATTTCTGT ACAGTGACTT AACTGTACTA
    GCTTCTGATA TACCATATTT CCCACCAGAG GAAGAGGAAG AAAATTTGGA AGATGGAATT
    CACCTGGTTG TCTGTGTCCA TGGCCTGGAT GGGAACAGTG CAGACCTCCG GCTGGTAAAG
    ACTTTCATAG AACTGGGGCT CCCTGGAGGA AAACTGGACT TCCTAATGTC TGAAAAGAAT
    CAGATGGACA CATTTGCAGA TTTTGATACT ATGACGGATC GGTTATTGGA TGAAATCATT
    CAACACATTC AGTTGTACAA CCTCTCCATA TCCCGAATTA GCTTCATTGG CCATTCTCTT
    GGCAACATCA TCATCCGATC GGTCCTCACA CGGCCCCGGT TCCGGTATTA CCTCAACAAA
    CTCCACACGT TCCTGTCACT CTCTGGGCCT CACCTGGGAA CCCTGTACAA CAACAGCACC
    CTGGTTAGTA CAGGCTTATG GCTCATGCAG AAACTGAAGA AATCCGGGTC TCTACTGCAG
    CTGACCTTCA GGGATAATGC TGATTTGCGC AAATGTTTCC TCTACCAACT AAGCCAAAAA
    ACAGGGCTGC AGTATTTTAA AAACGTCGTG CTGGTTGCTT CTCCCCAAGA CCGTTATGTG
    CCATTTCATT CAGCCAGGAT TGAAATGTGT AAAACTGCCC TCAAAGACAG ACACACAGGG
    CCAGTTTATG CAGAAATGAT CAACAACCTC CTGGGCCCTC TGGTTGAAGC CAAGGACTGC
    ACTTTAATCC GACACAACGT GTTCCACGCC CTGCCCAACA CTGCCAACAC CCTGATCGGC
    CGAGCCGCTC ACATCGCTGT GCTGGATTCA GAACTCTTCC TGGAGAAGTT TTTCTTGGTG
    GCAGGACTCA ACTACTTCAA GTAG

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

    CloneID OHu67614
    Clone ID Related Accession (Same CDS sequence) XM_011517069.2
    Accession Version XM_011517069.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3867bp)
    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 protein FAM135B isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517069.1. ##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
    ATGTTTTATG CTTTTCCACA GAAGAAAAGA GGTCCAGGGA GGGAGGAGTT GGTGGAAGGA 
    GCAGGGACAG GACTCAGACC TTGTCTGGTC AGAGTTGCCC CTGAAATTTT CGGAGCCCAT
    GCCACCTTCC CCTCTAGTGA TATAAGCTTG GAGCTCTGCT TCAGTGTTTC TTACAGTTTT
    ACTCGTCCAG GAAGAGGCTC CTGGCTTGGT AAAGGTGGCC CAGACACCGG ACAAGAACAG
    TCTATCATTT CTCTGGAAAA CTTGGTCTTT GGAGCTGGGT ACTGCAAGCC GACTTCCTCA
    GAGGGAAGCT TCTACATCAC CTCTGAGAAC TGCATGCAGC ACGCACACAA GTGGCACCGA
    GACCTGTGCC TGTTGCTCCT CCACGCTTAC CGGGGTCTCC GTCTCCACTT CCTGGTGATC
    ATGCGGGACA TCCCAGAGCT GCCACACACG GAGCTGGAGG CCCTTGCTGT TGAAGAAACA
    CTTTCTCAGC TGTGCTCAGA GCTACAGATG TTGAACAATC CAGAGAAGAT CGCTGAGCAG
    ATAAGCAAGG ATCTGGCCTG GCTCACGTCC CACATGATGA CTCTGTGGAC CCAGTTCCTG
    GACACAGTCA CTCTGCACTC CCAAGTGACC ACTTATCTCA CCCAGGAACA CCACACCCTG
    AGGGTCCGAA GGTTTTCTGA GGCCTTCTTT TACATGGAGC ACCAAAAACT TGCAGTCCTG
    ACATTTCAGG AGAATCTGAT ACAGACGCAC AGCCAGCTGT CCCTGGATAT CCGGAACTCG
    GAGTACCTCA CTAGCATGCC CCCGCTGCCT GCAGAGTGCC TGGACATCGA CGGCGATTGG
    AACACCCTGC CGGTGATCTT TGAGGACAGA TACGTGGACT GCCCTGCGAC AGGGCATAAC
    TTGAGTGTTT ATCCTAATTT TGATGTTCCA GTGACAAGTC CTACAATAAT GAATCTGAAA
    GACAAGGAAG ATAACTGTAT GGTAAATAGC AATTTATCTT TTAGGGAAGA CCTTGTCTTG
    TCTACCATAA AACCATCCCA AATGGATTCT GATGAAGAAG TTATAAGGTG TCCAGAGCCA
    GGTGAGAATG TGGCCACACA AAATCATATG GACATGTGCT CTGAATCTCA GGTGTATATA
    TCAATTGGTG AATTTCAAAA CAAAGCAGGT GTGCCTGAAG ATGAATGTTG GACTGGCCAA
    ACATCTGATG CTGGGACATA TCCAGTGGCA GATGTGGATA CTTCTAGAAG GAGTCCAGGT
    CCAGAGGATG GACAGGCCCC AGTGCTGACC TACATTGACG TAAAATCTAG CAATAAGAAC
    CCCTCCAGAG CTGAACCCCT GGTGGCCTTC AATGCTCAGC ATGAGAGTAG GAGCTCTAGA
    GATAAGTATG GATTAGACAG GACTGGGCTA AGCAAAGTGG TAGTAGGTGG AAGCCACCAA
    AATGCCATCT CTTCAGACAA AACAACTCTC CATGAATTAA GTACTCTAGG AAAGGGAATA
    GATCAAGAGG GGAAGATGGT GCTGCTAAGC TTGAAACTCA CCCCCTCTGA GCCCTGTGAT
    CCACTAAGTT CTACCCTGAG GGAGCCCTTA GATATTAGGT CTTCCCTAAA GGACTCTCAC
    ACAGAAGAGC AGGAGGAACT CTCAGTGCTA TCCGGGGTCA TCAAGAGATC TTCATCCATC
    ATATCTGATT CAGGCATTGA GAGTGAGCCA AGCTCCGTCG CCTGGTCAGA GGCCCGAAGC
    AGGGCTCTGG AGTTGCCCAG TGATCGGGAA GTCTTGCACC CGTTTGTTCG AAGACATGCC
    CTCCACCGGA ACTCCCTAGA GGGTGGACAC ACAGAAAGTA ACACAAGTTT GCCAAGCGGC
    ATCCAGGCTT CTCTCACCTC CATTAGCTCT TTACCTTTTG AGGAGGATGA GCGGGAGGTG
    GCACTCACTA AGTTAACCAA GTCTGTATCT GCTCCCCACA TCAGTAGCCC AGAGGAGGCT
    GCTGAAGATG CGGACACCAA GCAGCAAGAT GGAGGTTTTG CTGAACCTTC AGATATGCAC
    AGCAAGAGCC AAGGTTCCCC AGGATCTTGC TCTCAACTTT GTGGTGACTC TGGAACAGAT
    GCTGGAGCAG ACCATCCCCT GGTGGAGATA GTTTTAGATG CTGACAACCA GCAGGGCCCC
    GGATACATAG ACATCCCCAA AGGGAAAGGG AAGCAGTTTG ATGCTCAAGG ACACTGTCTT
    CCTGATGGCA GGACTGAGAA CACTCCAGGT GTTGAAACCA AAGGTCTTAA TTTAAAAATA
    CCACGCGTCA TAGCACTTGA AAACCCCAGG ACCAGATCTC TTCATAGAGC ACTTGAGGAA
    ACCCCAAAGG GCATGCCTAA AGACTTGAAT GTGGGTCAGC AAGCTCTTTC CAACAGTGGC
    ATCTCAGAGG TTGAGGGTCT CTCTCAACAT CAGGTGCCTG AATTGAGCTG TACGTCAGCT
    GCTGATGCCA TCAACAGGAA CTCAACAGGC CAGCAAAGCC AAAGCGGTTC ACCTTGCATT
    ATGGATGACA CAGCATTTAA TAGAGGAGTG AATGCCTTCC CGGAGGCTAA ACATAAAGCA
    GGCACTGTGT GCCCCACTGT GACCCATTCC GTTCATTCCC AGGTTTTGAA AAACCAAGAG
    CTGAAGGCAG GCACTTCCAT CATGGGGTCC CATCTGACTT CTGCAGAGAC CTTTACTCTG
    GACAGCCTGA AGGCTGTGGA GGTTGTGAAC TTATCTGTGT CTTGCACTGC CACCTGTCTC
    CCTTTCTCAT CTGTGCCCAA GGAGACCCCT GCCAGGGCTG GATTCTCTTC CAAACAGACC
    CTGTTTCCCA TCACCCATCA GCCTTTGGGA TCCTTTGGAG TTGTTTCTAC CCATTCCAGC
    ACGTTGGATG AGGAAGTCAG TGAGAGGATG TTTAGTGTAT TCTCCAGTTT TTATCAGGCC
    AAAGAAAAAT TTAAAAAAGA ACTGAAGATT GAAGGATTTC TGTACAGTGA CTTAACTGTA
    CTAGCTTCTG ATATACCATA TTTCCCACCA GAGGAAGAGG AAGAAAATTT GGAAGATGGA
    ATTCACCTGG TTGTCTGTGT CCATGGCCTG GATGGGAACA GTGCAGACCT CCGGCTGGTA
    AAGACTTTCA TAGAACTGGG GCTCCCTGGA GGAAAACTGG ACTTCCTAAT GTCTGAAAAG
    AATCAGATGG ACACATTTGC AGATTTTGAT ACTATGACGG ATCGGTTATT GGATGAAATC
    ATTCAACACA TTCAGTTGTA CAACCTCTCC ATATCCCGAA TTAGCTTCAT TGGCCATTCT
    CTTGGCAACA TCATCATCCG ATCGGTCCTC ACACGGCCCC GGTTCCGGTA TTACCTCAAC
    AAACTCCACA CGTTCCTGTC ACTCTCTGGG CCTCACCTGG GAACCCTGTA CAACAACAGC
    ACCCTGGTTA GTACAGGCTT ATGGCTCATG CAGAAACTGA AGAAATCCGG GTCTCTACTG
    CAGCTGACCT TCAGGGATAA TGCTGATTTG CGCAAATGTT TCCTCTACCA ACTAAGCCAA
    AAAACAGGGC TGCAGTATTT TAAAAACGTC GTGCTGGTTG CTTCTCCCCA AGACCGTTAT
    GTGCCATTTC ATTCAGCCAG GATTGAAATG TGTAAAACTG CCCTCAAAGA CAGACACACA
    GGGCCAGTTT ATGCAGAAAT GATCAACAAC CTCCTGGGCC CTCTGGTTGA AGCCAAGGAC
    TGCACTTTAA TCCGACACAA CGTGTTCCAC GCCCTGCCCA ACACTGCCAA CACCCTGATC
    GGCCGAGCCG CTCACATCGC TGTGCTGGAT TCAGAACTCT TCCTGGAGAA GTTTTTCTTG
    GTGGCAGGAC TCAACTACTT CAAGTAG

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

    RefSeq XP_011515371.1
    CDS525..4391
    Translation

    Target ORF information:

    RefSeq Version XM_011517069.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517069.2

    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
    ATGTTTTATG CTTTTCCACA GAAGAAAAGA GGTCCAGGGA GGGAGGAGTT GGTGGAAGGA 
    GCAGGGACAG GACTCAGACC TTGTCTGGTC AGAGTTGCCC CTGAAATTTT CGGAGCCCAT
    GCCACCTTCC CCTCTAGTGA TATAAGCTTG GAGCTCTGCT TCAGTGTTTC TTACAGTTTT
    ACTCGTCCAG GAAGAGGCTC CTGGCTTGGT AAAGGTGGCC CAGACACCGG ACAAGAACAG
    TCTATCATTT CTCTGGAAAA CTTGGTCTTT GGAGCTGGGT ACTGCAAGCC GACTTCCTCA
    GAGGGAAGCT TCTACATCAC CTCTGAGAAC TGCATGCAGC ACGCACACAA GTGGCACCGA
    GACCTGTGCC TGTTGCTCCT CCACGCTTAC CGGGGTCTCC GTCTCCACTT CCTGGTGATC
    ATGCGGGACA TCCCAGAGCT GCCACACACG GAGCTGGAGG CCCTTGCTGT TGAAGAAACA
    CTTTCTCAGC TGTGCTCAGA GCTACAGATG TTGAACAATC CAGAGAAGAT CGCTGAGCAG
    ATAAGCAAGG ATCTGGCCTG GCTCACGTCC CACATGATGA CTCTGTGGAC CCAGTTCCTG
    GACACAGTCA CTCTGCACTC CCAAGTGACC ACTTATCTCA CCCAGGAACA CCACACCCTG
    AGGGTCCGAA GGTTTTCTGA GGCCTTCTTT TACATGGAGC ACCAAAAACT TGCAGTCCTG
    ACATTTCAGG AGAATCTGAT ACAGACGCAC AGCCAGCTGT CCCTGGATAT CCGGAACTCG
    GAGTACCTCA CTAGCATGCC CCCGCTGCCT GCAGAGTGCC TGGACATCGA CGGCGATTGG
    AACACCCTGC CGGTGATCTT TGAGGACAGA TACGTGGACT GCCCTGCGAC AGGGCATAAC
    TTGAGTGTTT ATCCTAATTT TGATGTTCCA GTGACAAGTC CTACAATAAT GAATCTGAAA
    GACAAGGAAG ATAACTGTAT GGTAAATAGC AATTTATCTT TTAGGGAAGA CCTTGTCTTG
    TCTACCATAA AACCATCCCA AATGGATTCT GATGAAGAAG TTATAAGGTG TCCAGAGCCA
    GGTGAGAATG TGGCCACACA AAATCATATG GACATGTGCT CTGAATCTCA GGTGTATATA
    TCAATTGGTG AATTTCAAAA CAAAGCAGGT GTGCCTGAAG ATGAATGTTG GACTGGCCAA
    ACATCTGATG CTGGGACATA TCCAGTGGCA GATGTGGATA CTTCTAGAAG GAGTCCAGGT
    CCAGAGGATG GACAGGCCCC AGTGCTGACC TACATTGACG TAAAATCTAG CAATAAGAAC
    CCCTCCAGAG CTGAACCCCT GGTGGCCTTC AATGCTCAGC ATGAGAGTAG GAGCTCTAGA
    GATAAGTATG GATTAGACAG GACTGGGCTA AGCAAAGTGG TAGTAGGTGG AAGCCACCAA
    AATGCCATCT CTTCAGACAA AACAACTCTC CATGAATTAA GTACTCTAGG AAAGGGAATA
    GATCAAGAGG GGAAGATGGT GCTGCTAAGC TTGAAACTCA CCCCCTCTGA GCCCTGTGAT
    CCACTAAGTT CTACCCTGAG GGAGCCCTTA GATATTAGGT CTTCCCTAAA GGACTCTCAC
    ACAGAAGAGC AGGAGGAACT CTCAGTGCTA TCCGGGGTCA TCAAGAGATC TTCATCCATC
    ATATCTGATT CAGGCATTGA GAGTGAGCCA AGCTCCGTCG CCTGGTCAGA GGCCCGAAGC
    AGGGCTCTGG AGTTGCCCAG TGATCGGGAA GTCTTGCACC CGTTTGTTCG AAGACATGCC
    CTCCACCGGA ACTCCCTAGA GGGTGGACAC ACAGAAAGTA ACACAAGTTT GCCAAGCGGC
    ATCCAGGCTT CTCTCACCTC CATTAGCTCT TTACCTTTTG AGGAGGATGA GCGGGAGGTG
    GCACTCACTA AGTTAACCAA GTCTGTATCT GCTCCCCACA TCAGTAGCCC AGAGGAGGCT
    GCTGAAGATG CGGACACCAA GCAGCAAGAT GGAGGTTTTG CTGAACCTTC AGATATGCAC
    AGCAAGAGCC AAGGTTCCCC AGGATCTTGC TCTCAACTTT GTGGTGACTC TGGAACAGAT
    GCTGGAGCAG ACCATCCCCT GGTGGAGATA GTTTTAGATG CTGACAACCA GCAGGGCCCC
    GGATACATAG ACATCCCCAA AGGGAAAGGG AAGCAGTTTG ATGCTCAAGG ACACTGTCTT
    CCTGATGGCA GGACTGAGAA CACTCCAGGT GTTGAAACCA AAGGTCTTAA TTTAAAAATA
    CCACGCGTCA TAGCACTTGA AAACCCCAGG ACCAGATCTC TTCATAGAGC ACTTGAGGAA
    ACCCCAAAGG GCATGCCTAA AGACTTGAAT GTGGGTCAGC AAGCTCTTTC CAACAGTGGC
    ATCTCAGAGG TTGAGGGTCT CTCTCAACAT CAGGTGCCTG AATTGAGCTG TACGTCAGCT
    GCTGATGCCA TCAACAGGAA CTCAACAGGC CAGCAAAGCC AAAGCGGTTC ACCTTGCATT
    ATGGATGACA CAGCATTTAA TAGAGGAGTG AATGCCTTCC CGGAGGCTAA ACATAAAGCA
    GGCACTGTGT GCCCCACTGT GACCCATTCC GTTCATTCCC AGGTTTTGAA AAACCAAGAG
    CTGAAGGCAG GCACTTCCAT CATGGGGTCC CATCTGACTT CTGCAGAGAC CTTTACTCTG
    GACAGCCTGA AGGCTGTGGA GGTTGTGAAC TTATCTGTGT CTTGCACTGC CACCTGTCTC
    CCTTTCTCAT CTGTGCCCAA GGAGACCCCT GCCAGGGCTG GATTCTCTTC CAAACAGACC
    CTGTTTCCCA TCACCCATCA GCCTTTGGGA TCCTTTGGAG TTGTTTCTAC CCATTCCAGC
    ACGTTGGATG AGGAAGTCAG TGAGAGGATG TTTAGTGTAT TCTCCAGTTT TTATCAGGCC
    AAAGAAAAAT TTAAAAAAGA ACTGAAGATT GAAGGATTTC TGTACAGTGA CTTAACTGTA
    CTAGCTTCTG ATATACCATA TTTCCCACCA GAGGAAGAGG AAGAAAATTT GGAAGATGGA
    ATTCACCTGG TTGTCTGTGT CCATGGCCTG GATGGGAACA GTGCAGACCT CCGGCTGGTA
    AAGACTTTCA TAGAACTGGG GCTCCCTGGA GGAAAACTGG ACTTCCTAAT GTCTGAAAAG
    AATCAGATGG ACACATTTGC AGATTTTGAT ACTATGACGG ATCGGTTATT GGATGAAATC
    ATTCAACACA TTCAGTTGTA CAACCTCTCC ATATCCCGAA TTAGCTTCAT TGGCCATTCT
    CTTGGCAACA TCATCATCCG ATCGGTCCTC ACACGGCCCC GGTTCCGGTA TTACCTCAAC
    AAACTCCACA CGTTCCTGTC ACTCTCTGGG CCTCACCTGG GAACCCTGTA CAACAACAGC
    ACCCTGGTTA GTACAGGCTT ATGGCTCATG CAGAAACTGA AGAAATCCGG GTCTCTACTG
    CAGCTGACCT TCAGGGATAA TGCTGATTTG CGCAAATGTT TCCTCTACCA ACTAAGCCAA
    AAAACAGGGC TGCAGTATTT TAAAAACGTC GTGCTGGTTG CTTCTCCCCA AGACCGTTAT
    GTGCCATTTC ATTCAGCCAG GATTGAAATG TGTAAAACTG CCCTCAAAGA CAGACACACA
    GGGCCAGTTT ATGCAGAAAT GATCAACAAC CTCCTGGGCC CTCTGGTTGA AGCCAAGGAC
    TGCACTTTAA TCCGACACAA CGTGTTCCAC GCCCTGCCCA ACACTGCCAA CACCCTGATC
    GGCCGAGCCG CTCACATCGC TGTGCTGGAT TCAGAACTCT TCCTGGAGAA GTTTTTCTTG
    GTGGCAGGAC TCAACTACTT CAAGTAG

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

    CloneID OHu67615
    Clone ID Related Accession (Same CDS sequence) XM_011517070.2
    Accession Version XM_011517070.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3654bp)
    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 protein FAM135B isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517070.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG GTAA

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

    RefSeq XP_011515372.1
    CDS982..4635
    Translation

    Target ORF information:

    RefSeq Version XM_011517070.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517070.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG GTAA

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

    CloneID OHu67617
    Clone ID Related Accession (Same CDS sequence) XM_011517072.2
    Accession Version XM_011517072.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 protein FAM135B isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517072.1. ##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
    ATGCTGTTGT ATAAAGAAAT ATATCGGCCG GGCATGGTGG CTCACGCCTG TAATCCCAGC 
    ACTTTGGGAA GCTTCTACAT CACCTCTGAG AACTGCATGC AGCACGCACA CAAGTGGCAC
    CGAGACCTGT GCCTGTTGCT CCTCCACGCT TACCGGGGTC TCCGTCTCCA CTTCCTGGTG
    ATCATGCGGG ACATCCCAGA GCTGCCACAC ACGGAGCTGG AGGCCCTTGC TGTTGAAGAA
    ACACTTTCTC AGCTGTGCTC AGAGCTACAG ATGTTGAACA ATCCAGAGAA GATCGCTGAG
    CAGATAAGCA AGGATCTGGC CTGGCTCACG TCCCACATGA TGACTCTGTG GACCCAGTTC
    CTGGACACAG TCACTCTGCA CTCCCAAGTG ACCACTTATC TCACCCAGGA ACACCACACC
    CTGAGGGTCC GAAGGTTTTC TGAGGCCTTC TTTTACATGG AGCACCAAAA ACTTGCAGTC
    CTGACATTTC AGGAGAATCT GATACAGACG CACAGCCAGC TGTCCCTGGA TATCCGGAAC
    TCGGAGTACC TCACTAGCAT GCCCCCGCTG CCTGCAGAGT GCCTGGACAT CGACGGCGAT
    TGGAACACCC TGCCGGTGAT CTTTGAGGAC AGATACGTGG ACTGCCCTGC GACAGGGCAT
    AACTTGAGTG TTTATCCTAA TTTTGATGTT CCAGTGACAA GTCCTACAAT AATGAATCTG
    AAAGACAAGG AAGATAACTG TATGGTAAAT AGCAATTTAT CTTTTAGGGA AGACCTTGTC
    TTGTCTACCA TAAAACCATC CCAAATGGAT TCTGATGAAG AAGTTATAAG GTGTCCAGAG
    CCAGGTGAGA ATGTGGCCAC ACAAAATCAT ATGGACATGT GCTCTGAATC TCAGGTGTAT
    ATATCAATTG GTGAATTTCA AAACAAAGCA GGTGTGCCTG AAGATGAATG TTGGACTGGC
    CAAACATCTG ATGCTGGGAC ATATCCAGTG GCAGATGTGG ATACTTCTAG AAGGAGTCCA
    GGTCCAGAGG ATGGACAGGC CCCAGTGCTG ACCTACATTG ACGTAAAATC TAGCAATAAG
    AACCCCTCCA GAGCTGAACC CCTGGTGGCC TTCAATGCTC AGCATGAGAG TAGGAGCTCT
    AGAGATAAGT ATGGATTAGA CAGGACTGGG CTAAGCAAAG TGGTAGTAGG TGGAAGCCAC
    CAAAATGCCA TCTCTTCAGA CAAAACAACT CTCCATGAAT TAAGTACTCT AGGAAAGGGA
    ATAGATCAAG AGGGGAAGAT GGTGCTGCTA AGCTTGAAAC TCACCCCCTC TGAGCCCTGT
    GATCCACTAA GTTCTACCCT GAGGGAGCCC TTAGATATTA GGTCTTCCCT AAAGGACTCT
    CACACAGAAG AGCAGGAGGA ACTCTCAGTG CTATCCGGGG TCATCAAGAG ATCTTCATCC
    ATCATATCTG ATTCAGGCAT TGAGAGTGAG CCAAGCTCCG TCGCCTGGTC AGAGGCCCGA
    AGCAGGGCTC TGGAGTTGCC CAGTGATCGG GAAGTCTTGC ACCCGTTTGT TCGAAGACAT
    GCCCTCCACC GGAACTCCCT AGAGGGTGGA CACACAGAAA GTAACACAAG TTTGCCAAGC
    GGCATCCAGG CTTCTCTCAC CTCCATTAGC TCTTTACCTT TTGAGGAGGA TGAGCGGGAG
    GTGGCACTCA CTAAGTTAAC CAAGTCTGTA TCTGCTCCCC ACATCAGTAG CCCAGAGGAG
    GCTGCTGAAG ATGCGGACAC CAAGCAGCAA GATGGAGGTT TTGCTGAACC TTCAGATATG
    CACAGCAAGA GCCAAGGTTC CCCAGGATCT TGCTCTCAAC TTTGTGGTGA CTCTGGAACA
    GATGCTGGAG CAGACCATCC CCTGGTGGAG ATAGTTTTAG ATGCTGACAA CCAGCAGGGC
    CCCGGATACA TAGACATCCC CAAAGGGAAA GGGAAGCAGT TTGATGCTCA AGGACACTGT
    CTTCCTGATG GCAGGACTGA GAACACTCCA GGTGTTGAAA CCAAAGGTCT TAATTTAAAA
    ATACCACGCG TCATAGCACT TGAAAACCCC AGGACCAGAT CTCTTCATAG AGCACTTGAG
    GAAACCCCAA AGGGCATGCC TAAAGACTTG AATGTGGGTC AGCAAGCTCT TTCCAACAGT
    GGCATCTCAG AGGTTGAGGG TCTCTCTCAA CATCAGGTGC CTGAATTGAG CTGTACGTCA
    GCTGCTGATG CCATCAACAG GAACTCAACA GGCCAGCAAA GCCAAAGCGG TTCACCTTGC
    ATTATGGATG ACACAGCATT TAATAGAGGA GTGAATGCCT TCCCGGAGGC TAAACATAAA
    GCAGGCACTG TGTGCCCCAC TGTGACCCAT TCCGTTCATT CCCAGGTTTT GAAAAACCAA
    GAGCTGAAGG CAGGCACTTC CATCATGGGG TCCCATCTGA CTTCTGCAGA GACCTTTACT
    CTGGACAGCC TGAAGGCTGT GGAGGTTGTG AACTTATCTG TGTCTTGCAC TGCCACCTGT
    CTCCCTTTCT CATCTGTGCC CAAGGAGACC CCTGCCAGGG CTGGATTCTC TTCCAAACAG
    ACCCTGTTTC CCATCACCCA TCAGCCTTTG GGATCCTTTG GAGTTGTTTC TACCCATTCC
    AGCACGTTGG ATGAGGAAGT CAGTGAGAGG ATGTTTAGTG TATTCTCCAG TTTTTATCAG
    GCCAAAGAAA AATTTAAAAA AGAACTGAAG ATTGAAGGAT TTCTGTACAG TGACTTAACT
    GTACTAGCTT CTGATATACC ATATTTCCCA CCAGAGGAAG AGGAAGAAAA TTTGGAAGAT
    GGAATTCACC TGGTTGTCTG TGTCCATGGC CTGGATGGGA ACAGTGCAGA CCTCCGGCTG
    GTAAAGACTT TCATAGAACT GGGGCTCCCT GGAGGAAAAC TGGACTTCCT AATGTCTGAA
    AAGAATCAGA TGGACACATT TGCAGATTTT GATACTATGA CGGATCGGTT ATTGGATGAA
    ATCATTCAAC ACATTCAGTT GTACAACCTC TCCATATCCC GAATTAGCTT CATTGGCCAT
    TCTCTTGGCA ACATCATCAT CCGATCGGTC CTCACACGGC CCCGGTTCCG GTATTACCTC
    AACAAACTCC ACACGTTCCT GTCACTCTCT GGGCCTCACC TGGGAACCCT GTACAACAAC
    AGCACCCTGG TTAGTACAGG CTTATGGCTC ATGCAGAAAC TGAAGAAATC CGGGTCTCTA
    CTGCAGCTGA CCTTCAGGGA TAATGCTGAT TTGCGCAAAT GTTTCCTCTA CCAACTAAGC
    CAAAAAACAG GGCTGCAGTA TTTTAAAAAC GTCGTGCTGG TTGCTTCTCC CCAAGACCGT
    TATGTGCCAT TTCATTCAGC CAGGATTGAA ATGTGTAAAA CTGCCCTCAA AGACAGACAC
    ACAGGGCCAG TTTATGCAGA AATGATCAAC AACCTCCTGG GCCCTCTGGT TGAAGCCAAG
    GACTGCACTT TAATCCGACA CAACGTGTTC CACGCCCTGC CCAACACTGC CAACACCCTG
    ATCGGCCGAG CCGCTCACAT CGCTGTGCTG GATTCAGAAC TCTTCCTGGA GAAGTTTTTC
    TTGGTGGCAG GACTCAACTA CTTCAAGTAG

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

    RefSeq XP_011515374.1
    CDS20..3649
    Translation

    Target ORF information:

    RefSeq Version XM_011517072.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X17, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517072.2

    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
    ATGCTGTTGT ATAAAGAAAT ATATCGGCCG GGCATGGTGG CTCACGCCTG TAATCCCAGC 
    ACTTTGGGAA GCTTCTACAT CACCTCTGAG AACTGCATGC AGCACGCACA CAAGTGGCAC
    CGAGACCTGT GCCTGTTGCT CCTCCACGCT TACCGGGGTC TCCGTCTCCA CTTCCTGGTG
    ATCATGCGGG ACATCCCAGA GCTGCCACAC ACGGAGCTGG AGGCCCTTGC TGTTGAAGAA
    ACACTTTCTC AGCTGTGCTC AGAGCTACAG ATGTTGAACA ATCCAGAGAA GATCGCTGAG
    CAGATAAGCA AGGATCTGGC CTGGCTCACG TCCCACATGA TGACTCTGTG GACCCAGTTC
    CTGGACACAG TCACTCTGCA CTCCCAAGTG ACCACTTATC TCACCCAGGA ACACCACACC
    CTGAGGGTCC GAAGGTTTTC TGAGGCCTTC TTTTACATGG AGCACCAAAA ACTTGCAGTC
    CTGACATTTC AGGAGAATCT GATACAGACG CACAGCCAGC TGTCCCTGGA TATCCGGAAC
    TCGGAGTACC TCACTAGCAT GCCCCCGCTG CCTGCAGAGT GCCTGGACAT CGACGGCGAT
    TGGAACACCC TGCCGGTGAT CTTTGAGGAC AGATACGTGG ACTGCCCTGC GACAGGGCAT
    AACTTGAGTG TTTATCCTAA TTTTGATGTT CCAGTGACAA GTCCTACAAT AATGAATCTG
    AAAGACAAGG AAGATAACTG TATGGTAAAT AGCAATTTAT CTTTTAGGGA AGACCTTGTC
    TTGTCTACCA TAAAACCATC CCAAATGGAT TCTGATGAAG AAGTTATAAG GTGTCCAGAG
    CCAGGTGAGA ATGTGGCCAC ACAAAATCAT ATGGACATGT GCTCTGAATC TCAGGTGTAT
    ATATCAATTG GTGAATTTCA AAACAAAGCA GGTGTGCCTG AAGATGAATG TTGGACTGGC
    CAAACATCTG ATGCTGGGAC ATATCCAGTG GCAGATGTGG ATACTTCTAG AAGGAGTCCA
    GGTCCAGAGG ATGGACAGGC CCCAGTGCTG ACCTACATTG ACGTAAAATC TAGCAATAAG
    AACCCCTCCA GAGCTGAACC CCTGGTGGCC TTCAATGCTC AGCATGAGAG TAGGAGCTCT
    AGAGATAAGT ATGGATTAGA CAGGACTGGG CTAAGCAAAG TGGTAGTAGG TGGAAGCCAC
    CAAAATGCCA TCTCTTCAGA CAAAACAACT CTCCATGAAT TAAGTACTCT AGGAAAGGGA
    ATAGATCAAG AGGGGAAGAT GGTGCTGCTA AGCTTGAAAC TCACCCCCTC TGAGCCCTGT
    GATCCACTAA GTTCTACCCT GAGGGAGCCC TTAGATATTA GGTCTTCCCT AAAGGACTCT
    CACACAGAAG AGCAGGAGGA ACTCTCAGTG CTATCCGGGG TCATCAAGAG ATCTTCATCC
    ATCATATCTG ATTCAGGCAT TGAGAGTGAG CCAAGCTCCG TCGCCTGGTC AGAGGCCCGA
    AGCAGGGCTC TGGAGTTGCC CAGTGATCGG GAAGTCTTGC ACCCGTTTGT TCGAAGACAT
    GCCCTCCACC GGAACTCCCT AGAGGGTGGA CACACAGAAA GTAACACAAG TTTGCCAAGC
    GGCATCCAGG CTTCTCTCAC CTCCATTAGC TCTTTACCTT TTGAGGAGGA TGAGCGGGAG
    GTGGCACTCA CTAAGTTAAC CAAGTCTGTA TCTGCTCCCC ACATCAGTAG CCCAGAGGAG
    GCTGCTGAAG ATGCGGACAC CAAGCAGCAA GATGGAGGTT TTGCTGAACC TTCAGATATG
    CACAGCAAGA GCCAAGGTTC CCCAGGATCT TGCTCTCAAC TTTGTGGTGA CTCTGGAACA
    GATGCTGGAG CAGACCATCC CCTGGTGGAG ATAGTTTTAG ATGCTGACAA CCAGCAGGGC
    CCCGGATACA TAGACATCCC CAAAGGGAAA GGGAAGCAGT TTGATGCTCA AGGACACTGT
    CTTCCTGATG GCAGGACTGA GAACACTCCA GGTGTTGAAA CCAAAGGTCT TAATTTAAAA
    ATACCACGCG TCATAGCACT TGAAAACCCC AGGACCAGAT CTCTTCATAG AGCACTTGAG
    GAAACCCCAA AGGGCATGCC TAAAGACTTG AATGTGGGTC AGCAAGCTCT TTCCAACAGT
    GGCATCTCAG AGGTTGAGGG TCTCTCTCAA CATCAGGTGC CTGAATTGAG CTGTACGTCA
    GCTGCTGATG CCATCAACAG GAACTCAACA GGCCAGCAAA GCCAAAGCGG TTCACCTTGC
    ATTATGGATG ACACAGCATT TAATAGAGGA GTGAATGCCT TCCCGGAGGC TAAACATAAA
    GCAGGCACTG TGTGCCCCAC TGTGACCCAT TCCGTTCATT CCCAGGTTTT GAAAAACCAA
    GAGCTGAAGG CAGGCACTTC CATCATGGGG TCCCATCTGA CTTCTGCAGA GACCTTTACT
    CTGGACAGCC TGAAGGCTGT GGAGGTTGTG AACTTATCTG TGTCTTGCAC TGCCACCTGT
    CTCCCTTTCT CATCTGTGCC CAAGGAGACC CCTGCCAGGG CTGGATTCTC TTCCAAACAG
    ACCCTGTTTC CCATCACCCA TCAGCCTTTG GGATCCTTTG GAGTTGTTTC TACCCATTCC
    AGCACGTTGG ATGAGGAAGT CAGTGAGAGG ATGTTTAGTG TATTCTCCAG TTTTTATCAG
    GCCAAAGAAA AATTTAAAAA AGAACTGAAG ATTGAAGGAT TTCTGTACAG TGACTTAACT
    GTACTAGCTT CTGATATACC ATATTTCCCA CCAGAGGAAG AGGAAGAAAA TTTGGAAGAT
    GGAATTCACC TGGTTGTCTG TGTCCATGGC CTGGATGGGA ACAGTGCAGA CCTCCGGCTG
    GTAAAGACTT TCATAGAACT GGGGCTCCCT GGAGGAAAAC TGGACTTCCT AATGTCTGAA
    AAGAATCAGA TGGACACATT TGCAGATTTT GATACTATGA CGGATCGGTT ATTGGATGAA
    ATCATTCAAC ACATTCAGTT GTACAACCTC TCCATATCCC GAATTAGCTT CATTGGCCAT
    TCTCTTGGCA ACATCATCAT CCGATCGGTC CTCACACGGC CCCGGTTCCG GTATTACCTC
    AACAAACTCC ACACGTTCCT GTCACTCTCT GGGCCTCACC TGGGAACCCT GTACAACAAC
    AGCACCCTGG TTAGTACAGG CTTATGGCTC ATGCAGAAAC TGAAGAAATC CGGGTCTCTA
    CTGCAGCTGA CCTTCAGGGA TAATGCTGAT TTGCGCAAAT GTTTCCTCTA CCAACTAAGC
    CAAAAAACAG GGCTGCAGTA TTTTAAAAAC GTCGTGCTGG TTGCTTCTCC CCAAGACCGT
    TATGTGCCAT TTCATTCAGC CAGGATTGAA ATGTGTAAAA CTGCCCTCAA AGACAGACAC
    ACAGGGCCAG TTTATGCAGA AATGATCAAC AACCTCCTGG GCCCTCTGGT TGAAGCCAAG
    GACTGCACTT TAATCCGACA CAACGTGTTC CACGCCCTGC CCAACACTGC CAACACCCTG
    ATCGGCCGAG CCGCTCACAT CGCTGTGCTG GATTCAGAAC TCTTCCTGGA GAAGTTTTTC
    TTGGTGGCAG GACTCAACTA CTTCAAGTAG

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

    CloneID OHu67618
    Clone ID Related Accession (Same CDS sequence) XM_011517073.2
    Accession Version XM_011517073.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
    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 protein FAM135B isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517073.1. ##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
    ATGCAGCACG CACACAAGTG GCACCGAGAC CTGTGCCTGT TGCTCCTCCA CGCTTACCGG 
    GGTCTCCGTC TCCACTTCCT GGTGATCATG CGGGACATCC CAGAGCTGCC ACACACGGAG
    CTGGAGGCCC TTGCTGTTGA AGAAACACTT TCTCAGCTGT GCTCAGAGCT ACAGATGTTG
    AACAATCCAG AGAAGATCGC TGAGCAGATA AGCAAGGATC TGGCCTGGCT CACGTCCCAC
    ATGATGACTC TGTGGACCCA GTTCCTGGAC ACAGTCACTC TGCACTCCCA AGTGACCACT
    TATCTCACCC AGGAACACCA CACCCTGAGG GTCCGAAGGT TTTCTGAGGC CTTCTTTTAC
    ATGGAGCACC AAAAACTTGC AGTCCTGACA TTTCAGGAGA ATCTGATACA GACGCACAGC
    CAGCTGTCCC TGGATATCCG GAACTCGGAG TACCTCACTA GCATGCCCCC GCTGCCTGCA
    GAGTGCCTGG ACATCGACGG CGATTGGAAC ACCCTGCCGG TGATCTTTGA GGACAGATAC
    GTGGACTGCC CTGCGACAGG GCATAACTTG AGTGTTTATC CTAATTTTGA TGTTCCAGTG
    ACAAGTCCTA CAATAATGAA TCTGAAAGAC AAGGAAGATA ACTGTATGGT AAATAGCAAT
    TTATCTTTTA GGGAAGACCT TGTCTTGTCT ACCATAAAAC CATCCCAAAT GGATTCTGAT
    GAAGAAGTTA TAAGGTGTCC AGAGCCAGGT GAGAATGTGG CCACACAAAA TCATATGGAC
    ATGTGCTCTG AATCTCAGGT GTATATATCA ATTGGTGAAT TTCAAAACAA AGCAGGTGTG
    CCTGAAGATG AATGTTGGAC TGGCCAAACA TCTGATGCTG GGACATATCC AGTGGCAGAT
    GTGGATACTT CTAGAAGGAG TCCAGGTCCA GAGGATGGAC AGGCCCCAGT GCTGACCTAC
    ATTGACGTAA AATCTAGCAA TAAGAACCCC TCCAGAGCTG AACCCCTGGT GGCCTTCAAT
    GCTCAGCATG AGAGTAGGAG CTCTAGAGAT AAGTATGGAT TAGACAGGAC TGGGCTAAGC
    AAAGTGGTAG TAGGTGGAAG CCACCAAAAT GCCATCTCTT CAGACAAAAC AACTCTCCAT
    GAATTAAGTA CTCTAGGAAA GGGAATAGAT CAAGAGGGGA AGATGGTGCT GCTAAGCTTG
    AAACTCACCC CCTCTGAGCC CTGTGATCCA CTAAGTTCTA CCCTGAGGGA GCCCTTAGAT
    ATTAGGTCTT CCCTAAAGGA CTCTCACACA GAAGAGCAGG AGGAACTCTC AGTGCTATCC
    GGGGTCATCA AGAGATCTTC ATCCATCATA TCTGATTCAG GCATTGAGAG TGAGCCAAGC
    TCCGTCGCCT GGTCAGAGGC CCGAAGCAGG GCTCTGGAGT TGCCCAGTGA TCGGGAAGTC
    TTGCACCCGT TTGTTCGAAG ACATGCCCTC CACCGGAACT CCCTAGAGGG TGGACACACA
    GAAAGTAACA CAAGTTTGCC AAGCGGCATC CAGGCTTCTC TCACCTCCAT TAGCTCTTTA
    CCTTTTGAGG AGGATGAGCG GGAGGTGGCA CTCACTAAGT TAACCAAGTC TGTATCTGCT
    CCCCACATCA GTAGCCCAGA GGAGGCTGCT GAAGATGCGG ACACCAAGCA GCAAGATGGA
    GGTTTTGCTG AACCTTCAGA TATGCACAGC AAGAGCCAAG GTTCCCCAGG ATCTTGCTCT
    CAACTTTGTG GTGACTCTGG AACAGATGCT GGAGCAGACC ATCCCCTGGT GGAGATAGTT
    TTAGATGCTG ACAACCAGCA GGGCCCCGGA TACATAGACA TCCCCAAAGG GAAAGGGAAG
    CAGTTTGATG CTCAAGGACA CTGTCTTCCT GATGGCAGGA CTGAGAACAC TCCAGGTGTT
    GAAACCAAAG GTCTTAATTT AAAAATACCA CGCGTCATAG CACTTGAAAA CCCCAGGACC
    AGATCTCTTC ATAGAGCACT TGAGGAAACC CCAAAGGGCA TGCCTAAAGA CTTGAATGTG
    GGTCAGCAAG CTCTTTCCAA CAGTGGCATC TCAGAGGTTG AGGGTCTCTC TCAACATCAG
    GTGCCTGAAT TGAGCTGTAC GTCAGCTGCT GATGCCATCA ACAGGAACTC AACAGGCCAG
    CAAAGCCAAA GCGGTTCACC TTGCATTATG GATGACACAG CATTTAATAG AGGAGTGAAT
    GCCTTCCCGG AGGCTAAACA TAAAGCAGGC ACTGTGTGCC CCACTGTGAC CCATTCCGTT
    CATTCCCAGG TTTTGAAAAA CCAAGAGCTG AAGGCAGGCA CTTCCATCAT GGGGTCCCAT
    CTGACTTCTG CAGAGACCTT TACTCTGGAC AGCCTGAAGG CTGTGGAGGT TGTGAACTTA
    TCTGTGTCTT GCACTGCCAC CTGTCTCCCT TTCTCATCTG TGCCCAAGGA GACCCCTGCC
    AGGGCTGGAT TCTCTTCCAA ACAGACCCTG TTTCCCATCA CCCATCAGCC TTTGGGATCC
    TTTGGAGTTG TTTCTACCCA TTCCAGCACG TTGGATGAGG AAGTCAGTGA GAGGATGTTT
    AGTGTATTCT CCAGTTTTTA TCAGGCCAAA GAAAAATTTA AAAAAGAACT GAAGATTGAA
    GGATTTCTGT ACAGTGACTT AACTGTACTA GCTTCTGATA TACCATATTT CCCACCAGAG
    GAAGAGGAAG AAAATTTGGA AGATGGAATT CACCTGGTTG TCTGTGTCCA TGGCCTGGAT
    GGGAACAGTG CAGACCTCCG GCTGGTAAAG ACTTTCATAG AACTGGGGCT CCCTGGAGGA
    AAACTGGACT TCCTAATGTC TGAAAAGAAT CAGATGGACA CATTTGCAGA TTTTGATACT
    ATGACGGATC GGTTATTGGA TGAAATCATT CAACACATTC AGTTGTACAA CCTCTCCATA
    TCCCGAATTA GCTTCATTGG CCATTCTCTT GGCAACATCA TCATCCGATC GGTCCTCACA
    CGGCCCCGGT TCCGGTATTA CCTCAACAAA CTCCACACGT TCCTGTCACT CTCTGGGCCT
    CACCTGGGAA CCCTGTACAA CAACAGCACC CTGGTTAGTA CAGGCTTATG GCTCATGCAG
    AAACTGAAGA AATCCGGGTC TCTACTGCAG CTGACCTTCA GGGATAATGC TGATTTGCGC
    AAATGTTTCC TCTACCAACT AAGCCAAAAA ACAGGGCTGC AGTATTTTAA AAACGTCGTG
    CTGGTTGCTT CTCCCCAAGA CCGTTATGTG CCATTTCATT CAGCCAGGAT TGAAATGTGT
    AAAACTGCCC TCAAAGACAG ACACACAGGG CCAGTTTATG CAGAAATGAT CAACAACCTC
    CTGGGCCCTC TGGTTGAAGC CAAGGACTGC ACTTTAATCC GACACAACGT GTTCCACGCC
    CTGCCCAACA CTGCCAACAC CCTGATCGGC CGAGCCGCTC ACATCGCTGT GCTGGATTCA
    GAACTCTTCC TGGAGAAGTT TTTCTTGGTG GCAGGACTCA ACTACTTCAA GTAG

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

    RefSeq XP_011515375.1
    CDS120..3653
    Translation

    Target ORF information:

    RefSeq Version XM_011517073.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X18, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517073.2

    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
    ATGCAGCACG CACACAAGTG GCACCGAGAC CTGTGCCTGT TGCTCCTCCA CGCTTACCGG 
    GGTCTCCGTC TCCACTTCCT GGTGATCATG CGGGACATCC CAGAGCTGCC ACACACGGAG
    CTGGAGGCCC TTGCTGTTGA AGAAACACTT TCTCAGCTGT GCTCAGAGCT ACAGATGTTG
    AACAATCCAG AGAAGATCGC TGAGCAGATA AGCAAGGATC TGGCCTGGCT CACGTCCCAC
    ATGATGACTC TGTGGACCCA GTTCCTGGAC ACAGTCACTC TGCACTCCCA AGTGACCACT
    TATCTCACCC AGGAACACCA CACCCTGAGG GTCCGAAGGT TTTCTGAGGC CTTCTTTTAC
    ATGGAGCACC AAAAACTTGC AGTCCTGACA TTTCAGGAGA ATCTGATACA GACGCACAGC
    CAGCTGTCCC TGGATATCCG GAACTCGGAG TACCTCACTA GCATGCCCCC GCTGCCTGCA
    GAGTGCCTGG ACATCGACGG CGATTGGAAC ACCCTGCCGG TGATCTTTGA GGACAGATAC
    GTGGACTGCC CTGCGACAGG GCATAACTTG AGTGTTTATC CTAATTTTGA TGTTCCAGTG
    ACAAGTCCTA CAATAATGAA TCTGAAAGAC AAGGAAGATA ACTGTATGGT AAATAGCAAT
    TTATCTTTTA GGGAAGACCT TGTCTTGTCT ACCATAAAAC CATCCCAAAT GGATTCTGAT
    GAAGAAGTTA TAAGGTGTCC AGAGCCAGGT GAGAATGTGG CCACACAAAA TCATATGGAC
    ATGTGCTCTG AATCTCAGGT GTATATATCA ATTGGTGAAT TTCAAAACAA AGCAGGTGTG
    CCTGAAGATG AATGTTGGAC TGGCCAAACA TCTGATGCTG GGACATATCC AGTGGCAGAT
    GTGGATACTT CTAGAAGGAG TCCAGGTCCA GAGGATGGAC AGGCCCCAGT GCTGACCTAC
    ATTGACGTAA AATCTAGCAA TAAGAACCCC TCCAGAGCTG AACCCCTGGT GGCCTTCAAT
    GCTCAGCATG AGAGTAGGAG CTCTAGAGAT AAGTATGGAT TAGACAGGAC TGGGCTAAGC
    AAAGTGGTAG TAGGTGGAAG CCACCAAAAT GCCATCTCTT CAGACAAAAC AACTCTCCAT
    GAATTAAGTA CTCTAGGAAA GGGAATAGAT CAAGAGGGGA AGATGGTGCT GCTAAGCTTG
    AAACTCACCC CCTCTGAGCC CTGTGATCCA CTAAGTTCTA CCCTGAGGGA GCCCTTAGAT
    ATTAGGTCTT CCCTAAAGGA CTCTCACACA GAAGAGCAGG AGGAACTCTC AGTGCTATCC
    GGGGTCATCA AGAGATCTTC ATCCATCATA TCTGATTCAG GCATTGAGAG TGAGCCAAGC
    TCCGTCGCCT GGTCAGAGGC CCGAAGCAGG GCTCTGGAGT TGCCCAGTGA TCGGGAAGTC
    TTGCACCCGT TTGTTCGAAG ACATGCCCTC CACCGGAACT CCCTAGAGGG TGGACACACA
    GAAAGTAACA CAAGTTTGCC AAGCGGCATC CAGGCTTCTC TCACCTCCAT TAGCTCTTTA
    CCTTTTGAGG AGGATGAGCG GGAGGTGGCA CTCACTAAGT TAACCAAGTC TGTATCTGCT
    CCCCACATCA GTAGCCCAGA GGAGGCTGCT GAAGATGCGG ACACCAAGCA GCAAGATGGA
    GGTTTTGCTG AACCTTCAGA TATGCACAGC AAGAGCCAAG GTTCCCCAGG ATCTTGCTCT
    CAACTTTGTG GTGACTCTGG AACAGATGCT GGAGCAGACC ATCCCCTGGT GGAGATAGTT
    TTAGATGCTG ACAACCAGCA GGGCCCCGGA TACATAGACA TCCCCAAAGG GAAAGGGAAG
    CAGTTTGATG CTCAAGGACA CTGTCTTCCT GATGGCAGGA CTGAGAACAC TCCAGGTGTT
    GAAACCAAAG GTCTTAATTT AAAAATACCA CGCGTCATAG CACTTGAAAA CCCCAGGACC
    AGATCTCTTC ATAGAGCACT TGAGGAAACC CCAAAGGGCA TGCCTAAAGA CTTGAATGTG
    GGTCAGCAAG CTCTTTCCAA CAGTGGCATC TCAGAGGTTG AGGGTCTCTC TCAACATCAG
    GTGCCTGAAT TGAGCTGTAC GTCAGCTGCT GATGCCATCA ACAGGAACTC AACAGGCCAG
    CAAAGCCAAA GCGGTTCACC TTGCATTATG GATGACACAG CATTTAATAG AGGAGTGAAT
    GCCTTCCCGG AGGCTAAACA TAAAGCAGGC ACTGTGTGCC CCACTGTGAC CCATTCCGTT
    CATTCCCAGG TTTTGAAAAA CCAAGAGCTG AAGGCAGGCA CTTCCATCAT GGGGTCCCAT
    CTGACTTCTG CAGAGACCTT TACTCTGGAC AGCCTGAAGG CTGTGGAGGT TGTGAACTTA
    TCTGTGTCTT GCACTGCCAC CTGTCTCCCT TTCTCATCTG TGCCCAAGGA GACCCCTGCC
    AGGGCTGGAT TCTCTTCCAA ACAGACCCTG TTTCCCATCA CCCATCAGCC TTTGGGATCC
    TTTGGAGTTG TTTCTACCCA TTCCAGCACG TTGGATGAGG AAGTCAGTGA GAGGATGTTT
    AGTGTATTCT CCAGTTTTTA TCAGGCCAAA GAAAAATTTA AAAAAGAACT GAAGATTGAA
    GGATTTCTGT ACAGTGACTT AACTGTACTA GCTTCTGATA TACCATATTT CCCACCAGAG
    GAAGAGGAAG AAAATTTGGA AGATGGAATT CACCTGGTTG TCTGTGTCCA TGGCCTGGAT
    GGGAACAGTG CAGACCTCCG GCTGGTAAAG ACTTTCATAG AACTGGGGCT CCCTGGAGGA
    AAACTGGACT TCCTAATGTC TGAAAAGAAT CAGATGGACA CATTTGCAGA TTTTGATACT
    ATGACGGATC GGTTATTGGA TGAAATCATT CAACACATTC AGTTGTACAA CCTCTCCATA
    TCCCGAATTA GCTTCATTGG CCATTCTCTT GGCAACATCA TCATCCGATC GGTCCTCACA
    CGGCCCCGGT TCCGGTATTA CCTCAACAAA CTCCACACGT TCCTGTCACT CTCTGGGCCT
    CACCTGGGAA CCCTGTACAA CAACAGCACC CTGGTTAGTA CAGGCTTATG GCTCATGCAG
    AAACTGAAGA AATCCGGGTC TCTACTGCAG CTGACCTTCA GGGATAATGC TGATTTGCGC
    AAATGTTTCC TCTACCAACT AAGCCAAAAA ACAGGGCTGC AGTATTTTAA AAACGTCGTG
    CTGGTTGCTT CTCCCCAAGA CCGTTATGTG CCATTTCATT CAGCCAGGAT TGAAATGTGT
    AAAACTGCCC TCAAAGACAG ACACACAGGG CCAGTTTATG CAGAAATGAT CAACAACCTC
    CTGGGCCCTC TGGTTGAAGC CAAGGACTGC ACTTTAATCC GACACAACGT GTTCCACGCC
    CTGCCCAACA CTGCCAACAC CCTGATCGGC CGAGCCGCTC ACATCGCTGT GCTGGATTCA
    GAACTCTTCC TGGAGAAGTT TTTCTTGGTG GCAGGACTCA ACTACTTCAA GTAG

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

    CloneID OHu67619
    Clone ID Related Accession (Same CDS sequence) XM_011517074.1
    Accession Version XM_011517074.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3486bp)
    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 protein FAM135B isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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 :: 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
    ATGTGCCTCC TCCACACAAG GGATGGGGAA AAGCTGGCAT GCTTTTGTAA ATGTCACAGG 
    AATAACCCTG GTCCAGAGGC CCTTGCTGTT GAAGAAACAC TTTCTCAGCT GTGCTCAGAG
    CTACAGATGT TGAACAATCC AGAGAAGATC GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG
    CTCACGTCCC ACATGATGAC TCTGTGGACC CAGTTCCTGG ACACAGTCAC TCTGCACTCC
    CAAGTGACCA CTTATCTCAC CCAGGAACAC CACACCCTGA GGGTCCGAAG GTTTTCTGAG
    GCCTTCTTTT ACATGGAGCA CCAAAAACTT GCAGTCCTGA CATTTCAGGA GAATCTGATA
    CAGACGCACA GCCAGCTGTC CCTGGATATC CGGAACTCGG AGTACCTCAC TAGCATGCCC
    CCGCTGCCTG CAGAGTGCCT GGACATCGAC GGCGATTGGA ACACCCTGCC GGTGATCTTT
    GAGGACAGAT ACGTGGACTG CCCTGCGACA GGGCATAACT TGAGTGTTTA TCCTAATTTT
    GATGTTCCAG TGACAAGTCC TACAATAATG AATCTGAAAG ACAAGGAAGA TAACTGTATG
    GTAAATAGCA ATTTATCTTT TAGGGAAGAC CTTGTCTTGT CTACCATAAA ACCATCCCAA
    ATGGATTCTG ATGAAGAAGT TATAAGGTGT CCAGAGCCAG GTGAGAATGT GGCCACACAA
    AATCATATGG ACATGTGCTC TGAATCTCAG GTGTATATAT CAATTGGTGA ATTTCAAAAC
    AAAGCAGGTG TGCCTGAAGA TGAATGTTGG ACTGGCCAAA CATCTGATGC TGGGACATAT
    CCAGTGGCAG ATGTGGATAC TTCTAGAAGG AGTCCAGGTC CAGAGGATGG ACAGGCCCCA
    GTGCTGACCT ACATTGACGT AAAATCTAGC AATAAGAACC CCTCCAGAGC TGAACCCCTG
    GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG AGCTCTAGAG ATAAGTATGG ATTAGACAGG
    ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA AGCCACCAAA ATGCCATCTC TTCAGACAAA
    ACAACTCTCC ATGAATTAAG TACTCTAGGA AAGGGAATAG ATCAAGAGGG GAAGATGGTG
    CTGCTAAGCT TGAAACTCAC CCCCTCTGAG CCCTGTGATC CACTAAGTTC TACCCTGAGG
    GAGCCCTTAG ATATTAGGTC TTCCCTAAAG GACTCTCACA CAGAAGAGCA GGAGGAACTC
    TCAGTGCTAT CCGGGGTCAT CAAGAGATCT TCATCCATCA TATCTGATTC AGGCATTGAG
    AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT
    GATCGGGAAG TCTTGCACCC GTTTGTTCGA AGACATGCCC TCCACCGGAA CTCCCTAGAG
    GGTGGACACA CAGAAAGTAA CACAAGTTTG CCAAGCGGCA TCCAGGCTTC TCTCACCTCC
    ATTAGCTCTT TACCTTTTGA GGAGGATGAG CGGGAGGTGG CACTCACTAA GTTAACCAAG
    TCTGTATCTG CTCCCCACAT CAGTAGCCCA GAGGAGGCTG CTGAAGATGC GGACACCAAG
    CAGCAAGATG GAGGTTTTGC TGAACCTTCA GATATGCACA GCAAGAGCCA AGGTTCCCCA
    GGATCTTGCT CTCAACTTTG TGGTGACTCT GGAACAGATG CTGGAGCAGA CCATCCCCTG
    GTGGAGATAG TTTTAGATGC TGACAACCAG CAGGGCCCCG GATACATAGA CATCCCCAAA
    GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA CACTGTCTTC CTGATGGCAG GACTGAGAAC
    ACTCCAGGTG TTGAAACCAA AGGTCTTAAT TTAAAAATAC CACGCGTCAT AGCACTTGAA
    AACCCCAGGA CCAGATCTCT TCATAGAGCA CTTGAGGAAA CCCCAAAGGG CATGCCTAAA
    GACTTGAATG TGGGTCAGCA AGCTCTTTCC AACAGTGGCA TCTCAGAGGT TGAGGGTCTC
    TCTCAACATC AGGTGCCTGA ATTGAGCTGT ACGTCAGCTG CTGATGCCAT CAACAGGAAC
    TCAACAGGCC AGCAAAGCCA AAGCGGTTCA CCTTGCATTA TGGATGACAC AGCATTTAAT
    AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA CATAAAGCAG GCACTGTGTG CCCCACTGTG
    ACCCATTCCG TTCATTCCCA GGTTTTGAAA AACCAAGAGC TGAAGGCAGG CACTTCCATC
    ATGGGGTCCC ATCTGACTTC TGCAGAGACC TTTACTCTGG ACAGCCTGAA GGCTGTGGAG
    GTTGTGAACT TATCTGTGTC TTGCACTGCC ACCTGTCTCC CTTTCTCATC TGTGCCCAAG
    GAGACCCCTG CCAGGGCTGG ATTCTCTTCC AAACAGACCC TGTTTCCCAT CACCCATCAG
    CCTTTGGGAT CCTTTGGAGT TGTTTCTACC CATTCCAGCA CGTTGGATGA GGAAGTCAGT
    GAGAGGATGT TTAGTGTATT CTCCAGTTTT TATCAGGCCA AAGAAAAATT TAAAAAAGAA
    CTGAAGATTG AAGGATTTCT GTACAGTGAC TTAACTGTAC TAGCTTCTGA TATACCATAT
    TTCCCACCAG AGGAAGAGGA AGAAAATTTG GAAGATGGAA TTCACCTGGT TGTCTGTGTC
    CATGGCCTGG ATGGGAACAG TGCAGACCTC CGGCTGGTAA AGACTTTCAT AGAACTGGGG
    CTCCCTGGAG GAAAACTGGA CTTCCTAATG TCTGAAAAGA ATCAGATGGA CACATTTGCA
    GATTTTGATA CTATGACGGA TCGGTTATTG GATGAAATCA TTCAACACAT TCAGTTGTAC
    AACCTCTCCA TATCCCGAAT TAGCTTCATT GGCCATTCTC TTGGCAACAT CATCATCCGA
    TCGGTCCTCA CACGGCCCCG GTTCCGGTAT TACCTCAACA AACTCCACAC GTTCCTGTCA
    CTCTCTGGGC CTCACCTGGG AACCCTGTAC AACAACAGCA CCCTGGTTAG TACAGGCTTA
    TGGCTCATGC AGAAACTGAA GAAATCCGGG TCTCTACTGC AGCTGACCTT CAGGGATAAT
    GCTGATTTGC GCAAATGTTT CCTCTACCAA CTAAGCCAAA AAACAGGGCT GCAGTATTTT
    AAAAACGTCG TGCTGGTTGC TTCTCCCCAA GACCGTTATG TGCCATTTCA TTCAGCCAGG
    ATTGAAATGT GTAAAACTGC CCTCAAAGAC AGACACACAG GGCCAGTTTA TGCAGAAATG
    ATCAACAACC TCCTGGGCCC TCTGGTTGAA GCCAAGGACT GCACTTTAAT CCGACACAAC
    GTGTTCCACG CCCTGCCCAA CACTGCCAAC ACCCTGATCG GCCGAGCCGC TCACATCGCT
    GTGCTGGATT CAGAACTCTT CCTGGAGAAG TTTTTCTTGG TGGCAGGACT CAACTACTTC
    AAGTAG

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

    RefSeq XP_011515376.1
    CDS34..3519
    Translation

    Target ORF information:

    RefSeq Version XM_011517074.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X19, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517074.1

    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
    ATGTGCCTCC TCCACACAAG GGATGGGGAA AAGCTGGCAT GCTTTTGTAA ATGTCACAGG 
    AATAACCCTG GTCCAGAGGC CCTTGCTGTT GAAGAAACAC TTTCTCAGCT GTGCTCAGAG
    CTACAGATGT TGAACAATCC AGAGAAGATC GCTGAGCAGA TAAGCAAGGA TCTGGCCTGG
    CTCACGTCCC ACATGATGAC TCTGTGGACC CAGTTCCTGG ACACAGTCAC TCTGCACTCC
    CAAGTGACCA CTTATCTCAC CCAGGAACAC CACACCCTGA GGGTCCGAAG GTTTTCTGAG
    GCCTTCTTTT ACATGGAGCA CCAAAAACTT GCAGTCCTGA CATTTCAGGA GAATCTGATA
    CAGACGCACA GCCAGCTGTC CCTGGATATC CGGAACTCGG AGTACCTCAC TAGCATGCCC
    CCGCTGCCTG CAGAGTGCCT GGACATCGAC GGCGATTGGA ACACCCTGCC GGTGATCTTT
    GAGGACAGAT ACGTGGACTG CCCTGCGACA GGGCATAACT TGAGTGTTTA TCCTAATTTT
    GATGTTCCAG TGACAAGTCC TACAATAATG AATCTGAAAG ACAAGGAAGA TAACTGTATG
    GTAAATAGCA ATTTATCTTT TAGGGAAGAC CTTGTCTTGT CTACCATAAA ACCATCCCAA
    ATGGATTCTG ATGAAGAAGT TATAAGGTGT CCAGAGCCAG GTGAGAATGT GGCCACACAA
    AATCATATGG ACATGTGCTC TGAATCTCAG GTGTATATAT CAATTGGTGA ATTTCAAAAC
    AAAGCAGGTG TGCCTGAAGA TGAATGTTGG ACTGGCCAAA CATCTGATGC TGGGACATAT
    CCAGTGGCAG ATGTGGATAC TTCTAGAAGG AGTCCAGGTC CAGAGGATGG ACAGGCCCCA
    GTGCTGACCT ACATTGACGT AAAATCTAGC AATAAGAACC CCTCCAGAGC TGAACCCCTG
    GTGGCCTTCA ATGCTCAGCA TGAGAGTAGG AGCTCTAGAG ATAAGTATGG ATTAGACAGG
    ACTGGGCTAA GCAAAGTGGT AGTAGGTGGA AGCCACCAAA ATGCCATCTC TTCAGACAAA
    ACAACTCTCC ATGAATTAAG TACTCTAGGA AAGGGAATAG ATCAAGAGGG GAAGATGGTG
    CTGCTAAGCT TGAAACTCAC CCCCTCTGAG CCCTGTGATC CACTAAGTTC TACCCTGAGG
    GAGCCCTTAG ATATTAGGTC TTCCCTAAAG GACTCTCACA CAGAAGAGCA GGAGGAACTC
    TCAGTGCTAT CCGGGGTCAT CAAGAGATCT TCATCCATCA TATCTGATTC AGGCATTGAG
    AGTGAGCCAA GCTCCGTCGC CTGGTCAGAG GCCCGAAGCA GGGCTCTGGA GTTGCCCAGT
    GATCGGGAAG TCTTGCACCC GTTTGTTCGA AGACATGCCC TCCACCGGAA CTCCCTAGAG
    GGTGGACACA CAGAAAGTAA CACAAGTTTG CCAAGCGGCA TCCAGGCTTC TCTCACCTCC
    ATTAGCTCTT TACCTTTTGA GGAGGATGAG CGGGAGGTGG CACTCACTAA GTTAACCAAG
    TCTGTATCTG CTCCCCACAT CAGTAGCCCA GAGGAGGCTG CTGAAGATGC GGACACCAAG
    CAGCAAGATG GAGGTTTTGC TGAACCTTCA GATATGCACA GCAAGAGCCA AGGTTCCCCA
    GGATCTTGCT CTCAACTTTG TGGTGACTCT GGAACAGATG CTGGAGCAGA CCATCCCCTG
    GTGGAGATAG TTTTAGATGC TGACAACCAG CAGGGCCCCG GATACATAGA CATCCCCAAA
    GGGAAAGGGA AGCAGTTTGA TGCTCAAGGA CACTGTCTTC CTGATGGCAG GACTGAGAAC
    ACTCCAGGTG TTGAAACCAA AGGTCTTAAT TTAAAAATAC CACGCGTCAT AGCACTTGAA
    AACCCCAGGA CCAGATCTCT TCATAGAGCA CTTGAGGAAA CCCCAAAGGG CATGCCTAAA
    GACTTGAATG TGGGTCAGCA AGCTCTTTCC AACAGTGGCA TCTCAGAGGT TGAGGGTCTC
    TCTCAACATC AGGTGCCTGA ATTGAGCTGT ACGTCAGCTG CTGATGCCAT CAACAGGAAC
    TCAACAGGCC AGCAAAGCCA AAGCGGTTCA CCTTGCATTA TGGATGACAC AGCATTTAAT
    AGAGGAGTGA ATGCCTTCCC GGAGGCTAAA CATAAAGCAG GCACTGTGTG CCCCACTGTG
    ACCCATTCCG TTCATTCCCA GGTTTTGAAA AACCAAGAGC TGAAGGCAGG CACTTCCATC
    ATGGGGTCCC ATCTGACTTC TGCAGAGACC TTTACTCTGG ACAGCCTGAA GGCTGTGGAG
    GTTGTGAACT TATCTGTGTC TTGCACTGCC ACCTGTCTCC CTTTCTCATC TGTGCCCAAG
    GAGACCCCTG CCAGGGCTGG ATTCTCTTCC AAACAGACCC TGTTTCCCAT CACCCATCAG
    CCTTTGGGAT CCTTTGGAGT TGTTTCTACC CATTCCAGCA CGTTGGATGA GGAAGTCAGT
    GAGAGGATGT TTAGTGTATT CTCCAGTTTT TATCAGGCCA AAGAAAAATT TAAAAAAGAA
    CTGAAGATTG AAGGATTTCT GTACAGTGAC TTAACTGTAC TAGCTTCTGA TATACCATAT
    TTCCCACCAG AGGAAGAGGA AGAAAATTTG GAAGATGGAA TTCACCTGGT TGTCTGTGTC
    CATGGCCTGG ATGGGAACAG TGCAGACCTC CGGCTGGTAA AGACTTTCAT AGAACTGGGG
    CTCCCTGGAG GAAAACTGGA CTTCCTAATG TCTGAAAAGA ATCAGATGGA CACATTTGCA
    GATTTTGATA CTATGACGGA TCGGTTATTG GATGAAATCA TTCAACACAT TCAGTTGTAC
    AACCTCTCCA TATCCCGAAT TAGCTTCATT GGCCATTCTC TTGGCAACAT CATCATCCGA
    TCGGTCCTCA CACGGCCCCG GTTCCGGTAT TACCTCAACA AACTCCACAC GTTCCTGTCA
    CTCTCTGGGC CTCACCTGGG AACCCTGTAC AACAACAGCA CCCTGGTTAG TACAGGCTTA
    TGGCTCATGC AGAAACTGAA GAAATCCGGG TCTCTACTGC AGCTGACCTT CAGGGATAAT
    GCTGATTTGC GCAAATGTTT CCTCTACCAA CTAAGCCAAA AAACAGGGCT GCAGTATTTT
    AAAAACGTCG TGCTGGTTGC TTCTCCCCAA GACCGTTATG TGCCATTTCA TTCAGCCAGG
    ATTGAAATGT GTAAAACTGC CCTCAAAGAC AGACACACAG GGCCAGTTTA TGCAGAAATG
    ATCAACAACC TCCTGGGCCC TCTGGTTGAA GCCAAGGACT GCACTTTAAT CCGACACAAC
    GTGTTCCACG CCCTGCCCAA CACTGCCAAC ACCCTGATCG GCCGAGCCGC TCACATCGCT
    GTGCTGGATT CAGAACTCTT CCTGGAGAAG TTTTTCTTGG TGGCAGGACT CAACTACTTC
    AAGTAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517058.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517058.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515360.1
    CDS833..5065
    Translation

    Target ORF information:

    RefSeq Version XM_011517058.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517058.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517062.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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 :: 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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515364.1
    CDS172..4404
    Translation

    Target ORF information:

    RefSeq Version XM_011517062.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517062.1

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517060.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517060.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515362.1
    CDS960..5192
    Translation

    Target ORF information:

    RefSeq Version XM_011517060.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517060.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517063.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517063.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515365.1
    CDS815..5047
    Translation

    Target ORF information:

    RefSeq Version XM_011517063.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517063.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517059.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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 :: 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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515361.1
    CDS100..4332
    Translation

    Target ORF information:

    RefSeq Version XM_011517059.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517059.1

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517061.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517061.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515363.1
    CDS317..4549
    Translation

    Target ORF information:

    RefSeq Version XM_011517061.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517061.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67609
    Clone ID Related Accession (Same CDS sequence) XM_011517058.2 , XM_011517062.1 , XM_011517060.2 , XM_011517063.2 , XM_011517059.1 , XM_011517061.2 , XM_011517056.2
    Accession Version XM_011517056.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4233bp)
    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 protein FAM135B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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_011517056.1. ##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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    RefSeq XP_011515358.1
    CDS978..5210
    Translation

    Target ORF information:

    RefSeq Version XM_011517056.2
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517056.2

    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
    ATGTCTGAAA TACAAGGAAC GGTTGAGTTT TCGGTAGAGC TACATAAATT TTATAATGTG 
    GATCTCTTTC AGAGAGGGTA TTACCAGATC CGAGTGACCT TGAAGGTGTC TTCAAGGATC
    CCCCACAGAC TGAGTGCCTC CATCGCTGGG CAGACAGAGA GCAGCAGCCT GCATTCAGCC
    TGTGTCCATG ACAGCACCGT GCACAGCCGG GTCTTTCAGA TCTTATACCG GAATGAAGAG
    GTACCCATAA ATGATGCTGT GGTCTTCCGA GTTCATTTAC TCTTGGGTGG TGAAAGGATG
    GAAGACGCAC TGAGTGAAGT AGATTTTCAA CTCAAGGTGG ATCTGCACTT TACGGACAGT
    GAACAGCAGT TGAGGGATGT GGCTGGGGCA CCGATGGTCA GCAGCCGAAC GCTTGGCCTG
    CACTTCCACC CCCGGAATGG TCTGCACCAC CAGGTCCCGG TCATGTTCGA CTATTTCCAC
    CTGTCTGTGA TCTCGGTGAC CGTCCATGCT GCCCTGGTGG CTCTGCAGCA GCCATTGATC
    AGTTTTACTC GTCCAGGAAG AGGCTCCTGG CTTGGTAAAG GTGGCCCAGA CACCGGACAA
    GAACAGTCTA TCATTTCTCT GGAAAACTTG GTCTTTGGAG CTGGGTACTG CAAGCCGACT
    TCCTCAGAGG GAAGCTTCTA CATCACCTCT GAGAACTGCA TGCAGCACGC ACACAAGTGG
    CACCGAGACC TGTGCCTGTT GCTCCTCCAC GCTTACCGGG GTCTCCGTCT CCACTTCCTG
    GTGATCATGC GGGACATCCC AGAGCTGCCA CACACGGAGC TGGAGGCCCT TGCTGTTGAA
    GAAACACTTT CTCAGCTGTG CTCAGAGCTA CAGATGTTGA ACAATCCAGA GAAGATCGCT
    GAGCAGATAA GCAAGGATCT GGCCTGGCTC ACGTCCCACA TGATGACTCT GTGGACCCAG
    TTCCTGGACA CAGTCACTCT GCACTCCCAA GTGACCACTT ATCTCACCCA GGAACACCAC
    ACCCTGAGGG TCCGAAGGTT TTCTGAGGCC TTCTTTTACA TGGAGCACCA AAAACTTGCA
    GTCCTGACAT TTCAGGAGAA TCTGATACAG ACGCACAGCC AGCTGTCCCT GGATATCCGG
    AACTCGGAGT ACCTCACTAG CATGCCCCCG CTGCCTGCAG AGTGCCTGGA CATCGACGGC
    GATTGGAACA CCCTGCCGGT GATCTTTGAG GACAGATACG TGGACTGCCC TGCGACAGGG
    CATAACTTGA GTGTTTATCC TAATTTTGAT GTTCCAGTGA CAAGTCCTAC AATAATGAAT
    CTGAAAGACA AGGAAGATAA CTGTATGGTA AATAGCAATT TATCTTTTAG GGAAGACCTT
    GTCTTGTCTA CCATAAAACC ATCCCAAATG GATTCTGATG AAGAAGTTAT AAGGTGTCCA
    GAGCCAGGTG AGAATGTGGC CACACAAAAT CATATGGACA TGTGCTCTGA ATCTCAGGTG
    TATATATCAA TTGGTGAATT TCAAAACAAA GCAGGTGTGC CTGAAGATGA ATGTTGGACT
    GGCCAAACAT CTGATGCTGG GACATATCCA GTGGCAGATG TGGATACTTC TAGAAGGAGT
    CCAGGTCCAG AGGATGGACA GGCCCCAGTG CTGACCTACA TTGACGTAAA ATCTAGCAAT
    AAGAACCCCT CCAGAGCTGA ACCCCTGGTG GCCTTCAATG CTCAGCATGA GAGTAGGAGC
    TCTAGAGATA AGTATGGATT AGACAGGACT GGGCTAAGCA AAGTGGTAGT AGGTGGAAGC
    CACCAAAATG CCATCTCTTC AGACAAAACA ACTCTCCATG AATTAAGTAC TCTAGGAAAG
    GGAATAGATC AAGAGGGGAA GATGGTGCTG CTAAGCTTGA AACTCACCCC CTCTGAGCCC
    TGTGATCCAC TAAGTTCTAC CCTGAGGGAG CCCTTAGATA TTAGGTCTTC CCTAAAGGAC
    TCTCACACAG AAGAGCAGGA GGAACTCTCA GTGCTATCCG GGGTCATCAA GAGATCTTCA
    TCCATCATAT CTGATTCAGG CATTGAGAGT GAGCCAAGCT CCGTCGCCTG GTCAGAGGCC
    CGAAGCAGGG CTCTGGAGTT GCCCAGTGAT CGGGAAGTCT TGCACCCGTT TGTTCGAAGA
    CATGCCCTCC ACCGGAACTC CCTAGAGGGT GGACACACAG AAAGTAACAC AAGTTTGCCA
    AGCGGCATCC AGGCTTCTCT CACCTCCATT AGCTCTTTAC CTTTTGAGGA GGATGAGCGG
    GAGGTGGCAC TCACTAAGTT AACCAAGTCT GTATCTGCTC CCCACATCAG TAGCCCAGAG
    GAGGCTGCTG AAGATGCGGA CACCAAGCAG CAAGATGGAG GTTTTGCTGA ACCTTCAGAT
    ATGCACAGCA AGAGCCAAGG TTCCCCAGGA TCTTGCTCTC AACTTTGTGG TGACTCTGGA
    ACAGATGCTG GAGCAGACCA TCCCCTGGTG GAGATAGTTT TAGATGCTGA CAACCAGCAG
    GGCCCCGGAT ACATAGACAT CCCCAAAGGG AAAGGGAAGC AGTTTGATGC TCAAGGACAC
    TGTCTTCCTG ATGGCAGGAC TGAGAACACT CCAGGTGTTG AAACCAAAGG TCTTAATTTA
    AAAATACCAC GCGTCATAGC ACTTGAAAAC CCCAGGACCA GATCTCTTCA TAGAGCACTT
    GAGGAAACCC CAAAGGGCAT GCCTAAAGAC TTGAATGTGG GTCAGCAAGC TCTTTCCAAC
    AGTGGCATCT CAGAGGTTGA GGGTCTCTCT CAACATCAGG TGCCTGAATT GAGCTGTACG
    TCAGCTGCTG ATGCCATCAA CAGGAACTCA ACAGGCCAGC AAAGCCAAAG CGGTTCACCT
    TGCATTATGG ATGACACAGC ATTTAATAGA GGAGTGAATG CCTTCCCGGA GGCTAAACAT
    AAAGCAGGCA CTGTGTGCCC CACTGTGACC CATTCCGTTC ATTCCCAGGT TTTGAAAAAC
    CAAGAGCTGA AGGCAGGCAC TTCCATCATG GGGTCCCATC TGACTTCTGC AGAGACCTTT
    ACTCTGGACA GCCTGAAGGC TGTGGAGGTT GTGAACTTAT CTGTGTCTTG CACTGCCACC
    TGTCTCCCTT TCTCATCTGT GCCCAAGGAG ACCCCTGCCA GGGCTGGATT CTCTTCCAAA
    CAGACCCTGT TTCCCATCAC CCATCAGCCT TTGGGATCCT TTGGAGTTGT TTCTACCCAT
    TCCAGCACGT TGGATGAGGA AGTCAGTGAG AGGATGTTTA GTGTATTCTC CAGTTTTTAT
    CAGGCCAAAG AAAAATTTAA AAAAGAACTG AAGATTGAAG GATTTCTGTA CAGTGACTTA
    ACTGTACTAG CTTCTGATAT ACCATATTTC CCACCAGAGG AAGAGGAAGA AAATTTGGAA
    GATGGAATTC ACCTGGTTGT CTGTGTCCAT GGCCTGGATG GGAACAGTGC AGACCTCCGG
    CTGGTAAAGA CTTTCATAGA ACTGGGGCTC CCTGGAGGAA AACTGGACTT CCTAATGTCT
    GAAAAGAATC AGATGGACAC ATTTGCAGAT TTTGATACTA TGACGGATCG GTTATTGGAT
    GAAATCATTC AACACATTCA GTTGTACAAC CTCTCCATAT CCCGAATTAG CTTCATTGGC
    CATTCTCTTG GCAACATCAT CATCCGATCG GTCCTCACAC GGCCCCGGTT CCGGTATTAC
    CTCAACAAAC TCCACACGTT CCTGTCACTC TCTGGGCCTC ACCTGGGAAC CCTGTACAAC
    AACAGCACCC TGGTTAGTAC AGGCTTATGG CTCATGCAGA AACTGAAGAA ATCCGGGTCT
    CTACTGCAGC TGACCTTCAG GGATAATGCT GATTTGCGCA AATGTTTCCT CTACCAACTA
    AGCCAAAAAA CAGGGCTGCA GTATTTTAAA AACGTCGTGC TGGTTGCTTC TCCCCAAGAC
    CGTTATGTGC CATTTCATTC AGCCAGGATT GAAATGTGTA AAACTGCCCT CAAAGACAGA
    CACACAGGGC CAGTTTATGC AGAAATGATC AACAACCTCC TGGGCCCTCT GGTTGAAGCC
    AAGGACTGCA CTTTAATCCG ACACAACGTG TTCCACGCCC TGCCCAACAC TGCCAACACC
    CTGATCGGCC GAGCCGCTCA CATCGCTGTG CTGGATTCAG AACTCTTCCT GGAGAAGTTT
    TTCTTGGTGG CAGGACTCAA CTACTTCAAG TAG

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

    CloneID OHu67610
    Clone ID Related Accession (Same CDS sequence) XM_011517065.1
    Accession Version XM_011517065.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4185bp)
    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 protein FAM135B isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000008.11) 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 :: 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
    ATGTATGTTC CTCTCTACAT TTTATGCAGG TATTACCAGA TCCGAGTGAC CTTGAAGGTG 
    TCTTCAAGGA TCCCCCACAG ACTGAGTGCC TCCATCGCTG GGCAGACAGA GAGCAGCAGC
    CTGCATTCAG CCTGTGTCCA TGACAGCACC GTGCACAGCC GGGTCTTTCA GATCTTATAC
    CGGAATGAAG AGGTACCCAT AAATGATGCT GTGGTCTTCC GAGTTCATTT ACTCTTGGGT
    GGTGAAAGGA TGGAAGACGC ACTGAGTGAA GTAGATTTTC AACTCAAGGT GGATCTGCAC
    TTTACGGACA GTGAACAGCA GTTGAGGGAT GTGGCTGGGG CACCGATGGT CAGCAGCCGA
    ACGCTTGGCC TGCACTTCCA CCCCCGGAAT GGTCTGCACC ACCAGGTCCC GGTCATGTTC
    GACTATTTCC ACCTGTCTGT GATCTCGGTG ACCGTCCATG CTGCCCTGGT GGCTCTGCAG
    CAGCCATTGA TCAGTTTTAC TCGTCCAGGA AGAGGCTCCT GGCTTGGTAA AGGTGGCCCA
    GACACCGGAC AAGAACAGTC TATCATTTCT CTGGAAAACT TGGTCTTTGG AGCTGGGTAC
    TGCAAGCCGA CTTCCTCAGA GGGAAGCTTC TACATCACCT CTGAGAACTG CATGCAGCAC
    GCACACAAGT GGCACCGAGA CCTGTGCCTG TTGCTCCTCC ACGCTTACCG GGGTCTCCGT
    CTCCACTTCC TGGTGATCAT GCGGGACATC CCAGAGCTGC CACACACGGA GCTGGAGGCC
    CTTGCTGTTG AAGAAACACT TTCTCAGCTG TGCTCAGAGC TACAGATGTT GAACAATCCA
    GAGAAGATCG CTGAGCAGAT AAGCAAGGAT CTGGCCTGGC TCACGTCCCA CATGATGACT
    CTGTGGACCC AGTTCCTGGA CACAGTCACT CTGCACTCCC AAGTGACCAC TTATCTCACC
    CAGGAACACC ACACCCTGAG GGTCCGAAGG TTTTCTGAGG CCTTCTTTTA CATGGAGCAC
    CAAAAACTTG CAGTCCTGAC ATTTCAGGAG AATCTGATAC AGACGCACAG CCAGCTGTCC
    CTGGATATCC GGAACTCGGA GTACCTCACT AGCATGCCCC CGCTGCCTGC AGAGTGCCTG
    GACATCGACG GCGATTGGAA CACCCTGCCG GTGATCTTTG AGGACAGATA CGTGGACTGC
    CCTGCGACAG GGCATAACTT GAGTGTTTAT CCTAATTTTG ATGTTCCAGT GACAAGTCCT
    ACAATAATGA ATCTGAAAGA CAAGGAAGAT AACTGTATGG TAAATAGCAA TTTATCTTTT
    AGGGAAGACC TTGTCTTGTC TACCATAAAA CCATCCCAAA TGGATTCTGA TGAAGAAGTT
    ATAAGGTGTC CAGAGCCAGG TGAGAATGTG GCCACACAAA ATCATATGGA CATGTGCTCT
    GAATCTCAGG TGTATATATC AATTGGTGAA TTTCAAAACA AAGCAGGTGT GCCTGAAGAT
    GAATGTTGGA CTGGCCAAAC ATCTGATGCT GGGACATATC CAGTGGCAGA TGTGGATACT
    TCTAGAAGGA GTCCAGGTCC AGAGGATGGA CAGGCCCCAG TGCTGACCTA CATTGACGTA
    AAATCTAGCA ATAAGAACCC CTCCAGAGCT GAACCCCTGG TGGCCTTCAA TGCTCAGCAT
    GAGAGTAGGA GCTCTAGAGA TAAGTATGGA TTAGACAGGA CTGGGCTAAG CAAAGTGGTA
    GTAGGTGGAA GCCACCAAAA TGCCATCTCT TCAGACAAAA CAACTCTCCA TGAATTAAGT
    ACTCTAGGAA AGGGAATAGA TCAAGAGGGG AAGATGGTGC TGCTAAGCTT GAAACTCACC
    CCCTCTGAGC CCTGTGATCC ACTAAGTTCT ACCCTGAGGG AGCCCTTAGA TATTAGGTCT
    TCCCTAAAGG ACTCTCACAC AGAAGAGCAG GAGGAACTCT CAGTGCTATC CGGGGTCATC
    AAGAGATCTT CATCCATCAT ATCTGATTCA GGCATTGAGA GTGAGCCAAG CTCCGTCGCC
    TGGTCAGAGG CCCGAAGCAG GGCTCTGGAG TTGCCCAGTG ATCGGGAAGT CTTGCACCCG
    TTTGTTCGAA GACATGCCCT CCACCGGAAC TCCCTAGAGG GTGGACACAC AGAAAGTAAC
    ACAAGTTTGC CAAGCGGCAT CCAGGCTTCT CTCACCTCCA TTAGCTCTTT ACCTTTTGAG
    GAGGATGAGC GGGAGGTGGC ACTCACTAAG TTAACCAAGT CTGTATCTGC TCCCCACATC
    AGTAGCCCAG AGGAGGCTGC TGAAGATGCG GACACCAAGC AGCAAGATGG AGGTTTTGCT
    GAACCTTCAG ATATGCACAG CAAGAGCCAA GGTTCCCCAG GATCTTGCTC TCAACTTTGT
    GGTGACTCTG GAACAGATGC TGGAGCAGAC CATCCCCTGG TGGAGATAGT TTTAGATGCT
    GACAACCAGC AGGGCCCCGG ATACATAGAC ATCCCCAAAG GGAAAGGGAA GCAGTTTGAT
    GCTCAAGGAC ACTGTCTTCC TGATGGCAGG ACTGAGAACA CTCCAGGTGT TGAAACCAAA
    GGTCTTAATT TAAAAATACC ACGCGTCATA GCACTTGAAA ACCCCAGGAC CAGATCTCTT
    CATAGAGCAC TTGAGGAAAC CCCAAAGGGC ATGCCTAAAG ACTTGAATGT GGGTCAGCAA
    GCTCTTTCCA ACAGTGGCAT CTCAGAGGTT GAGGGTCTCT CTCAACATCA GGTGCCTGAA
    TTGAGCTGTA CGTCAGCTGC TGATGCCATC AACAGGAACT CAACAGGCCA GCAAAGCCAA
    AGCGGTTCAC CTTGCATTAT GGATGACACA GCATTTAATA GAGGAGTGAA TGCCTTCCCG
    GAGGCTAAAC ATAAAGCAGG CACTGTGTGC CCCACTGTGA CCCATTCCGT TCATTCCCAG
    GTTTTGAAAA ACCAAGAGCT GAAGGCAGGC ACTTCCATCA TGGGGTCCCA TCTGACTTCT
    GCAGAGACCT TTACTCTGGA CAGCCTGAAG GCTGTGGAGG TTGTGAACTT ATCTGTGTCT
    TGCACTGCCA CCTGTCTCCC TTTCTCATCT GTGCCCAAGG AGACCCCTGC CAGGGCTGGA
    TTCTCTTCCA AACAGACCCT GTTTCCCATC ACCCATCAGC CTTTGGGATC CTTTGGAGTT
    GTTTCTACCC ATTCCAGCAC GTTGGATGAG GAAGTCAGTG AGAGGATGTT TAGTGTATTC
    TCCAGTTTTT ATCAGGCCAA AGAAAAATTT AAAAAAGAAC TGAAGATTGA AGGATTTCTG
    TACAGTGACT TAACTGTACT AGCTTCTGAT ATACCATATT TCCCACCAGA GGAAGAGGAA
    GAAAATTTGG AAGATGGAAT TCACCTGGTT GTCTGTGTCC ATGGCCTGGA TGGGAACAGT
    GCAGACCTCC GGCTGGTAAA GACTTTCATA GAACTGGGGC TCCCTGGAGG AAAACTGGAC
    TTCCTAATGT CTGAAAAGAA TCAGATGGAC ACATTTGCAG ATTTTGATAC TATGACGGAT
    CGGTTATTGG ATGAAATCAT TCAACACATT CAGTTGTACA ACCTCTCCAT ATCCCGAATT
    AGCTTCATTG GCCATTCTCT TGGCAACATC ATCATCCGAT CGGTCCTCAC ACGGCCCCGG
    TTCCGGTATT ACCTCAACAA ACTCCACACG TTCCTGTCAC TCTCTGGGCC TCACCTGGGA
    ACCCTGTACA ACAACAGCAC CCTGGTTAGT ACAGGCTTAT GGCTCATGCA GAAACTGAAG
    AAATCCGGGT CTCTACTGCA GCTGACCTTC AGGGATAATG CTGATTTGCG CAAATGTTTC
    CTCTACCAAC TAAGCCAAAA AACAGGGCTG CAGTATTTTA AAAACGTCGT GCTGGTTGCT
    TCTCCCCAAG ACCGTTATGT GCCATTTCAT TCAGCCAGGA TTGAAATGTG TAAAACTGCC
    CTCAAAGACA GACACACAGG GCCAGTTTAT GCAGAAATGA TCAACAACCT CCTGGGCCCT
    CTGGTTGAAG CCAAGGACTG CACTTTAATC CGACACAACG TGTTCCACGC CCTGCCCAAC
    ACTGCCAACA CCCTGATCGG CCGAGCCGCT CACATCGCTG TGCTGGATTC AGAACTCTTC
    CTGGAGAAGT TTTTCTTGGT GGCAGGACTC AACTACTTCA AGTAG

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

    RefSeq XP_011515367.1
    CDS284..4468
    Translation

    Target ORF information:

    RefSeq Version XM_011517065.1
    Organism Homo sapiens(human)
    Definition Homo sapiens family with sequence similarity 135 member B (FAM135B), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011517065.1

    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
    ATGTATGTTC CTCTCTACAT TTTATGCAGG TATTACCAGA TCCGAGTGAC CTTGAAGGTG 
    TCTTCAAGGA TCCCCCACAG ACTGAGTGCC TCCATCGCTG GGCAGACAGA GAGCAGCAGC
    CTGCATTCAG CCTGTGTCCA TGACAGCACC GTGCACAGCC GGGTCTTTCA GATCTTATAC
    CGGAATGAAG AGGTACCCAT AAATGATGCT GTGGTCTTCC GAGTTCATTT ACTCTTGGGT
    GGTGAAAGGA TGGAAGACGC ACTGAGTGAA GTAGATTTTC AACTCAAGGT GGATCTGCAC
    TTTACGGACA GTGAACAGCA GTTGAGGGAT GTGGCTGGGG CACCGATGGT CAGCAGCCGA
    ACGCTTGGCC TGCACTTCCA CCCCCGGAAT GGTCTGCACC ACCAGGTCCC GGTCATGTTC
    GACTATTTCC ACCTGTCTGT GATCTCGGTG ACCGTCCATG CTGCCCTGGT GGCTCTGCAG
    CAGCCATTGA TCAGTTTTAC TCGTCCAGGA AGAGGCTCCT GGCTTGGTAA AGGTGGCCCA
    GACACCGGAC AAGAACAGTC TATCATTTCT CTGGAAAACT TGGTCTTTGG AGCTGGGTAC
    TGCAAGCCGA CTTCCTCAGA GGGAAGCTTC TACATCACCT CTGAGAACTG CATGCAGCAC
    GCACACAAGT GGCACCGAGA CCTGTGCCTG TTGCTCCTCC ACGCTTACCG GGGTCTCCGT
    CTCCACTTCC TGGTGATCAT GCGGGACATC CCAGAGCTGC CACACACGGA GCTGGAGGCC
    CTTGCTGTTG AAGAAACACT TTCTCAGCTG TGCTCAGAGC TACAGATGTT GAACAATCCA
    GAGAAGATCG CTGAGCAGAT AAGCAAGGAT CTGGCCTGGC TCACGTCCCA CATGATGACT
    CTGTGGACCC AGTTCCTGGA CACAGTCACT CTGCACTCCC AAGTGACCAC TTATCTCACC
    CAGGAACACC ACACCCTGAG GGTCCGAAGG TTTTCTGAGG CCTTCTTTTA CATGGAGCAC
    CAAAAACTTG CAGTCCTGAC ATTTCAGGAG AATCTGATAC AGACGCACAG CCAGCTGTCC
    CTGGATATCC GGAACTCGGA GTACCTCACT AGCATGCCCC CGCTGCCTGC AGAGTGCCTG
    GACATCGACG GCGATTGGAA CACCCTGCCG GTGATCTTTG AGGACAGATA CGTGGACTGC
    CCTGCGACAG GGCATAACTT GAGTGTTTAT CCTAATTTTG ATGTTCCAGT GACAAGTCCT
    ACAATAATGA ATCTGAAAGA CAAGGAAGAT AACTGTATGG TAAATAGCAA TTTATCTTTT
    AGGGAAGACC TTGTCTTGTC TACCATAAAA CCATCCCAAA TGGATTCTGA TGAAGAAGTT
    ATAAGGTGTC CAGAGCCAGG TGAGAATGTG GCCACACAAA ATCATATGGA CATGTGCTCT
    GAATCTCAGG TGTATATATC AATTGGTGAA TTTCAAAACA AAGCAGGTGT GCCTGAAGAT
    GAATGTTGGA CTGGCCAAAC ATCTGATGCT GGGACATATC CAGTGGCAGA TGTGGATACT
    TCTAGAAGGA GTCCAGGTCC AGAGGATGGA CAGGCCCCAG TGCTGACCTA CATTGACGTA
    AAATCTAGCA ATAAGAACCC CTCCAGAGCT GAACCCCTGG TGGCCTTCAA TGCTCAGCAT
    GAGAGTAGGA GCTCTAGAGA TAAGTATGGA TTAGACAGGA CTGGGCTAAG CAAAGTGGTA
    GTAGGTGGAA GCCACCAAAA TGCCATCTCT TCAGACAAAA CAACTCTCCA TGAATTAAGT
    ACTCTAGGAA AGGGAATAGA TCAAGAGGGG AAGATGGTGC TGCTAAGCTT GAAACTCACC
    CCCTCTGAGC CCTGTGATCC ACTAAGTTCT ACCCTGAGGG AGCCCTTAGA TATTAGGTCT
    TCCCTAAAGG ACTCTCACAC AGAAGAGCAG GAGGAACTCT CAGTGCTATC CGGGGTCATC
    AAGAGATCTT CATCCATCAT ATCTGATTCA GGCATTGAGA GTGAGCCAAG CTCCGTCGCC
    TGGTCAGAGG CCCGAAGCAG GGCTCTGGAG TTGCCCAGTG ATCGGGAAGT CTTGCACCCG
    TTTGTTCGAA GACATGCCCT CCACCGGAAC TCCCTAGAGG GTGGACACAC AGAAAGTAAC
    ACAAGTTTGC CAAGCGGCAT CCAGGCTTCT CTCACCTCCA TTAGCTCTTT ACCTTTTGAG
    GAGGATGAGC GGGAGGTGGC ACTCACTAAG TTAACCAAGT CTGTATCTGC TCCCCACATC
    AGTAGCCCAG AGGAGGCTGC TGAAGATGCG GACACCAAGC AGCAAGATGG AGGTTTTGCT
    GAACCTTCAG ATATGCACAG CAAGAGCCAA GGTTCCCCAG GATCTTGCTC TCAACTTTGT
    GGTGACTCTG GAACAGATGC TGGAGCAGAC CATCCCCTGG TGGAGATAGT TTTAGATGCT
    GACAACCAGC AGGGCCCCGG ATACATAGAC ATCCCCAAAG GGAAAGGGAA GCAGTTTGAT
    GCTCAAGGAC ACTGTCTTCC TGATGGCAGG ACTGAGAACA CTCCAGGTGT TGAAACCAAA
    GGTCTTAATT TAAAAATACC ACGCGTCATA GCACTTGAAA ACCCCAGGAC CAGATCTCTT
    CATAGAGCAC TTGAGGAAAC CCCAAAGGGC ATGCCTAAAG ACTTGAATGT GGGTCAGCAA
    GCTCTTTCCA ACAGTGGCAT CTCAGAGGTT GAGGGTCTCT CTCAACATCA GGTGCCTGAA
    TTGAGCTGTA CGTCAGCTGC TGATGCCATC AACAGGAACT CAACAGGCCA GCAAAGCCAA
    AGCGGTTCAC CTTGCATTAT GGATGACACA GCATTTAATA GAGGAGTGAA TGCCTTCCCG
    GAGGCTAAAC ATAAAGCAGG CACTGTGTGC CCCACTGTGA CCCATTCCGT TCATTCCCAG
    GTTTTGAAAA ACCAAGAGCT GAAGGCAGGC ACTTCCATCA TGGGGTCCCA TCTGACTTCT
    GCAGAGACCT TTACTCTGGA CAGCCTGAAG GCTGTGGAGG TTGTGAACTT ATCTGTGTCT
    TGCACTGCCA CCTGTCTCCC TTTCTCATCT GTGCCCAAGG AGACCCCTGC CAGGGCTGGA
    TTCTCTTCCA AACAGACCCT GTTTCCCATC ACCCATCAGC CTTTGGGATC CTTTGGAGTT
    GTTTCTACCC ATTCCAGCAC GTTGGATGAG GAAGTCAGTG AGAGGATGTT TAGTGTATTC
    TCCAGTTTTT ATCAGGCCAA AGAAAAATTT AAAAAAGAAC TGAAGATTGA AGGATTTCTG
    TACAGTGACT TAACTGTACT AGCTTCTGAT ATACCATATT TCCCACCAGA GGAAGAGGAA
    GAAAATTTGG AAGATGGAAT TCACCTGGTT GTCTGTGTCC ATGGCCTGGA TGGGAACAGT
    GCAGACCTCC GGCTGGTAAA GACTTTCATA GAACTGGGGC TCCCTGGAGG AAAACTGGAC
    TTCCTAATGT CTGAAAAGAA TCAGATGGAC ACATTTGCAG ATTTTGATAC TATGACGGAT
    CGGTTATTGG ATGAAATCAT TCAACACATT CAGTTGTACA ACCTCTCCAT ATCCCGAATT
    AGCTTCATTG GCCATTCTCT TGGCAACATC ATCATCCGAT CGGTCCTCAC ACGGCCCCGG
    TTCCGGTATT ACCTCAACAA ACTCCACACG TTCCTGTCAC TCTCTGGGCC TCACCTGGGA
    ACCCTGTACA ACAACAGCAC CCTGGTTAGT ACAGGCTTAT GGCTCATGCA GAAACTGAAG
    AAATCCGGGT CTCTACTGCA GCTGACCTTC AGGGATAATG CTGATTTGCG CAAATGTTTC
    CTCTACCAAC TAAGCCAAAA AACAGGGCTG CAGTATTTTA AAAACGTCGT GCTGGTTGCT
    TCTCCCCAAG ACCGTTATGT GCCATTTCAT TCAGCCAGGA TTGAAATGTG TAAAACTGCC
    CTCAAAGACA GACACACAGG GCCAGTTTAT GCAGAAATGA TCAACAACCT CCTGGGCCCT
    CTGGTTGAAG CCAAGGACTG CACTTTAATC CGACACAACG TGTTCCACGC CCTGCCCAAC
    ACTGCCAACA CCCTGATCGG CCGAGCCGCT CACATCGCTG TGCTGGATTC AGAACTCTTC
    CTGGAGAAGT TTTTCTTGGT GGCAGGACTC AACTACTTCA AGTAG

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