setd1b cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following setd1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the setd1b 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
OXa41876 XM_018094579.1
Latest version!
Xenopus tropicalis SET domain containing 1B (setd1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa48057 XM_018094579.2
Latest version!
Xenopus tropicalis SET domain containing 1B (setd1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa00075 NM_001079181.1
Latest version!
Xenopus tropicalis SET domain containing 1B (setd1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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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 OXa41876
    Clone ID Related Accession (Same CDS sequence) XM_018094579.1
    Accession Version XM_018094579.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5868bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase SETD1B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGCAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGTCCTTAAC ACCTGTGAAA TCTGGGGAGA GCAAAGAAGA AGATAAACAA
    AAGACAAAGG AGCATATAAC TTCCAGCCTC TTGGAAAGCT GGAACAAAGG GGAAGGATTA
    GGTTTTGAGG GCATTGGACT GGGCATTGGT CTGCGTGGTG CAATCCGACT TCCCTCTTTC
    AAGGTAAAGC GGAAAGAACC TCCTGACGCG GCACTGGCTG GAGATCAGAA GAGGATTCGC
    CCATCTCATT CAGTAGATGA TGAGGATGAA GAGTCTGAAA GAGATCGAGA TATCTCTAGT
    ACAGCATCTG ACTTATCAAA GAAAGATGCA GATGCAGTAA ACAACCGAAG AAGGCCAGCA
    AGACCCTTGG ATAGTGAAGG GGAAGAAGAG GTTGAAAGTG AAGGGGATGA TGGGGAGACG
    TCAGATAAAG AAGACTCCTC TTCTGAGAAA GAGGACCAAG ATGATGGTTC TGTGTCAGCT
    TTGTCCAGTA AAAAACAGCT GTATGGGGAT AAAGAGGGTG ATGACGAAGA TGATGATACA
    CAAAGCAGTG GGAAAGAAGA GGATCTTGTT TCAGAAGAAG AAGATACCAC CAGTGTAGCT
    TCCTCTAGAG CCGAGATGGA TTCTTCTGAT GAAAGTGAGG AATCTTCAGA GTATGAGTCA
    AGCTCGGATT CAGATGAAAA AGAGGAGGAA GATGATGAAG AAGAAGAACT AGTCTTTGGG
    GACGATCAAT CTGAAGATCA AGATTTAGGA CAGGAATATG AAGTTGAAAC TGATAGGGAA
    GAAGATTTCT TCAGAGAGAA TTTGTCTGAA TGTAGTAGTC TACCAAAGGC AGGAGATGTG
    GAATTAGAAG ATGAAATGCA AAAAGTAGAG GAAGATGTTG CACGGCAAAC AACACAAGAG
    ACATTACATC TGAGAAAGAA AAATCTGGAT GTACCACTGG TGGAGTCTAA AGAATGCAAA
    CAGGATACCT TAGATAAAGT GGAGAAGCTC TTTGCAGTAC CCATGCAAGA GGAAGTTTTT
    AAGGAGCATG AAAAAGCACC ATCACCAATG AATGAAGAGG AAGAGTATAT AGAGCTTCAA
    TTAGAACCTG TGCCTTTGGT TCCAGAAGGT GCAGCTCCAG CTGCACAAGA GCCTGTGATC
    ATCCGTCCCT TAACACCAAC TGGTGCTTTT GGTGAGACTG GTCCTGTTCT CAAGCTTGAA
    GAACCCAAAC TGCAAGTTAA TTTAACTCAG TTTGCCACAG AAGATGAAGA ACTGTACCCT
    CGCACACCTG GCCGGGACAC GGCTGCTCAT TCAGATACAG AGGTCACTTT TCAGCCTGGT
    TTGAAAGTAG CCCCATCCAG CCTACCTTTT TTGCCAAGCC ACAATAAGGA AGAGGAGTGT
    CTGCTTCCAC CTGAAAAGCA TGCCGGTCAT TTAACGGTGA CTAAGATGCT GTCGGAGGAA
    GATCTGCCCC GTACCCCAGG CAGAGATATT GTGGTTAAGT CCTCCCACCT TGGGAAGTCT
    CAGAGTACTG AGACAGTTCC TGCTACGCCT GGTAGTGATG CTCCCCTCAC AGGTAGCAGC
    CTTACACTGA CTTCCCCACA CATACCTGGC AGTCCTTTTT CGTATCTCTC ACAGTCACCA
    GGAATAATTA ACAGTGGTAT TCCACGGACA CCTGGAAGAG ATTTTAACTT CACTCCAACC
    TTTCCAGAAT CAAATTCAAT ATTCCCTTGC CACCCTTCTG GCAAGAAACC CTCTGTGGAT
    GAACCAGATG AAAAGTCATT CAAAGAACCA ACCAGTGCTT CCTTAACAAT GAACAGTGTT
    CCTTCACCCA TCCCATTTGC TAGCCCGCCT AGAGGGCTTC CTCACATGGA CATAAGGTTA
    GGGGCAGATG ATCTGGAATC ATCTGATACT CCAGCATACC TTTCCGATAA ATTATTAAGT
    GAGGAGAGTG AATGTGAATT TACTAAAGTG CACCTGACTT CCACTGATGA ATCTGCACCA
    TCACCACCTC TCCCTCCTGC AGAGAAGAGG AAAGGAGACA GATCCAAAAA ACCTCTTTCT
    GCTCATGAAT TCGAGACTGA GAAAAACTAT GAAACTTCTT CTGCTGTTGC CATGTCAGAA
    GGTGCTTTGG GTAAACAGAT GTTTATTGGA CAACCTGATG CAGTCAGTGG TATTAAAGAT
    CCAGCAGCTG TACCGCTAGA CTTTAGGAAT GATAGCCTCT CTGAAAACAC AGTTCACGAG
    CCCATTATTC AAAAAGTCCC TTTAAAAGAG CTGGAAAATC AGTGGAATGA AGTTTTAAAA
    GAGGAGGAGG ATATAACTAA ACATAAAAAA TCAAGGAACT CCAGGCATAA CAATAGATAT
    GATGAGTTTT CAACTGTACC TTCTCCCGAA TTTTCCCCAC CCCGAGCTAT GTTTAAACCT
    CGCTCTGAAT TTGAGGAGAT GACCATTCTT TATGATATAT GGAATGGAGG AATAGATGAT
    GAAGATATCA AATACATGTG CATTACATAT GATAGACTGT TACAGCAAGA TAATGGCATG
    GACTGGCTCA ATGACACATT ATGGGTCTAC CACCCTTCAA CCAGTGTTTA TTCCCCCAAG
    AAGAAGAAGC GAGATGATGG TTTACGGGAG CATGTAACAG GATGTGCTCG TAGCGAGGGA
    TATTATAAAA TTGATAAGAA AGACAAACTT AAATACCTCA TCAACAACCG TTCTTTGACT
    GAAGAACTTC CCATCGATAC CCAGGGAAAG AGTATCCCAG CTCAGCCTCA AGCCTCCACC
    CGAGCGGGCT CGGAAAGAAG GTCAGAACAG CGCAGACTGC TCTCTTCCTT CACTGGAAGC
    TGTGACAGCG ACTTGCTCAA ATTCAATCAG CTGAAGTTCC GAAAGAAGAA GTTGCGTTTC
    TGCAAGAGCC ATATTCACGA CTGGGGTCTT TTTGCCATGG AACCAATTAT AGCTGATGAG
    ATGGTTATTG AGTATGTGGG ACAAAATATT AGACAGGTAA TTGCCGATAT GCGGGAGAAG
    CGATATGAGG ATGAAGGAAT CGGCAGCAGT TACATGTTTA GGGTGGACCA CGACACCATC
    ATTGATGCGA CTAAGTGTGG GAATTTTGCA CGATTTATTA ACCACAGCTG TAATCCTAAT
    TGCTATGCAA AGGTTATTAC TGTGGAGTCT CAGAAGAAGA TTGTGATCTA CTCCAAACAG
    TATATCAATG TGAATGAAGA GATAACATAC GATTACAAGT TTCCTATAGA AGACGTGAAG
    ATCCCTTGTC TTTGTGGAGC AGAGAACTGC AGAGGGACGC TAAATTAG

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

    RefSeq XP_017950068.1
    CDS257..6124
    Translation

    Target ORF information:

    RefSeq Version XM_018094579.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SET domain containing 1B (setd1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018094579.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGCAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGTCCTTAAC ACCTGTGAAA TCTGGGGAGA GCAAAGAAGA AGATAAACAA
    AAGACAAAGG AGCATATAAC TTCCAGCCTC TTGGAAAGCT GGAACAAAGG GGAAGGATTA
    GGTTTTGAGG GCATTGGACT GGGCATTGGT CTGCGTGGTG CAATCCGACT TCCCTCTTTC
    AAGGTAAAGC GGAAAGAACC TCCTGACGCG GCACTGGCTG GAGATCAGAA GAGGATTCGC
    CCATCTCATT CAGTAGATGA TGAGGATGAA GAGTCTGAAA GAGATCGAGA TATCTCTAGT
    ACAGCATCTG ACTTATCAAA GAAAGATGCA GATGCAGTAA ACAACCGAAG AAGGCCAGCA
    AGACCCTTGG ATAGTGAAGG GGAAGAAGAG GTTGAAAGTG AAGGGGATGA TGGGGAGACG
    TCAGATAAAG AAGACTCCTC TTCTGAGAAA GAGGACCAAG ATGATGGTTC TGTGTCAGCT
    TTGTCCAGTA AAAAACAGCT GTATGGGGAT AAAGAGGGTG ATGACGAAGA TGATGATACA
    CAAAGCAGTG GGAAAGAAGA GGATCTTGTT TCAGAAGAAG AAGATACCAC CAGTGTAGCT
    TCCTCTAGAG CCGAGATGGA TTCTTCTGAT GAAAGTGAGG AATCTTCAGA GTATGAGTCA
    AGCTCGGATT CAGATGAAAA AGAGGAGGAA GATGATGAAG AAGAAGAACT AGTCTTTGGG
    GACGATCAAT CTGAAGATCA AGATTTAGGA CAGGAATATG AAGTTGAAAC TGATAGGGAA
    GAAGATTTCT TCAGAGAGAA TTTGTCTGAA TGTAGTAGTC TACCAAAGGC AGGAGATGTG
    GAATTAGAAG ATGAAATGCA AAAAGTAGAG GAAGATGTTG CACGGCAAAC AACACAAGAG
    ACATTACATC TGAGAAAGAA AAATCTGGAT GTACCACTGG TGGAGTCTAA AGAATGCAAA
    CAGGATACCT TAGATAAAGT GGAGAAGCTC TTTGCAGTAC CCATGCAAGA GGAAGTTTTT
    AAGGAGCATG AAAAAGCACC ATCACCAATG AATGAAGAGG AAGAGTATAT AGAGCTTCAA
    TTAGAACCTG TGCCTTTGGT TCCAGAAGGT GCAGCTCCAG CTGCACAAGA GCCTGTGATC
    ATCCGTCCCT TAACACCAAC TGGTGCTTTT GGTGAGACTG GTCCTGTTCT CAAGCTTGAA
    GAACCCAAAC TGCAAGTTAA TTTAACTCAG TTTGCCACAG AAGATGAAGA ACTGTACCCT
    CGCACACCTG GCCGGGACAC GGCTGCTCAT TCAGATACAG AGGTCACTTT TCAGCCTGGT
    TTGAAAGTAG CCCCATCCAG CCTACCTTTT TTGCCAAGCC ACAATAAGGA AGAGGAGTGT
    CTGCTTCCAC CTGAAAAGCA TGCCGGTCAT TTAACGGTGA CTAAGATGCT GTCGGAGGAA
    GATCTGCCCC GTACCCCAGG CAGAGATATT GTGGTTAAGT CCTCCCACCT TGGGAAGTCT
    CAGAGTACTG AGACAGTTCC TGCTACGCCT GGTAGTGATG CTCCCCTCAC AGGTAGCAGC
    CTTACACTGA CTTCCCCACA CATACCTGGC AGTCCTTTTT CGTATCTCTC ACAGTCACCA
    GGAATAATTA ACAGTGGTAT TCCACGGACA CCTGGAAGAG ATTTTAACTT CACTCCAACC
    TTTCCAGAAT CAAATTCAAT ATTCCCTTGC CACCCTTCTG GCAAGAAACC CTCTGTGGAT
    GAACCAGATG AAAAGTCATT CAAAGAACCA ACCAGTGCTT CCTTAACAAT GAACAGTGTT
    CCTTCACCCA TCCCATTTGC TAGCCCGCCT AGAGGGCTTC CTCACATGGA CATAAGGTTA
    GGGGCAGATG ATCTGGAATC ATCTGATACT CCAGCATACC TTTCCGATAA ATTATTAAGT
    GAGGAGAGTG AATGTGAATT TACTAAAGTG CACCTGACTT CCACTGATGA ATCTGCACCA
    TCACCACCTC TCCCTCCTGC AGAGAAGAGG AAAGGAGACA GATCCAAAAA ACCTCTTTCT
    GCTCATGAAT TCGAGACTGA GAAAAACTAT GAAACTTCTT CTGCTGTTGC CATGTCAGAA
    GGTGCTTTGG GTAAACAGAT GTTTATTGGA CAACCTGATG CAGTCAGTGG TATTAAAGAT
    CCAGCAGCTG TACCGCTAGA CTTTAGGAAT GATAGCCTCT CTGAAAACAC AGTTCACGAG
    CCCATTATTC AAAAAGTCCC TTTAAAAGAG CTGGAAAATC AGTGGAATGA AGTTTTAAAA
    GAGGAGGAGG ATATAACTAA ACATAAAAAA TCAAGGAACT CCAGGCATAA CAATAGATAT
    GATGAGTTTT CAACTGTACC TTCTCCCGAA TTTTCCCCAC CCCGAGCTAT GTTTAAACCT
    CGCTCTGAAT TTGAGGAGAT GACCATTCTT TATGATATAT GGAATGGAGG AATAGATGAT
    GAAGATATCA AATACATGTG CATTACATAT GATAGACTGT TACAGCAAGA TAATGGCATG
    GACTGGCTCA ATGACACATT ATGGGTCTAC CACCCTTCAA CCAGTGTTTA TTCCCCCAAG
    AAGAAGAAGC GAGATGATGG TTTACGGGAG CATGTAACAG GATGTGCTCG TAGCGAGGGA
    TATTATAAAA TTGATAAGAA AGACAAACTT AAATACCTCA TCAACAACCG TTCTTTGACT
    GAAGAACTTC CCATCGATAC CCAGGGAAAG AGTATCCCAG CTCAGCCTCA AGCCTCCACC
    CGAGCGGGCT CGGAAAGAAG GTCAGAACAG CGCAGACTGC TCTCTTCCTT CACTGGAAGC
    TGTGACAGCG ACTTGCTCAA ATTCAATCAG CTGAAGTTCC GAAAGAAGAA GTTGCGTTTC
    TGCAAGAGCC ATATTCACGA CTGGGGTCTT TTTGCCATGG AACCAATTAT AGCTGATGAG
    ATGGTTATTG AGTATGTGGG ACAAAATATT AGACAGGTAA TTGCCGATAT GCGGGAGAAG
    CGATATGAGG ATGAAGGAAT CGGCAGCAGT TACATGTTTA GGGTGGACCA CGACACCATC
    ATTGATGCGA CTAAGTGTGG GAATTTTGCA CGATTTATTA ACCACAGCTG TAATCCTAAT
    TGCTATGCAA AGGTTATTAC TGTGGAGTCT CAGAAGAAGA TTGTGATCTA CTCCAAACAG
    TATATCAATG TGAATGAAGA GATAACATAC GATTACAAGT TTCCTATAGA AGACGTGAAG
    ATCCCTTGTC TTTGTGGAGC AGAGAACTGC AGAGGGACGC TAAATTAG

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

    CloneID OXa48057
    Clone ID Related Accession (Same CDS sequence) XM_018094579.2
    Accession Version XM_018094579.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5868bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase SETD1B isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018094579.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGTAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGTCCTTAAC ACCTGTGAAA TCTGGGGAGA GCAAAGAAGA AGATAAACAA
    AAGACAAAGG AGCATATAAC TTCCAGCCTC TTGGAAAGCT GGAACAAAGG GGAAGGATTA
    GGTTTTGAGG GCATTGGACT GGGCATTGGT CTGCGTGGTG CAATCCGACT TCCCTCTTTC
    AAGGTAAAGC GGAAAGAACC TCCTGACGCG GCACTGGCTG GAGATCAGAA GAGGATTCGC
    CCATCTCATT CAGTAGATGA TGAGGATGAA GAGTCTGAAA GAGATCGAGA TATCTCTAGT
    ACAGCATCTG ACTTATCAAA GAAAGATGCA GATGCAGTAA ACAACCGAAG AAGGCCAGCA
    AGACCCTTGG ATAGTGAAGG GGAAGAAGAG GTTGAAAGTG AAGGGGATGA TGGGGAGACG
    TCAGATAAAG AAGACTCCTC TTCTGAGAAA GAGGACCAAG ATGATGGTTC TGTGTCAGCT
    TTGTCCAGTA AAAAACAGCT GTATGGGGAT AAAGAGGGTG ATGACGAAGA TGATGATACA
    CAAAGCAGTG GGAAAGAAGA GGATCTTGTT TCAGAAGAAG AAGATACCAC CAGTGTAGCT
    TCCTCTAGAG CCGAGATGGA TTCTTCTGAT GAAAGTGAGG AATCTTCAGA GTATGAGTCA
    AGCTCGGATT CAGATGAAAA AGAGGAGGAA GATGATGAAG AAGAAGAACT AGTCTTTGGG
    GACGATCAAT CTGAAGATCA AGATTTAGGA CAGGAATATG AAGTTGAAAC TGATAGGGAA
    GAAGATTTCT TCAGAGAGAA TTTGTCTGAA TGTAGTAGTC TACCAAAGGC AGGAGATGTG
    GAATTAGAAG ATGAAATGCA AAAAGTAGAG GAAGATGTTG CACGGCAAAC AACACAAGAG
    ACATTACATC TGAGAAAGAA AAATCTGGAT GTACCACTGG TGGAGTCTAA AGAATGCAAA
    CAGGATACCT TAGATAAAGT GGAGAAGCTC TTTGCAGTAC CCATGCAAGA GGAAGTTTTT
    AAGGAGCATG AAAAAGCACC ATCACCAATG AATGAAGAGG AAGAGTATAT AGAGCTTCAA
    TTAGAACCTG TGCCTTTGGT TCCAGAAGGT GCAGCTCCAG CTGCACAAGA GCCTGTGATC
    ATCCGTCCCT TAACACCAAC TGGTGCTTTT GGTGAGACTG GTCCTGTTCT CAAGCTTGAA
    GAACCCAAAC TGCAAGTTAA TTTAACTCAG TTTGCCACAG AAGATGAAGA ACTGTACCCT
    CGCACACCTG GCCGGGACAC GGCTGCTCAT TCAGATACAG AGGTCACTTT TCAGCCTGGT
    TTGAAAGTAG CCCCATCCAG CCTACCTTTT TTGCCAAGCC ACAATAAGGA AGAGGAGTGT
    CTGCTTCCAC CTGAAAAGCA TGCCGGTCAT TTAACGGTGA CTAAGATGCT GTCGGAGGAA
    GATCTGCCCC GTACCCCAGG CAGAGATATT GTGGTTAAGT CCTCCCACCT TGGGAAGTCT
    CAGAGTACTG AGACAGTTCC TGCTACGCCT GGTAGTGATG CTCCCCTCAC AGGTAGCAGC
    CTTACACTGA CTTCCCCACA CATACCTGGC AGTCCTTTTT CGTATCTCTC ACAGTCACCA
    GGAATAATTA ACAGTGGTAT TCCACGGACA CCTGGAAGAG ATTTTAACTT CACTCCAACC
    TTTCCAGAAT CAAATTCAAT ATTCCCTTGC CACCCTTCTG GCAAGAAACC CTCTGTGGAT
    GAACCAGATG AAAAGTCATT CAAAGAACCA ACCAGTGCTT CCTTAACAAT GAACAGTGTT
    CCTTCACCCA TCCCATTTGC TAGCCCGCCT AGAGGGCTTC CTCACATGGA CATAAGGTTA
    GGGGCAGATG ATCTGGAATC ATCTGATACT CCAGCATACC TTTCCGATAA ATTATTAAGT
    GAGGAGAGTG AATGTGAATT TACTAAAGTG CACCTGACTT CCACTGATGA ATCTGCACCA
    TCACCACCTC TCCCTCCTGC AGAGAAGAGG AAAGGAGACA GATCCAAAAA ACCTCTTTCT
    GCTCATGAAT TCGAGACTGA GAAAAACTAT GAAACTTCTT CTGCTGTTGC CATGTCAGAA
    GGTGCTTTGG GTAAACAGAT GTTTATTGGA CAACCTGATG CAGTCAGTGG TATTAAAGAT
    CCAGCAGCTG TACCGCTAGA CTTTAGGAAT GATAGCCTCT CTGAAAACAC AGTTCACGAG
    CCCATTATTC AAAAAGTCCC TTTAAAAGAG CTGGAAAATC AGTGGAATGA AGTTTTAAAA
    GAGGAGGAGG ATATAACTAA ACATAAAAAA TCAAGGAACT CCAGGCATAA CAATAGATAT
    GATGAGTTTT CAACTGTACC TTCTCCCGAA TTTTCCCCAC CCCGAGCTAT GTTTAAACCT
    CGCTCTGAAT TTGAGGAGAT GACCATTCTT TATGATATAT GGAATGGAGG AATAGATGAT
    GAAGATATCA AATACATGTG CATTACATAT GATAGACTGT TACAGCAAGA TAATGGCATG
    GACTGGCTCA ATGACACATT ATGGGTCTAC CACCCTTCAA CCAGTGTTTA TTCCCCCAAG
    AAGAAGAAGC GAGATGATGG TTTACGGGAG CATGTAACAG GATGTGCTCG TAGCGAGGGA
    TATTATAAAA TTGATAAGAA AGACAAACTT AAATACCTCA TCAACAACCG TTCTTTGACT
    GAAGAACTTC CCATCGATAC CCAGGGAAAG AGTATCCCAG CTCAGCCTCA AGCCTCCACC
    CGAGCGGGCT CGGAAAGAAG GTCAGAACAG CGCAGACTGC TCTCTTCCTT CACTGGAAGC
    TGTGACAGCG ACTTGCTCAA ATTCAATCAG CTGAAGTTCC GAAAGAAGAA GTTGCGTTTC
    TGCAAGAGCC ATATTCACGA CTGGGGTCTT TTTGCCATGG AACCAATTAT AGCTGATGAG
    ATGGTTATTG AGTATGTGGG ACAAAATATT AGACAGGTAA TTGCCGATAT GCGGGAGAAG
    CGATATGAGG ATGAAGGAAT CGGCAGCAGT TACATGTTTA GGGTGGACCA CGACACCATC
    ATTGATGCGA CTAAGTGTGG GAATTTTGCA CGATTTATTA ACCACAGCTG TAATCCTAAT
    TGCTATGCAA AGGTTATTAC TGTGGAGTCT CAGAAGAAGA TTGTGATCTA CTCCAAACAG
    TATATCAATG TGAATGAAGA GATAACATAC GATTACAAGT TTCCTATAGA AGACGTGAAG
    ATCCCTTGTC TTTGTGGAGC AGAGAACTGC AGAGGGACGC TAAATTAG

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

    RefSeq XP_017950068.2
    CDS237..6104
    Translation

    Target ORF information:

    RefSeq Version XM_018094579.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SET domain containing 1B (setd1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018094579.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGTAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGTCCTTAAC ACCTGTGAAA TCTGGGGAGA GCAAAGAAGA AGATAAACAA
    AAGACAAAGG AGCATATAAC TTCCAGCCTC TTGGAAAGCT GGAACAAAGG GGAAGGATTA
    GGTTTTGAGG GCATTGGACT GGGCATTGGT CTGCGTGGTG CAATCCGACT TCCCTCTTTC
    AAGGTAAAGC GGAAAGAACC TCCTGACGCG GCACTGGCTG GAGATCAGAA GAGGATTCGC
    CCATCTCATT CAGTAGATGA TGAGGATGAA GAGTCTGAAA GAGATCGAGA TATCTCTAGT
    ACAGCATCTG ACTTATCAAA GAAAGATGCA GATGCAGTAA ACAACCGAAG AAGGCCAGCA
    AGACCCTTGG ATAGTGAAGG GGAAGAAGAG GTTGAAAGTG AAGGGGATGA TGGGGAGACG
    TCAGATAAAG AAGACTCCTC TTCTGAGAAA GAGGACCAAG ATGATGGTTC TGTGTCAGCT
    TTGTCCAGTA AAAAACAGCT GTATGGGGAT AAAGAGGGTG ATGACGAAGA TGATGATACA
    CAAAGCAGTG GGAAAGAAGA GGATCTTGTT TCAGAAGAAG AAGATACCAC CAGTGTAGCT
    TCCTCTAGAG CCGAGATGGA TTCTTCTGAT GAAAGTGAGG AATCTTCAGA GTATGAGTCA
    AGCTCGGATT CAGATGAAAA AGAGGAGGAA GATGATGAAG AAGAAGAACT AGTCTTTGGG
    GACGATCAAT CTGAAGATCA AGATTTAGGA CAGGAATATG AAGTTGAAAC TGATAGGGAA
    GAAGATTTCT TCAGAGAGAA TTTGTCTGAA TGTAGTAGTC TACCAAAGGC AGGAGATGTG
    GAATTAGAAG ATGAAATGCA AAAAGTAGAG GAAGATGTTG CACGGCAAAC AACACAAGAG
    ACATTACATC TGAGAAAGAA AAATCTGGAT GTACCACTGG TGGAGTCTAA AGAATGCAAA
    CAGGATACCT TAGATAAAGT GGAGAAGCTC TTTGCAGTAC CCATGCAAGA GGAAGTTTTT
    AAGGAGCATG AAAAAGCACC ATCACCAATG AATGAAGAGG AAGAGTATAT AGAGCTTCAA
    TTAGAACCTG TGCCTTTGGT TCCAGAAGGT GCAGCTCCAG CTGCACAAGA GCCTGTGATC
    ATCCGTCCCT TAACACCAAC TGGTGCTTTT GGTGAGACTG GTCCTGTTCT CAAGCTTGAA
    GAACCCAAAC TGCAAGTTAA TTTAACTCAG TTTGCCACAG AAGATGAAGA ACTGTACCCT
    CGCACACCTG GCCGGGACAC GGCTGCTCAT TCAGATACAG AGGTCACTTT TCAGCCTGGT
    TTGAAAGTAG CCCCATCCAG CCTACCTTTT TTGCCAAGCC ACAATAAGGA AGAGGAGTGT
    CTGCTTCCAC CTGAAAAGCA TGCCGGTCAT TTAACGGTGA CTAAGATGCT GTCGGAGGAA
    GATCTGCCCC GTACCCCAGG CAGAGATATT GTGGTTAAGT CCTCCCACCT TGGGAAGTCT
    CAGAGTACTG AGACAGTTCC TGCTACGCCT GGTAGTGATG CTCCCCTCAC AGGTAGCAGC
    CTTACACTGA CTTCCCCACA CATACCTGGC AGTCCTTTTT CGTATCTCTC ACAGTCACCA
    GGAATAATTA ACAGTGGTAT TCCACGGACA CCTGGAAGAG ATTTTAACTT CACTCCAACC
    TTTCCAGAAT CAAATTCAAT ATTCCCTTGC CACCCTTCTG GCAAGAAACC CTCTGTGGAT
    GAACCAGATG AAAAGTCATT CAAAGAACCA ACCAGTGCTT CCTTAACAAT GAACAGTGTT
    CCTTCACCCA TCCCATTTGC TAGCCCGCCT AGAGGGCTTC CTCACATGGA CATAAGGTTA
    GGGGCAGATG ATCTGGAATC ATCTGATACT CCAGCATACC TTTCCGATAA ATTATTAAGT
    GAGGAGAGTG AATGTGAATT TACTAAAGTG CACCTGACTT CCACTGATGA ATCTGCACCA
    TCACCACCTC TCCCTCCTGC AGAGAAGAGG AAAGGAGACA GATCCAAAAA ACCTCTTTCT
    GCTCATGAAT TCGAGACTGA GAAAAACTAT GAAACTTCTT CTGCTGTTGC CATGTCAGAA
    GGTGCTTTGG GTAAACAGAT GTTTATTGGA CAACCTGATG CAGTCAGTGG TATTAAAGAT
    CCAGCAGCTG TACCGCTAGA CTTTAGGAAT GATAGCCTCT CTGAAAACAC AGTTCACGAG
    CCCATTATTC AAAAAGTCCC TTTAAAAGAG CTGGAAAATC AGTGGAATGA AGTTTTAAAA
    GAGGAGGAGG ATATAACTAA ACATAAAAAA TCAAGGAACT CCAGGCATAA CAATAGATAT
    GATGAGTTTT CAACTGTACC TTCTCCCGAA TTTTCCCCAC CCCGAGCTAT GTTTAAACCT
    CGCTCTGAAT TTGAGGAGAT GACCATTCTT TATGATATAT GGAATGGAGG AATAGATGAT
    GAAGATATCA AATACATGTG CATTACATAT GATAGACTGT TACAGCAAGA TAATGGCATG
    GACTGGCTCA ATGACACATT ATGGGTCTAC CACCCTTCAA CCAGTGTTTA TTCCCCCAAG
    AAGAAGAAGC GAGATGATGG TTTACGGGAG CATGTAACAG GATGTGCTCG TAGCGAGGGA
    TATTATAAAA TTGATAAGAA AGACAAACTT AAATACCTCA TCAACAACCG TTCTTTGACT
    GAAGAACTTC CCATCGATAC CCAGGGAAAG AGTATCCCAG CTCAGCCTCA AGCCTCCACC
    CGAGCGGGCT CGGAAAGAAG GTCAGAACAG CGCAGACTGC TCTCTTCCTT CACTGGAAGC
    TGTGACAGCG ACTTGCTCAA ATTCAATCAG CTGAAGTTCC GAAAGAAGAA GTTGCGTTTC
    TGCAAGAGCC ATATTCACGA CTGGGGTCTT TTTGCCATGG AACCAATTAT AGCTGATGAG
    ATGGTTATTG AGTATGTGGG ACAAAATATT AGACAGGTAA TTGCCGATAT GCGGGAGAAG
    CGATATGAGG ATGAAGGAAT CGGCAGCAGT TACATGTTTA GGGTGGACCA CGACACCATC
    ATTGATGCGA CTAAGTGTGG GAATTTTGCA CGATTTATTA ACCACAGCTG TAATCCTAAT
    TGCTATGCAA AGGTTATTAC TGTGGAGTCT CAGAAGAAGA TTGTGATCTA CTCCAAACAG
    TATATCAATG TGAATGAAGA GATAACATAC GATTACAAGT TTCCTATAGA AGACGTGAAG
    ATCCCTTGTC TTTGTGGAGC AGAGAACTGC AGAGGGACGC TAAATTAG

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

    CloneID OXa00075
    Clone ID Related Accession (Same CDS sequence) NM_001079181.1
    Accession Version NM_001079181.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5871bp)
    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 2019-12-28
    Organism Xenopus tropicalis(tropical clawed frog)
    Product histone-lysine N-methyltransferase SETD1B
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC123932.1. ##Evidence-Data-START## Transcript exon combination :: BC123932.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMD00028290, SAMD00028291 [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
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGCAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGCAGTCCTT AACACCTGTG AAATCTGGGG AGAGCAAAGA AGAAGATAAA
    CAAAAGACAA AGGAGCATAT AACTTCCAGC CTCTTGGAAA GCTGGAACAA AGGGGAAGGA
    TTAGGTTTTG AGGGCATTGG ACTGGGCATT GGTCTGCGTG GTGCAATCCG ACTTCCCTCT
    TTCAAGGTAA AGCGGAAAGA ACCTCCTGAC GCGGCACTGG CTGGAGATCA GAAGAGGATT
    CGCCCATCTC ATTCAGTAGA TGATGAGGAT GAAGAGTCTG AAAGAGATCG AGATATCTCT
    AGTACAGCAT CTGACTTATC AAAGAAAGAT GCAGATGCAG TAAACAACCG AAGAAGGCCA
    GCAAGACCCT TGGATAGTGA AGGGGAAGAA GAGGTTGAAA GTGAAGGGGA TGATGGGGAG
    ACGTCAGATA AAGAAGACTC CTCTTCTGAG AAAGAGGACC AAGATGATGG TTCTGTGTCA
    GCTTTGTCCA GTAAAAAACA GCTGTATGGG GATAAAGAGG GTGATGACGA AGATGATGAT
    ACACAAAGCA GTGGGAAAGA AGAGGATCTT GTTTCAGAAG AAGAAGATAC CACCAGTGTA
    GCTTCCTCTA GAGCCGAGAT GGATTCTTCT GATGAAAGTG AGGAATCTTC AGAGTATGAG
    TCAAGCTCGG ATTCAGATGA AAAAGAGGAG GAAGATGATG AAGAAGAAGA ACTAGTCTTT
    GGGGACGATC AATCTGAAGA TCAAGATTTA GGACAGGAAT ATGAAGTTGA AACTGATAGG
    GAAGAAGATT TCTTCAGAGA GAATTTGTCT GAATGTAGTA GTCTACCAAA GGCAGGAGAT
    GTGGAATTAG AAGATGAAAT GCAAAAAGTA GAGGAAGATG TTGCACGGCA AACAACACAA
    GAGACATTAC ATCTGAGAAA GAAAAATCTG GATGTACCAC TGGTGGAGTC TAAAGAATGC
    AAACAGGATA CCTTAGATAA AGTGGAGAAG CTCTTTGCAG TACCCATGCA AGAGGAAGTT
    TTTAAGGAGC ATGAAAAAGC ACCATCACCA ATGAATGAAG AGGAAGAGTA TATAGAGCTT
    CAATTAGAAC CTGTGCCTTT GGTTCCAGAA GGTGCAGCTC CAGCTGCACA AGAGCCTGTG
    ATCATCCGTC CCTTAACACC AACTGGTGCT TTTGGTGAGA CTGGTCCTGT TCTCAAGCTT
    GAAGAACCCA AACTGCAAGT TAATTTAACT CAGTTTGCCA CAGAAGATGA AGAACTGTAC
    CCTCGCACAC CTGGCCGGGA CACGGCTGCT CATTCAGATA CAGAGGTCAC TTTTCAGCCT
    GGTTTGAAAG TAGCCCCATC CAGCCTACCT TTTTTGCCAA GCCACAATAA GGAAGAGGAG
    TGTCTGCTTC CACCTGAAAA GCATGCCGGT CATTTAACGG TGACTAAGAT GCTGTCGGAG
    GAAGATCTGC CCCGTACCCC AGGCAGAGAT ATTGTGGTTA AGTCCTCCCA CCTTGGGAAG
    TCTCAGAGTA CTGAGACAGT TCCTGCTACG CCTGGTAGTG ATGCTCCCCT CACAGGTAGC
    AGCCTTACAC TGACTTCCCC ACACATACCT GGCAGTCCTT TTTCGTATCT CTCACAGTCA
    CCAGGAATAA TTAACAGTGG TATTCCACGG ACACCTGGAA GAGATTTTAA CTTCACTCCA
    ACCTTTCCAG AATCAAATTC AATATTCCCT TGCCACCCTT CTGGCAAGAA ACCCTCTGTG
    GATGAACCAG ATGAAAAGTC ATTCAAAGAA CCAACCAGTG CTTCCTTAAC AATGAACAGT
    GTTCCTTCAC CCATCCCATT TGCTAGCCCG CCTAGAGGGC TTCCTCACAT GGACATAAGG
    TTAGGGGCAG ATGATCTGGA ATCATCTGAT ACTCCAGCAT ACCTTTCCGA TAAATTATTA
    AGTGAGGAGA GTGAATGTGA ATTTACTAAA GTGCACCTGA CTTCCACTGA TGAATCTGCA
    CCATCACCAC CTCTCCCTCC TGCAGAGAAG AGGAAAGGAG ACAGATCCAA AAAACCTCTT
    TCTGCTCATG AATTCGAGAC TGAGAAAAAC TATGAAACTT CTTCTGCTGT TGCCATGTCA
    GAAGGTGCTT TGGGTAAACA GATGTTTATT GGACAACCTG ATGCAGTCAG TGGTATTAAA
    GATCCAGCAG CTGTACCGCT AGACTTTAGG AATGATAGCC TCTCTGAAAA CACAGTTCAC
    GAGCCCATTA TTCAAAAAGT CCCTTTAAAA GAGCTGGAAA ATCAGTGGAA TGAAGTTTTA
    AAAGAGGAGG AGGATATAAC TAAACATAAA AAATCAAGGA ACTCCAGGCA TAACAATAGA
    TATGATGAGT TTTCAACTGT ACCTTCTCCC GAATTTTCCC CACCCCGAGC TATGTTTAAA
    CCTCGCTCTG AATTTGAGGA GATGACCATT CTTTATGATA TATGGAATGG AGGAATAGAT
    GATGAAGATA TCAAATACAT GTGCATTACA TATGATAGAC TGTTACAGCA AGATAATGGC
    ATGGACTGGC TCAATGACAC ATTATGGGTC TACCACCCTT CAACCAGTGT TTATTCCCCC
    AAGAAGAAGA AGCGAGATGA TGGTTTACGG GAGCATGTAA CAGGATGTGC TCGTAGCGAG
    GGATATTATA AAATTGATAA GAAAGACAAA CTTAAATACC TCATCAACAA CCGTTCTTTG
    ACTGAAGAAC TTCCCATCGA TACCCAGGGA AAGAGTATCC CAGCTCAGCC TCAAGCCTCC
    ACCCGAGCGG GCTCGGAAAG AAGGTCAGAA CAGCGCAGAC TGCTCTCTTC CTTCACTGGA
    AGCTGTGACA GCGACTTGCT CAAATTCAAT CAGCTGAAGT TCCGAAAGAA GAAGTTGCGT
    TTCTGCAAGA GCCATATTCA CGACTGGGGT CTTTTTGCCA TGGAACCAAT TATAGCTGAT
    GAGATGGTTA TTGAGTATGT GGGACAAAAT ATTAGACAGG TAATTGCCGA TATGCGGGAG
    AAGCGATATG AGGATGAAGG AATCGGCAGC AGTTACATGT TTAGGGTGGA CCACGACACC
    ATCATTGATG CGACTAAGTG TGGGAATTTT GCACGATTTA TTAACCACAG CTGTAATCCT
    AATTGCTATG CAAAGGTTAT TACTGTGGAG TCTCAGAAGA AGATTGTGAT CTACTCCAAA
    CAGTATATCA ATGTGAATGA AGAGATAACA TACGATTACA AGTTTCCTAT AGAAGACGTG
    AAGATCCCTT GTCTTTGTGG AGCAGAGAAC TGCAGAGGGA CGCTAAATTA G

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

    RefSeq NP_001072649.1
    CDS190..6060
    Translation

    Target ORF information:

    RefSeq Version NM_001079181.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SET domain containing 1B (setd1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001079181.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    ATGTCTTTCA AGGAGGCCAA GCCTGGGGAG AGAGGCAAGA ACCCAGAAGA CCATGGCAGA 
    AAGCAGACTG CAAGCTGGAT CAACGGGATG GAGGCAGGCA ACCAGCCCAG TACTTCGGGC
    GAGAAGAAGA GTCACCATTG GCGGAGTTAC AAGTTGATCA TTGACCCTGC TCTGAGGAAG
    GGGCAGCACA AACTCTATCG TTACGATGGG CTCAGCTTTA GCATGCCTAA CTCCGGGGTC
    CCCCCTGTGG ATTCAGTAAG AGATCCCCGG ATCGGACGTA TATGGACCAA AACTAAAGAG
    TTGGATTTGC CTGTCCCCAA ACTTAAGATC GATGAGTTTT ATGTGGGGCC AGTGCCCCCC
    AAGCAGGTGA CGTTTGCCAA ACTAAACGAT AACATCCGCG AAAACTTCCT GGGGGACATG
    TGCAAGAAAT ACGGGGAGGT GGAGGAGGTG GAGATCCTTT ATAACCCCAA AAATAAAAAA
    CACCTGGGCA TTGCCAAAGT CATATTCGCC AGCGTGAAGG GCGCCAGGGA CGCGGTGAAA
    CACTTGCACA ACACCTCGGT CATGGGCAAC ATCATTCACG TTGAGCTGGA CACGAAAGGG
    GAAACGCGTA TGCGCTTCTA TGACCTTTTG GTTAATGGTT TCTATACTCC TCAGACTCTT
    CCAGTTGGAA GTGATTTGGA TGCCTCTCCC ACTGTGAATG AAACACCACA GGTTGTCGAG
    TCAGTGAAAC GTACCAAGGA GACTGCCATT GGTCCATCAG TTACCCCAAA TAGCAGTACT
    CCATTTTCCC ATGATACAGC CTATTCAAGC TCTCGACAAG GTACACCTAA TTCTTACAGC
    CAGTTTACAC CACAGTCGCA AGGGACTCCT CATACTCCCC GCTTGGGAAC CCCTTTCTCG
    CAGGATTCCA GTTATTCCAG TCGGCAAACA ACACCAGCTT TTCATTATGG ACAAGACTCT
    GGTTTTAAAC CAAGGAGACA TGAAAATAAG TTTACGGACG CTTACAATAG AAGACCAGGC
    CACCACTATG TACACAGTTC TGGATCCTAC CGGGGGACTG AACACACATT TAATGTGACC
    AGACCTCAAC CAGAACCTGT GCAGGTTCCC CGCACACCAC CTTTGAGTCA TTCTAGCGGG
    AATTATAAAT CCGCATTTTC ACCTTATCAA GGAAATACTG TTTTCCCTCA AACAGATGAG
    AGCCAGTATC CTCAGACATC AAGGGATATG GAGTACAGAA GGACAGGGCC TCAGACGTCA
    GACTCCTATT CTGACGCAGG GTGTAACTCT GCCAGTTTAG AACTGAAACC AGTAAAGGAG
    AAACCAGAGG AACCACCACC TCCGGAACCT GACTCAACCA CAGAGCAAAA AGCATCATTT
    TCCCAGACCC CAGAGAGGTG TGAGACACCT GGAACTCCAA CTCTGGAGGC TGAACTGCAG
    CACAACAGTT TGGATACACG AATTGCAATG CTATTAAAAG AGCAAAGGAC CCAGCTGCAT
    TTAATTGCTG GTGATCAAAA TTCAGACAAT GAAATAAGGA TGGAGGGAAG TCCAATATCA
    TCCTCCTCCT CTCAGCTCTC CCCAATCCCT CCTTATAGTT CAGGCTCCCG TTACCAGGAT
    GTTACCCCTT CATCACGGCC CTCAAGCACA GGATTAGAAG ATATTAGTCC AACCCCTTTG
    CCAGATTCTG ATGATGACGA TGAGCCGATT CCTGGCACTG CCTCACTCTG TCAGAACTCA
    AGGTCAGCAT CTCCCATAGA CCAGATTAAT CAGTCTGGGC GAAAAACTGA GAGTTTGGAT
    AAGAAGGAAC TTGTAGCAGG TGATGAAACC CCAACATCTG AGAAAATGGA TGAGGGTCAT
    CCTTCCTCGG GAGAGGACAT GGAGATCTCA GATGATGAAG TTACCCCTTC TCCAATAACA
    AGTGCAGAGT GTGCCATAAC CAGTTCCTCT GTCATTTCCT CAGTCATTCC TATTCCACCA
    CCTGGGTTTC CCCCTCTGCC ACCGCCACCT CCTCCACAGC CTGGATTTCC CATGCCACCT
    CCTTTACCCC CTCCACCGCC TCCTACTCAT CCATCAGTAA CAGTACCACC ACCTCCATTG
    CCTGCACCAC CTGGGGTGCC TCCACATCAC ATATTGCACC ATCCACCTCC ATATCATCAT
    TTCCCTGTGA TGCAAGGAGA AATGATGAAT GTCCTTGGGA ATCATTGGGG TGGGATGACA
    ATGTCCTTCC AAATGCAAAC TCAAATGCTC AGCCGCATGA TGCAAGGGCA GGGTTCTTAC
    CCCTACCACC ATTTCATGGG AGGCTCCATG CAGTTTGGTA ACCAGCATCC TTATCGCCCC
    TTTGCTATAT CTGCACACCT TACCAGAGGA CAGCCCTGGC CACCCTTTCC AAAGTTTGAT
    CCATCTGTAC CACCACCAGG CTACGAGCAC AAAAAGGAGG ACCCTCACAA AGCAACAGTG
    GATGGAGTCC TGCAAGTTAT TGTCAAGGAA CTGAAAGCTA TAATGAAAAG AGATCTGAAC
    CGCAAAATGG TTGAGGTGGT GGCTTTTAGG GCATTTGATG AATGGTGGGA TAAGAAGGAG
    CGTTTGGCAA AGCAGTCCTT AACACCTGTG AAATCTGGGG AGAGCAAAGA AGAAGATAAA
    CAAAAGACAA AGGAGCATAT AACTTCCAGC CTCTTGGAAA GCTGGAACAA AGGGGAAGGA
    TTAGGTTTTG AGGGCATTGG ACTGGGCATT GGTCTGCGTG GTGCAATCCG ACTTCCCTCT
    TTCAAGGTAA AGCGGAAAGA ACCTCCTGAC GCGGCACTGG CTGGAGATCA GAAGAGGATT
    CGCCCATCTC ATTCAGTAGA TGATGAGGAT GAAGAGTCTG AAAGAGATCG AGATATCTCT
    AGTACAGCAT CTGACTTATC AAAGAAAGAT GCAGATGCAG TAAACAACCG AAGAAGGCCA
    GCAAGACCCT TGGATAGTGA AGGGGAAGAA GAGGTTGAAA GTGAAGGGGA TGATGGGGAG
    ACGTCAGATA AAGAAGACTC CTCTTCTGAG AAAGAGGACC AAGATGATGG TTCTGTGTCA
    GCTTTGTCCA GTAAAAAACA GCTGTATGGG GATAAAGAGG GTGATGACGA AGATGATGAT
    ACACAAAGCA GTGGGAAAGA AGAGGATCTT GTTTCAGAAG AAGAAGATAC CACCAGTGTA
    GCTTCCTCTA GAGCCGAGAT GGATTCTTCT GATGAAAGTG AGGAATCTTC AGAGTATGAG
    TCAAGCTCGG ATTCAGATGA AAAAGAGGAG GAAGATGATG AAGAAGAAGA ACTAGTCTTT
    GGGGACGATC AATCTGAAGA TCAAGATTTA GGACAGGAAT ATGAAGTTGA AACTGATAGG
    GAAGAAGATT TCTTCAGAGA GAATTTGTCT GAATGTAGTA GTCTACCAAA GGCAGGAGAT
    GTGGAATTAG AAGATGAAAT GCAAAAAGTA GAGGAAGATG TTGCACGGCA AACAACACAA
    GAGACATTAC ATCTGAGAAA GAAAAATCTG GATGTACCAC TGGTGGAGTC TAAAGAATGC
    AAACAGGATA CCTTAGATAA AGTGGAGAAG CTCTTTGCAG TACCCATGCA AGAGGAAGTT
    TTTAAGGAGC ATGAAAAAGC ACCATCACCA ATGAATGAAG AGGAAGAGTA TATAGAGCTT
    CAATTAGAAC CTGTGCCTTT GGTTCCAGAA GGTGCAGCTC CAGCTGCACA AGAGCCTGTG
    ATCATCCGTC CCTTAACACC AACTGGTGCT TTTGGTGAGA CTGGTCCTGT TCTCAAGCTT
    GAAGAACCCA AACTGCAAGT TAATTTAACT CAGTTTGCCA CAGAAGATGA AGAACTGTAC
    CCTCGCACAC CTGGCCGGGA CACGGCTGCT CATTCAGATA CAGAGGTCAC TTTTCAGCCT
    GGTTTGAAAG TAGCCCCATC CAGCCTACCT TTTTTGCCAA GCCACAATAA GGAAGAGGAG
    TGTCTGCTTC CACCTGAAAA GCATGCCGGT CATTTAACGG TGACTAAGAT GCTGTCGGAG
    GAAGATCTGC CCCGTACCCC AGGCAGAGAT ATTGTGGTTA AGTCCTCCCA CCTTGGGAAG
    TCTCAGAGTA CTGAGACAGT TCCTGCTACG CCTGGTAGTG ATGCTCCCCT CACAGGTAGC
    AGCCTTACAC TGACTTCCCC ACACATACCT GGCAGTCCTT TTTCGTATCT CTCACAGTCA
    CCAGGAATAA TTAACAGTGG TATTCCACGG ACACCTGGAA GAGATTTTAA CTTCACTCCA
    ACCTTTCCAG AATCAAATTC AATATTCCCT TGCCACCCTT CTGGCAAGAA ACCCTCTGTG
    GATGAACCAG ATGAAAAGTC ATTCAAAGAA CCAACCAGTG CTTCCTTAAC AATGAACAGT
    GTTCCTTCAC CCATCCCATT TGCTAGCCCG CCTAGAGGGC TTCCTCACAT GGACATAAGG
    TTAGGGGCAG ATGATCTGGA ATCATCTGAT ACTCCAGCAT ACCTTTCCGA TAAATTATTA
    AGTGAGGAGA GTGAATGTGA ATTTACTAAA GTGCACCTGA CTTCCACTGA TGAATCTGCA
    CCATCACCAC CTCTCCCTCC TGCAGAGAAG AGGAAAGGAG ACAGATCCAA AAAACCTCTT
    TCTGCTCATG AATTCGAGAC TGAGAAAAAC TATGAAACTT CTTCTGCTGT TGCCATGTCA
    GAAGGTGCTT TGGGTAAACA GATGTTTATT GGACAACCTG ATGCAGTCAG TGGTATTAAA
    GATCCAGCAG CTGTACCGCT AGACTTTAGG AATGATAGCC TCTCTGAAAA CACAGTTCAC
    GAGCCCATTA TTCAAAAAGT CCCTTTAAAA GAGCTGGAAA ATCAGTGGAA TGAAGTTTTA
    AAAGAGGAGG AGGATATAAC TAAACATAAA AAATCAAGGA ACTCCAGGCA TAACAATAGA
    TATGATGAGT TTTCAACTGT ACCTTCTCCC GAATTTTCCC CACCCCGAGC TATGTTTAAA
    CCTCGCTCTG AATTTGAGGA GATGACCATT CTTTATGATA TATGGAATGG AGGAATAGAT
    GATGAAGATA TCAAATACAT GTGCATTACA TATGATAGAC TGTTACAGCA AGATAATGGC
    ATGGACTGGC TCAATGACAC ATTATGGGTC TACCACCCTT CAACCAGTGT TTATTCCCCC
    AAGAAGAAGA AGCGAGATGA TGGTTTACGG GAGCATGTAA CAGGATGTGC TCGTAGCGAG
    GGATATTATA AAATTGATAA GAAAGACAAA CTTAAATACC TCATCAACAA CCGTTCTTTG
    ACTGAAGAAC TTCCCATCGA TACCCAGGGA AAGAGTATCC CAGCTCAGCC TCAAGCCTCC
    ACCCGAGCGG GCTCGGAAAG AAGGTCAGAA CAGCGCAGAC TGCTCTCTTC CTTCACTGGA
    AGCTGTGACA GCGACTTGCT CAAATTCAAT CAGCTGAAGT TCCGAAAGAA GAAGTTGCGT
    TTCTGCAAGA GCCATATTCA CGACTGGGGT CTTTTTGCCA TGGAACCAAT TATAGCTGAT
    GAGATGGTTA TTGAGTATGT GGGACAAAAT ATTAGACAGG TAATTGCCGA TATGCGGGAG
    AAGCGATATG AGGATGAAGG AATCGGCAGC AGTTACATGT TTAGGGTGGA CCACGACACC
    ATCATTGATG CGACTAAGTG TGGGAATTTT GCACGATTTA TTAACCACAG CTGTAATCCT
    AATTGCTATG CAAAGGTTAT TACTGTGGAG TCTCAGAAGA AGATTGTGAT CTACTCCAAA
    CAGTATATCA ATGTGAATGA AGAGATAACA TACGATTACA AGTTTCCTAT AGAAGACGTG
    AAGATCCCTT GTCTTTGTGG AGCAGAGAAC TGCAGAGGGA CGCTAAATTA G

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