smarca4 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following smarca4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the smarca4 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
OXa24525 NM_001113662.1
Latest version!
Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa27105 NM_001375265.1
Latest version!
Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa27105 XM_012953106.2
Latest version!
Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00

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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 OXa24525
    Clone ID Related Accession (Same CDS sequence) NM_001113662.1
    Accession Version NM_001113662.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3051bp)
    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 2016-10-28
    Organism Xenopus tropicalis(tropical clawed frog)
    Product transcription activator BRG1
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC155670.1. ##Evidence-Data-START## Transcript exon combination :: BC155670.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1025683, SAMEA1025684 [ECO:0000348] ##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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CGTCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGTCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGTGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAATGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCTCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGTACTGT CCATGCTCTA G

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

    RefSeq NP_001107134.1
    CDS138..3188
    Translation

    Target ORF information:

    RefSeq Version NM_001113662.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001113662.1

    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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CGTCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGTCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGTGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAATGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCTCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGTACTGT CCATGCTCTA G

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

    CloneID OXa27105
    Clone ID Related Accession (Same CDS sequence) XM_012953106.2 , NM_001375265.1
    Accession Version NM_001375265.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4800bp)
    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 2019-10-18
    Organism Xenopus tropicalis(tropical clawed frog)
    Product transcription activator BRG1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAMC03013173.1. On Oct 19, 2019 this sequence version replaced XM_012953106.2. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1025683, SAMEA1025684 [ECO:0000348] ##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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CATCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGCCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGCGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAACGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCCCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGGCAAGG GAGGCACCAA GACCCTCATG
    AACACTATTA TGCAGCTAAG GAAGATCTGT AACCATCCGT ACATGTTCCA GCACATAGAG
    GAGTCATTTT CTGAACACTT GGGATTCTCG GGAGGAATTG TACAGGGGGC AGACCTCTAC
    CGGGCATCTG GGAAGTTTGA GCTCTTAGAT CGGATACTGC CCAAGTTGAG AGCCACCCAG
    CACAAGGTCC TGCTCTTTTG CCAGATGACC ACCCTCATGA CGATCATGGA AGATTATTTT
    GCTTATCGTG GCTTTAAATA CCTCCGATTG GACGGCACCA CCAAGGCAGA AGATCGTGGC
    ATGTTACTAA AAACATTTAA CGAGTCCAGT TCTGAATACT TTATCTTCCT GCTCAGCACA
    CGTGCTGGGG GTCTGGGCTT GAACCTTCAG TCGGCAGACA CTGTTATCAT ATTCGATAGT
    GACTGGAACC CACATCAGGA TTTGCAGGCT CAGGACCGAG CTCACCGAAT CGGGCAGCAG
    AACGAGGTGC GAGTGCTGCG CTTGTGCACT GTGAACAGCG TGGAGGAAAA GATCCTGGCC
    GCCGCCAAGT ATAAGCTAAA CGTGGATCAG AAAGTTATCC AGGCCGGGAT GTTCGACCAA
    AAATCCTCCA GCCATGAGCG CAAGGTCTTC CTGCAGGCCA TTCTAGAGCA TGAAGAACAA
    GATGAGGAGG AAGATGAGGT GCCAGACGAT GAGACTGTGA ATCAGATGAT CGCTCGACAC
    GAGGAAGAGT TCGACCTTTT CATGCGTATG GATCTGGACA GGCGAAGAGA GGAAGCCCGT
    AATCCCAAAC GCAAACCTCG CCTCATGGAG GAAGATGAGC TGCCGTCCTG GATCATTAAG
    GACGACGCCG AGGTTGAGCG CCTTACTTGC GAAGAAGAAG AAGAAAAGAT GTTTGGCCGC
    GGCTCCCGTA ACCGCAAGGA GGTGGATTAT AGTGACTCGC TCACGGAAAA GCAGTGGCTG
    AAGGCCATAG AAGAGGGCAC TCTAGAAGAG ATTGAGGAAG AAGTGCGCCA GAAGAAAACC
    ACTCGCAAGA GGAAGAGAGA TATAGACCCT TGCATAGTCA TGCCCACCAC AAGCACACGG
    GGCAGGGAGA GGGATGACGA GGGTAAGAAA CAGAAGAAGA GGGGGCGGCC CCCTGCCGAG
    AAACTTTCCC CAAACCCCCC AAAACTCACA AAGAAAATGA AGAAGATTGT GGATGCCGTC
    ATTAAGTACA AAGACAGTGG AAACGGGCGC CAGCTAAGTG AAGTTTTTAT CCAACTGCCA
    TCCCGTAAGG AACTCCCTGA GTACTACGAG CTGATCCGTA AGCCAGTGGA CTTCAGGAAG
    ATCAAGGAGA GGATCCGAAA CCATAAGTAC CGCAGCCTAA ATGATCTGGA GAAAGACGTC
    ATGCTGCTGT GTCAGAATGC TCAGACCTTC AACCTGGAGG GCTCCTTGAT CTATGAAGAC
    TCGATTGTGC TCCAGTCCGT GTTCACCAGT GTGAGACAGA AGATCGAGAA GGAAGAGGAG
    AGCGAGGGAG AGGAGAGTGA GGAAGAGGAG GACGTGGAAG AAGAAGGCTC AGAGTCTGAG
    TCTCGCTCCG TGAAGGTGAA GATTAAACTG GGTCGCAAGG AGAAGGGGCA GGAGAGGATG
    AAGGGACGCA GGCGGACCGG CCGAGGGTGC AGAGCCAAGC CGGTGATCAG CGATGATGAT
    AGCGAGGAAG AACAAGAAGA GGCCAATGAG CGCTCAGGGA GCGGAAGCGA AGACGACTGA

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

    RefSeq NP_001362194.1
    CDS146..4945
    Translation

    Target ORF information:

    RefSeq Version NM_001375265.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001375265.1

    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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CATCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGCCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGCGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAACGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCCCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGGCAAGG GAGGCACCAA GACCCTCATG
    AACACTATTA TGCAGCTAAG GAAGATCTGT AACCATCCGT ACATGTTCCA GCACATAGAG
    GAGTCATTTT CTGAACACTT GGGATTCTCG GGAGGAATTG TACAGGGGGC AGACCTCTAC
    CGGGCATCTG GGAAGTTTGA GCTCTTAGAT CGGATACTGC CCAAGTTGAG AGCCACCCAG
    CACAAGGTCC TGCTCTTTTG CCAGATGACC ACCCTCATGA CGATCATGGA AGATTATTTT
    GCTTATCGTG GCTTTAAATA CCTCCGATTG GACGGCACCA CCAAGGCAGA AGATCGTGGC
    ATGTTACTAA AAACATTTAA CGAGTCCAGT TCTGAATACT TTATCTTCCT GCTCAGCACA
    CGTGCTGGGG GTCTGGGCTT GAACCTTCAG TCGGCAGACA CTGTTATCAT ATTCGATAGT
    GACTGGAACC CACATCAGGA TTTGCAGGCT CAGGACCGAG CTCACCGAAT CGGGCAGCAG
    AACGAGGTGC GAGTGCTGCG CTTGTGCACT GTGAACAGCG TGGAGGAAAA GATCCTGGCC
    GCCGCCAAGT ATAAGCTAAA CGTGGATCAG AAAGTTATCC AGGCCGGGAT GTTCGACCAA
    AAATCCTCCA GCCATGAGCG CAAGGTCTTC CTGCAGGCCA TTCTAGAGCA TGAAGAACAA
    GATGAGGAGG AAGATGAGGT GCCAGACGAT GAGACTGTGA ATCAGATGAT CGCTCGACAC
    GAGGAAGAGT TCGACCTTTT CATGCGTATG GATCTGGACA GGCGAAGAGA GGAAGCCCGT
    AATCCCAAAC GCAAACCTCG CCTCATGGAG GAAGATGAGC TGCCGTCCTG GATCATTAAG
    GACGACGCCG AGGTTGAGCG CCTTACTTGC GAAGAAGAAG AAGAAAAGAT GTTTGGCCGC
    GGCTCCCGTA ACCGCAAGGA GGTGGATTAT AGTGACTCGC TCACGGAAAA GCAGTGGCTG
    AAGGCCATAG AAGAGGGCAC TCTAGAAGAG ATTGAGGAAG AAGTGCGCCA GAAGAAAACC
    ACTCGCAAGA GGAAGAGAGA TATAGACCCT TGCATAGTCA TGCCCACCAC AAGCACACGG
    GGCAGGGAGA GGGATGACGA GGGTAAGAAA CAGAAGAAGA GGGGGCGGCC CCCTGCCGAG
    AAACTTTCCC CAAACCCCCC AAAACTCACA AAGAAAATGA AGAAGATTGT GGATGCCGTC
    ATTAAGTACA AAGACAGTGG AAACGGGCGC CAGCTAAGTG AAGTTTTTAT CCAACTGCCA
    TCCCGTAAGG AACTCCCTGA GTACTACGAG CTGATCCGTA AGCCAGTGGA CTTCAGGAAG
    ATCAAGGAGA GGATCCGAAA CCATAAGTAC CGCAGCCTAA ATGATCTGGA GAAAGACGTC
    ATGCTGCTGT GTCAGAATGC TCAGACCTTC AACCTGGAGG GCTCCTTGAT CTATGAAGAC
    TCGATTGTGC TCCAGTCCGT GTTCACCAGT GTGAGACAGA AGATCGAGAA GGAAGAGGAG
    AGCGAGGGAG AGGAGAGTGA GGAAGAGGAG GACGTGGAAG AAGAAGGCTC AGAGTCTGAG
    TCTCGCTCCG TGAAGGTGAA GATTAAACTG GGTCGCAAGG AGAAGGGGCA GGAGAGGATG
    AAGGGACGCA GGCGGACCGG CCGAGGGTGC AGAGCCAAGC CGGTGATCAG CGATGATGAT
    AGCGAGGAAG AACAAGAAGA GGCCAATGAG CGCTCAGGGA GCGGAAGCGA AGACGACTGA

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

    CloneID OXa27105
    Clone ID Related Accession (Same CDS sequence) XM_012953106.2 , NM_001375265.1
    Accession Version XM_012953106.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4800bp)
    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 transcription activator BRG1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030679.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012953106.1. ##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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CATCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGCCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGCGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAACGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCCCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGGCAAGG GAGGCACCAA GACCCTCATG
    AACACTATTA TGCAGCTAAG GAAGATCTGT AACCATCCGT ACATGTTCCA GCACATAGAG
    GAGTCATTTT CTGAACACTT GGGATTCTCG GGAGGAATTG TACAGGGGGC AGACCTCTAC
    CGGGCATCTG GGAAGTTTGA GCTCTTAGAT CGGATACTGC CCAAGTTGAG AGCCACCCAG
    CACAAGGTCC TGCTCTTTTG CCAGATGACC ACCCTCATGA CGATCATGGA AGATTATTTT
    GCTTATCGTG GCTTTAAATA CCTCCGATTG GACGGCACCA CCAAGGCAGA AGATCGTGGC
    ATGTTACTAA AAACATTTAA CGAGTCCAGT TCTGAATACT TTATCTTCCT GCTCAGCACA
    CGTGCTGGGG GTCTGGGCTT GAACCTTCAG TCGGCAGACA CTGTTATCAT ATTCGATAGT
    GACTGGAACC CACATCAGGA TTTGCAGGCT CAGGACCGAG CTCACCGAAT CGGGCAGCAG
    AACGAGGTGC GAGTGCTGCG CTTGTGCACT GTGAACAGCG TGGAGGAAAA GATCCTGGCC
    GCCGCCAAGT ATAAGCTAAA CGTGGATCAG AAAGTTATCC AGGCCGGGAT GTTCGACCAA
    AAATCCTCCA GCCATGAGCG CAAGGTCTTC CTGCAGGCCA TTCTAGAGCA TGAAGAACAA
    GATGAGGAGG AAGATGAGGT GCCAGACGAT GAGACTGTGA ATCAGATGAT CGCTCGACAC
    GAGGAAGAGT TCGACCTTTT CATGCGTATG GATCTGGACA GGCGAAGAGA GGAAGCCCGT
    AATCCCAAAC GCAAACCTCG CCTCATGGAG GAAGATGAGC TGCCGTCCTG GATCATTAAG
    GACGACGCCG AGGTTGAGCG CCTTACTTGC GAAGAAGAAG AAGAAAAGAT GTTTGGCCGC
    GGCTCCCGTA ACCGCAAGGA GGTGGATTAT AGTGACTCGC TCACGGAAAA GCAGTGGCTG
    AAGGCCATAG AAGAGGGCAC TCTAGAAGAG ATTGAGGAAG AAGTGCGCCA GAAGAAAACC
    ACTCGCAAGA GGAAGAGAGA TATAGACCCT TGCATAGTCA TGCCCACCAC AAGCACACGG
    GGCAGGGAGA GGGATGACGA GGGTAAGAAA CAGAAGAAGA GGGGGCGGCC CCCTGCCGAG
    AAACTTTCCC CAAACCCCCC AAAACTCACA AAGAAAATGA AGAAGATTGT GGATGCCGTC
    ATTAAGTACA AAGACAGTGG AAACGGGCGC CAGCTAAGTG AAGTTTTTAT CCAACTGCCA
    TCCCGTAAGG AACTCCCTGA GTACTACGAG CTGATCCGTA AGCCAGTGGA CTTCAGGAAG
    ATCAAGGAGA GGATCCGAAA CCATAAGTAC CGCAGCCTAA ATGATCTGGA GAAAGACGTC
    ATGCTGCTGT GTCAGAATGC TCAGACCTTC AACCTGGAGG GCTCCTTGAT CTATGAAGAC
    TCGATTGTGC TCCAGTCCGT GTTCACCAGT GTGAGACAGA AGATCGAGAA GGAAGAGGAG
    AGCGAGGGAG AGGAGAGTGA GGAAGAGGAG GACGTGGAAG AAGAAGGCTC AGAGTCTGAG
    TCTCGCTCCG TGAAGGTGAA GATTAAACTG GGTCGCAAGG AGAAGGGGCA GGAGAGGATG
    AAGGGACGCA GGCGGACCGG CCGAGGGTGC AGAGCCAAGC CGGTGATCAG CGATGATGAT
    AGCGAGGAAG AACAAGAAGA GGCCAATGAG CGCTCAGGGA GCGGAAGCGA AGACGACTGA

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

    RefSeq XP_012808560.1
    CDS146..4945
    Translation

    Target ORF information:

    RefSeq Version XM_012953106.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (smarca4), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012953106.2

    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
    ATGTCCACCC CAGACCCTCC AATGGGGGGC ACTCCCCGGC CTGTACCTTC CCCCGGGCCA 
    GGGCCTTCTC CTGGAGCTAT GCTAGGCCCC AGCCCAGGCC CCTCCCCTGG CTCTGCACAC
    AGCATGATGG GACCAAGCCC CGGGCCACCT ATTCCTCCAC AGGGACCTGC TGGGTACCCA
    CCTGAAAATA TGCACCAGAT GCACAAGCCA ATGGATTCCA TTCATGACAA AGCAATCCCT
    GAAGACCCCC GATACAATCA GATGAAGGGT ATGAGCATGA GACCTGCTGC TCACTCTGGG
    ATGGGGCCTC CACCCAGTCC TATGGACCAG CACTCTCAAG GATACCCATC ACCTCTGGGC
    AACTCTGAGC ACGTGCCCAG CCCTGTACCA TCTAATGGTC CTCCCTCTGG CCCTCCGATG
    CCTTCTGGGC CATCAGCGGT GAATATGGAG AACTCGGACC CACAACAGCA GACAAGCCGA
    AGTCCTACTC CCTTCAACCA GAACCAGCTG CACCAGTTGC GGGCTCAGAT AATGGCTTAC
    AAAATGTTAG CCAGGGGGCA AGCTTTACCC GACCACCTTC AGATGGCAGT GCAGGGAAAG
    AGACCCATGC CTGGGATGCA ACAACAGATG CCAACACTAC CTCCACCTGC TGCTTCGGGG
    ACTGGCGCTG GTCCTGCCCC AGGCCCAGTG CCCCCTAACT ACAACAGACC TCATGGAATG
    GCTGGTCCTA CTATGCCACC TCCCGGCCCT TCAGGAGCTC CACCTGGAAT GCCTGGCCAC
    CCTGCTGGTG CTCCACCTAA GCCTTGGCCT GAAGGTCCCA TGGCTAATGC AGCTGCCCCT
    GCCACTGCCC CCCAGAAGCT GATTCCTCCA CAGCCTACTG GCCGCCCTTC CCCTGCCCCT
    CCGGCTGTCC CACCGGCTGC TTCCCCCGTG ATGCCTCCGC AGACACAGTC TCCAGGCCAG
    CCGGCTCAGC CTCCTCCCAT AGTACAGTTT CACCCTAAGC CCAACCGCAT CACTCCCATA
    CAGAAACCGC GAGGCCTGGA TCCTGTGGAG GTGCTACAGG AACGGGAGTA CAGGCTGCAG
    GCGAGAATTG CACACAGGAT CCAGGAACTG GAAAATCTTC CTGGTTCTTT GCCTGGAGAT
    CTAAGGACCA AAGCCACCAT AGAGCTGAAA GCTTTAAGGC TTCTCAATTT TCAGAGACAA
    CTGCGGCAAG AAGTTGTGGT CTGCATGCGG AGGGACACGG CCCTTGAGAC CGCCCTAAAC
    GCAAAGGCCT ACAAACGCAG CAAGCGGCAG TCCCTGCGCG AGGCGCGTAT CACGGAAAAA
    CTGGAAAAGC AGCAGAAGAT TGAGCAGGAG CGCAAGAGGA GACAAAAGCA CCAGGAGTAT
    CTAAACAGCA TCCTCCAACA TGCCAAGGAC TTCAAGGAAT TCCATCGCTC AGTCACAGGG
    AAGATCCAAA AACTGACAAA GGCTGTGGCC ACGTACCATG CCAACACCGA GCGAGAGCAG
    AAGAAGGAGA ATGAAAGGAT TGAGAAGGAG AGAATGCGCA GGCTCATGGC TGAGGATGAG
    GAGGGCTACA GAAAGCTGAT CGATCAGAAG AAAGACAAGC GTCTGGCCTA CCTCCTGCAG
    CAGACGGACG AGTATGTAGC AAATCTGACG GAACTGGTGC GGCAGCACAA GGCAGTGCAA
    GCCCTCAAAG AAAAGAAGAG AAGGAAAAAG AAAAAGGTGC AAGAGATCAC AGAAGGCCAG
    CAATCGGCAC TTGGACCTGA TGGAGAGCCA CTGGATGAGA CCAGCCAGAT GAGCGACCTC
    CCAATCAAAG TGATCCATGT GGAAAGCGGA AAGATCTTGA CGGGTGCTGA TGCGCCAAAG
    GCTGGGCAGC TGGAGGCATG GCTTGAAATG AACCCTGGGT ATGAAGTTGC ACCACGGTCC
    GATACCGAGG AGAGTGAATC AGAGGATGAG GAAGAGGAAG AAGATGAACA ACAGCAGCCT
    TCAGTCACTT CCCTGCTGGC TGTGGACGAG ACTAAAAAAA TTGCTGATCC AGACAGCGAC
    GATGTGTCTG AGGTGCATGC ACGGGAAATA ATAGATAATG CCCGACAGGA TGTGGATGAC
    GAGTACGGTA TATCACATGC TGAGACCAGT GGCCTCCAGT CTTACTATGC AGTGGCGCAC
    GCAGTAAGTG AGAAGGTGGA CAAGCAGTCA ACCCTGTTGG TTAACGGCAT CCTGAAACAG
    TATCAGATTA AGGGCCTGGA GTGGCTGGTC TCCCTGTACA ACAATAACTT GAATGGGATC
    CTTGCCGATG AGATGGGTCT GGGAAAGACT ATTCAGACCA TTGCTCTGAT TACATACCTC
    ATGGAACACA AGCGCATCAA CGGGCCTTTC CTCATCATTG TGCCACTGTC GACTTTATCC
    AACTGGGTTT ATGAGTTTGA CAAGTGGGGT CCGTCGGTGG TGAAAGTCTC CTACAAGGGC
    TCTCCTGCTG CTCGCCGCGC TTTTGTTCCA ATGCTCCGCA GCGGGAAATT CAACGTCCTC
    CTCACTACAT ACGAATACAT CATTAAGGAT AAGCACATAC TAGCCAAGAT CCGTTGGAAG
    TATATGATTG TGGATGAAGG TCATCGAATG AAGAACCATC ACTGCAAGCT GACGCAAGTC
    CTGAACACAC ACTACGTAGC CCCCCGGCGC GTGCTTCTCA CCGGTACCCC GCTGCAGAAC
    AAGCTTCCTG AGCTGTGGGC TCTTCTCAAC TTCCTGCTCC CCACTATATT CAAGAGCTGC
    AGCACTTTTG AGCAGTGGTT TAATGCCCCC TTTGCCATGA CTGGAGAGAA GGTGGATCTA
    AACGAGGAAG AAACAATCCT AATTATCCGC CGTCTCCATA AAGTCCTTCG TCCCTTCTTG
    CTCCGGCGAC TTAAAAAAGA AGTGGAAGCT CAACTGCCCG AAAAGGTGGA ATATGTTATC
    AAGTGCGACA TGTCGTCATT ACAGCGCGTT CTGTACAGGC ACATGCAGGC CAAAGGGGTG
    CTGCTCACAG ACGGCTCTGA GAAGGATAAA AAGGGCAAGG GAGGCACCAA GACCCTCATG
    AACACTATTA TGCAGCTAAG GAAGATCTGT AACCATCCGT ACATGTTCCA GCACATAGAG
    GAGTCATTTT CTGAACACTT GGGATTCTCG GGAGGAATTG TACAGGGGGC AGACCTCTAC
    CGGGCATCTG GGAAGTTTGA GCTCTTAGAT CGGATACTGC CCAAGTTGAG AGCCACCCAG
    CACAAGGTCC TGCTCTTTTG CCAGATGACC ACCCTCATGA CGATCATGGA AGATTATTTT
    GCTTATCGTG GCTTTAAATA CCTCCGATTG GACGGCACCA CCAAGGCAGA AGATCGTGGC
    ATGTTACTAA AAACATTTAA CGAGTCCAGT TCTGAATACT TTATCTTCCT GCTCAGCACA
    CGTGCTGGGG GTCTGGGCTT GAACCTTCAG TCGGCAGACA CTGTTATCAT ATTCGATAGT
    GACTGGAACC CACATCAGGA TTTGCAGGCT CAGGACCGAG CTCACCGAAT CGGGCAGCAG
    AACGAGGTGC GAGTGCTGCG CTTGTGCACT GTGAACAGCG TGGAGGAAAA GATCCTGGCC
    GCCGCCAAGT ATAAGCTAAA CGTGGATCAG AAAGTTATCC AGGCCGGGAT GTTCGACCAA
    AAATCCTCCA GCCATGAGCG CAAGGTCTTC CTGCAGGCCA TTCTAGAGCA TGAAGAACAA
    GATGAGGAGG AAGATGAGGT GCCAGACGAT GAGACTGTGA ATCAGATGAT CGCTCGACAC
    GAGGAAGAGT TCGACCTTTT CATGCGTATG GATCTGGACA GGCGAAGAGA GGAAGCCCGT
    AATCCCAAAC GCAAACCTCG CCTCATGGAG GAAGATGAGC TGCCGTCCTG GATCATTAAG
    GACGACGCCG AGGTTGAGCG CCTTACTTGC GAAGAAGAAG AAGAAAAGAT GTTTGGCCGC
    GGCTCCCGTA ACCGCAAGGA GGTGGATTAT AGTGACTCGC TCACGGAAAA GCAGTGGCTG
    AAGGCCATAG AAGAGGGCAC TCTAGAAGAG ATTGAGGAAG AAGTGCGCCA GAAGAAAACC
    ACTCGCAAGA GGAAGAGAGA TATAGACCCT TGCATAGTCA TGCCCACCAC AAGCACACGG
    GGCAGGGAGA GGGATGACGA GGGTAAGAAA CAGAAGAAGA GGGGGCGGCC CCCTGCCGAG
    AAACTTTCCC CAAACCCCCC AAAACTCACA AAGAAAATGA AGAAGATTGT GGATGCCGTC
    ATTAAGTACA AAGACAGTGG AAACGGGCGC CAGCTAAGTG AAGTTTTTAT CCAACTGCCA
    TCCCGTAAGG AACTCCCTGA GTACTACGAG CTGATCCGTA AGCCAGTGGA CTTCAGGAAG
    ATCAAGGAGA GGATCCGAAA CCATAAGTAC CGCAGCCTAA ATGATCTGGA GAAAGACGTC
    ATGCTGCTGT GTCAGAATGC TCAGACCTTC AACCTGGAGG GCTCCTTGAT CTATGAAGAC
    TCGATTGTGC TCCAGTCCGT GTTCACCAGT GTGAGACAGA AGATCGAGAA GGAAGAGGAG
    AGCGAGGGAG AGGAGAGTGA GGAAGAGGAG GACGTGGAAG AAGAAGGCTC AGAGTCTGAG
    TCTCGCTCCG TGAAGGTGAA GATTAAACTG GGTCGCAAGG AGAAGGGGCA GGAGAGGATG
    AAGGGACGCA GGCGGACCGG CCGAGGGTGC AGAGCCAAGC CGGTGATCAG CGATGATGAT
    AGCGAGGAAG AACAAGAAGA GGCCAATGAG CGCTCAGGGA GCGGAAGCGA AGACGACTGA

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