ORF » Species Summary » Taeniopygia guttata » SMARCA2 cDNA ORF clone

SMARCA2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following SMARCA2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMARCA2 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
OTd53647 XM_030258821.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $139.30
$199.00
OTd53646 XM_030258820.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd13370 XM_004177169.2
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OTd53644 XM_030258816.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd53644 XM_030258819.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd53644 XM_030258818.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd53644 XM_004177169.3
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd53644 XM_030258815.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd53645 XM_030258814.1
Latest version!		 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    SMARCA2 ( XM_030258821.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114681.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OTd53647
    Clone ID Related Accession (Same CDS sequence) XM_030258821.1
    Accession Version XM_030258821.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 831bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGAAGAGAC TAGCAGCTCG CTGCTTTGCT GGCTTGTTAA TTTTATCCCC ACTAACTGTG 
    ATTTCCGATA GCCGGCCTGC TGATAGTGGT AAGGCAATTG AAGACGGCAA TTTGGAAGAA 
    ATGGAAGAGG AAGTCCGGCT TAAAAAGCGA AAGAGACGAA GAAACGTGGA TAAGGACTCT 
    GGGAAGGAGG ATGGAGAAAA AGCAAAGAAA AGAAGAGGCA GACCTCCTGC AGAGAAGTTG 
    TCACCCAATC CACCCAAACT GACAAAACAA ATGAATGCCA TCATTGATAC TGTGATAAAC 
    TACAAGGACA GTTCAGGACG GCAGCTAAGT GAAGTATTCA TACAGCTGCC ATCTAGGAAA 
    GAACTACCAG AGTATTATGA ATTGATTAGG AAACCAGTGG ACTTCAAAAA GATAAAGGAA 
    AGAATTCGCA ACCATAAATA TCGGAGTCTT GGGGATTTGG AAAAAGATGT CATGCTGCTG 
    TGTCACAATG CACAGACATT CAACTTGGAG GGATCTCAGA TCTATGAGGA TTCCATTGTT 
    CTTCAGTCTG TGTTCAAAAG TGCACGACAG AAGATAGCCA AAGAAGAAGA AAGTGAGGAT 
    GAAAGCAATG ATGATGAAGA AGAAGATGAG GAAGAAGAAT CGGAATCAGA ATCAAAATCA 
    GTGAAAGTCA AAATCAAGTT AAATAAGAAG GATGAAAAAA GTCGAGAGAA AGGAAAAGGC 
    AAGAAGAGGC AAAGCAGAGC AAAAGCCAAG CCTGTCGTGA GTGATGATGA TAGTGATGAG 
    GATCAAGATG AAAATGACCA GTCGGAAGCA AGCGGAAGTG ATGATGAGTG A

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

    RefSeq XP_030114681.1
    CDS16..846
    Translation

    Target ORF information:

    RefSeq Version XM_030258821.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258821.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    ATGAAGAGAC TAGCAGCTCG CTGCTTTGCT GGCTTGTTAA TTTTATCCCC ACTAACTGTG 
    ATTTCCGATA GCCGGCCTGC TGATAGTGGT AAGGCAATTG AAGACGGCAA TTTGGAAGAA 
    ATGGAAGAGG AAGTCCGGCT TAAAAAGCGA AAGAGACGAA GAAACGTGGA TAAGGACTCT 
    GGGAAGGAGG ATGGAGAAAA AGCAAAGAAA AGAAGAGGCA GACCTCCTGC AGAGAAGTTG 
    TCACCCAATC CACCCAAACT GACAAAACAA ATGAATGCCA TCATTGATAC TGTGATAAAC 
    TACAAGGACA GTTCAGGACG GCAGCTAAGT GAAGTATTCA TACAGCTGCC ATCTAGGAAA 
    GAACTACCAG AGTATTATGA ATTGATTAGG AAACCAGTGG ACTTCAAAAA GATAAAGGAA 
    AGAATTCGCA ACCATAAATA TCGGAGTCTT GGGGATTTGG AAAAAGATGT CATGCTGCTG 
    TGTCACAATG CACAGACATT CAACTTGGAG GGATCTCAGA TCTATGAGGA TTCCATTGTT 
    CTTCAGTCTG TGTTCAAAAG TGCACGACAG AAGATAGCCA AAGAAGAAGA AAGTGAGGAT 
    GAAAGCAATG ATGATGAAGA AGAAGATGAG GAAGAAGAAT CGGAATCAGA ATCAAAATCA 
    GTGAAAGTCA AAATCAAGTT AAATAAGAAG GATGAAAAAA GTCGAGAGAA AGGAAAAGGC 
    AAGAAGAGGC AAAGCAGAGC AAAAGCCAAG CCTGTCGTGA GTGATGATGA TAGTGATGAG 
    GATCAAGATG AAAATGACCA GTCGGAAGCA AGCGGAAGTG ATGATGAGTG A

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

    SMARCA2 ( XM_030258820.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114680.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OTd53646
    Clone ID Related Accession (Same CDS sequence) XM_030258820.1
    Accession Version XM_030258820.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4455bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGGTTGAAG ATGTTCATTG TGGCTCCATG AAGAGTATGC GACCTCCTCA TCCTGGAATG 
    GGTCCACCTC AGAGTCCAAT GGACCAGCAT AGCCAAGGTT ATATTTCTCC ACACCCATCT 
    CCACTAGGAG CACCAGAGCA TGTGTCCAGT CCAATGTCTG GAGGAGGTCC AACACCACCT 
    CAGATGACTC CCAGTCAGCC AGGACCCATT ATAGCAGGAG ACCCACAAGT TATGAATCAG 
    CCTAACAGAG GGCCTTCCCC CTTCAGCCCT GCACAGTTGC ATCAGCTGCG GGCTCAGATT 
    CTAGCATACA AAATGCTGGC TAGGGGTCAG CCCTTACCAG AGAACCTCCA GCTTGCTGTC 
    CAGGGCAAGA GAACACTGCC TGGTATTCAA CAGCAGCAGC CTCCCGGTGC CTTCAACAGG 
    CAGTCTGGTA TTGGATTACA TGCAATGAGT GGTACTGCTG CTGGACCAGG GGCTGCACCA 
    GGGATGCCTG GACATACAAC TGCCATTACC CCTAAAACAT GGACTGAAGG CCAAGCCCCA 
    GATATGAACG TCTCCAATGC ACAGCAAAAG CTTCCAGCGC CAGCTCCTAG TGGGAGGCCT 
    TCTCCTGCTC CTGCTGCCAC CCAGCCTGCT GCCACCATGC CTGGGCCCTC TGTACCACAG 
    CCCCCACCTG GACAGCCTTC ACCCATTGTC CAGCTGCAGC AGAAGCAGAA CCGCATCAGC 
    CCTATCCAGA AGCCACAAGG ACTGGATCCT GTTGAAATAC TCCAAGAACG TGAATATAGA 
    CTTCAGGCTC GAATTGCTCA CAGAATCCAG GAACTGGAGA ATTTGCCTGG TTCTCTGCCC 
    CCTGATCTGC GGACCAAAGC TACAGTGGAA TTGAAGGCAC TTAGGTTACT GAATTTCCAA 
    CGCCAGTTAA GACAAGAGGT AGTAGCCTGC ATGCGTCGTG ACACAACACT GGAGACGGCA 
    CTGAACTCCA AAGCCTACAA ACGAAGCAAG CGCCAGACTT TGAGAGAGGC TCGTATGACA 
    GAAAAGCTTG AAAAACAGCA GAAGATAGAG CAGGAGAGGA AGCGTAGGCA GAAGCACCAG 
    GAATACCTGA ATAGCATATT GCAGCATGCT AAAGATTTTA AAGAGTACCA CCGGTCAGTC 
    GCTGGGAAAA TTCAGAAACT TTCTAAAGCT GTGGCAACTT GGCATGCCAA CACTGAACGT 
    GAGCAGAAAA AAGAAACTGA GAGAATTGAG AAAGAAAGAA TGAGGAGACT AATGGCCGAA 
    GATGAAGAAG GCTACCGTAA GCTGATTGAT CAAAAGAAAG ACAGACGCCT GGCCTACCTG 
    TTGCAGCAGA CAGATGAGTA TGTGGCTAAC TTGACTAACC TGGTATGGGA GCATAAACAG 
    GCACAAGCAG CCAAAGAGAA GAAGAAGCGA AGGAGAAGAA AGAAGAAAGC TGAAGAAAAT 
    GCAGAAGGAA TGGCATCTGG TCTTGGTCCC GATGGAGAGC CCATAGATGA GAGCAGTCAG 
    ATGAGTGACC TTCCAGTCAA AGTTACTCAC ACTGAAACAG GCAAAGTTCT TCTTGGACCA 
    GAAGCACCCA AAGCAAGTCA GCTGGATGCT TGGCTGGAAA TGAACCCTGG CTATGAAGTT 
    GCTCCCAGAT CAGACAGTGA AGATGAAAGT GGCTCTGAAT ATGAGGAGGA GGATGAGGAA 
    GAAGAATCAA GCAAATTAGA GACAGATGAG AAGATACTCC TGGATCCTAA CAGTGAGGAA 
    GTTTCTGAGA AGGATGCAAA GCAAATCATT GAGACAGCCA AACAAGATGT AGATGATGAA 
    TATAGCATGC AATATAGTGC CAGAGGGTCT CAGTCCTACT ACACTGTTGC TCATGCTATC 
    ACTGAAAGGG TGGAAAAGCA GTCTTCCCTG CTTATTAACG GCACATTAAA ACATTATCAG 
    CTCCAGGGAC TGGAGTGGAT GGTTTCTCTC TATAATAACA ATCTGAATGG AATTTTAGCA 
    GATGAAATGG GACTAGGAAA GACAATACAA ACTATTGCTC TCATCACTTA CCTGATGGAG 
    CACAAAAGAC TCAATGGCCC CTATCTCATC ATTGTTCCCT TGTCGACTTT ATCCAATTGG 
    ACATATGAAT TTGACAAATG GGCTCCTTCT GTGGTGAAGA TATCTTACAA GGGTACACCT 
    GCAATGCGCC GCTCACTTGT TCCTCAGCTT CGAAGTGGAA AATTTAATGT TCTTTTAACT 
    ACTTACGAGT ACATAATAAA GGACAAACAT ATCCTTGCTA AGATTCGGTG GAAGTACATG 
    ATAGTAGATG AGGGCCATCG AATGAAGAAC CATCACTGCA AGCTGACTCA GGTCTTGAAT 
    ACTCACTATG TGGCCCCTCG GCGAATCCTG CTGACTGGGA CTCCTTTGCA GAACAAATTG 
    CCTGAACTTT GGGCTCTTCT CAATTTCCTT CTTCCAACCA TTTTCAAGAG TTGCAGCACC 
    TTTGAACAGT GGTTCAATGC TCCATTTGCC ATGACTGGAG AAAGGGTGGA TTTAAATGAG 
    GAAGAAACTA TTCTGATCAT CCGTCGTCTC CATAAAGTGC TTCGGCCATT CTTGCTGAGA 
    AGACTGAAGA AGGAGGTTGA GTCTCAGCTG CCGGAAAAGG TGGAATATGT GATCAAGTGT 
    GATATGTCAG CTCTTCAAAA GATCCTGTAC CGTCACATGC AAGCCAAGGG AATCCTGCTC 
    ACGGATGGTT CTGAAAAAGA CAAGAAGGGA AAAGGCGGAG CAAAAACTCT TATGAACACT 
    ATCATGCAAT TGAGAAAGAT ATGCAATCAC CCATACATGT TTCAACACAT TGAGGAGTCC 
    TTCGCTGAAC ATCTGGGCTA CTCAAATGGT GTCATTAATG GAGCTGAACT TTATCGGGCC 
    TCAGGGAAGT TTGAACTACT CGATCGTATT CTACCAAAGT TAAGAGCTAC TAACCATCGT 
    GTGCTTCTTT TCTGTCAAAT GACATCACTC ATGACCATTA TGGAAGACTA CTTTGCATTT 
    CGAAATTTCC TTTACCTGCG TCTTGATGGC ACAACAAAAT CAGAGGATCG AGCTGCTCTG 
    TTGAAGAAGT TCAATGAACC TGGATCACAG TACTTTATCT TCTTGCTGAG TACAAGGGCT 
    GGAGGGCTAG GCTTAAATCT CCAGGCTGCT GACACTGTTA TAATCTTTGA TAGTGACTGG 
    AATCCTCATC AGGACTTGCA GGCCCAGGAT AGAGCTCACC GAATTGGTCA GCAGAATGAA 
    GTTAGAGTCC TGCGACTGTG CACTGTGAAC AGTGTGGAAG AGAAGATACT TGCTGCGGCA 
    AAGTATAAGC TGAATGTAGA TCAAAAAGTT ATTCAGGCAG GAATGTTTGA TCAGAAATCT 
    TCAAGCCATG AAAGGAGAGC ATTCCTCCAA GCTATACTGG AGCATGAAGA AGAAAATGAG 
    GAAGAAGATG AAGTTCCTGA TGATGAGACA CTGAATCAGA TGATTGCTCG ACGTGAGGAG 
    GAATTTGATC TCTTTATGCG CATGGATATG GATCGTCGCA GAGAGGATGC CAGAAACCCT 
    AAACGTAAAC CTCGCTTGAT GGAGGAGGAT GAATTACCAT CCTGGATTAT TAAGGATGAT 
    GCTGAAGTTG AAAGGCTTAC ATGTGAAGAA GAGGAAGAGA AAATATTTGG AAGAGGATCC 
    CGTCAGCGCA GGGATGTGGA CTACAGTGAT GCTCTCACAG AGAAACAGTG GCTGCGGGCA 
    ATTGAAGACG GCAATTTGGA AGAAATGGAA GAGGAAGTCC GGCTTAAAAA GCGAAAGAGA 
    CGAAGAAACG TGGATAAGGA CTCTGGGAAG GAGGATGGAG AAAAAGCAAA GAAAAGAAGA 
    GGCAGACCTC CTGCAGAGAA GTTGTCACCC AATCCACCCA AACTGACAAA ACAAATGAAT 
    GCCATCATTG ATACTGTGAT AAACTACAAG GACAGTTCAG GACGGCAGCT AAGTGAAGTA 
    TTCATACAGC TGCCATCTAG GAAAGAACTA CCAGAGTATT ATGAATTGAT TAGGAAACCA 
    GTGGACTTCA AAAAGATAAA GGAAAGAATT CGCAACCATA AATATCGGAG TCTTGGGGAT 
    TTGGAAAAAG ATGTCATGCT GCTGTGTCAC AATGCACAGA CATTCAACTT GGAGGGATCT 
    CAGATCTATG AGGATTCCAT TGTTCTTCAG TCTGTGTTCA AAAGTGCACG ACAGAAGATA 
    GCCAAAGAAG AAGAAAGTGA GGATGAAAGC AATGATGATG AAGAAGAAGA TGAGGAAGAA 
    GAATCGGAAT CAGAATCAAA ATCAGTGAAA GTCAAAATCA AGTTAAATAA GAAGGATGAA 
    AAAAGTCGAG AGAAAGGAAA AGGCAAGAAG AGGCAAAGCA GAGCAAAAGC CAAGCCTGTC 
    GTGAGTGATG ATGATAGTGA TGAGGATCAA GATGAAAATG ACCAGTCGGA AGCAAGCGGA 
    AGTGATGATG AGTGA

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

    RefSeq XP_030114680.1
    CDS200..4654
    Translation

    Target ORF information:

    RefSeq Version XM_030258820.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258820.1

    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
    ATGGTTGAAG ATGTTCATTG TGGCTCCATG AAGAGTATGC GACCTCCTCA TCCTGGAATG 
    GGTCCACCTC AGAGTCCAAT GGACCAGCAT AGCCAAGGTT ATATTTCTCC ACACCCATCT 
    CCACTAGGAG CACCAGAGCA TGTGTCCAGT CCAATGTCTG GAGGAGGTCC AACACCACCT 
    CAGATGACTC CCAGTCAGCC AGGACCCATT ATAGCAGGAG ACCCACAAGT TATGAATCAG 
    CCTAACAGAG GGCCTTCCCC CTTCAGCCCT GCACAGTTGC ATCAGCTGCG GGCTCAGATT 
    CTAGCATACA AAATGCTGGC TAGGGGTCAG CCCTTACCAG AGAACCTCCA GCTTGCTGTC 
    CAGGGCAAGA GAACACTGCC TGGTATTCAA CAGCAGCAGC CTCCCGGTGC CTTCAACAGG 
    CAGTCTGGTA TTGGATTACA TGCAATGAGT GGTACTGCTG CTGGACCAGG GGCTGCACCA 
    GGGATGCCTG GACATACAAC TGCCATTACC CCTAAAACAT GGACTGAAGG CCAAGCCCCA 
    GATATGAACG TCTCCAATGC ACAGCAAAAG CTTCCAGCGC CAGCTCCTAG TGGGAGGCCT 
    TCTCCTGCTC CTGCTGCCAC CCAGCCTGCT GCCACCATGC CTGGGCCCTC TGTACCACAG 
    CCCCCACCTG GACAGCCTTC ACCCATTGTC CAGCTGCAGC AGAAGCAGAA CCGCATCAGC 
    CCTATCCAGA AGCCACAAGG ACTGGATCCT GTTGAAATAC TCCAAGAACG TGAATATAGA 
    CTTCAGGCTC GAATTGCTCA CAGAATCCAG GAACTGGAGA ATTTGCCTGG TTCTCTGCCC 
    CCTGATCTGC GGACCAAAGC TACAGTGGAA TTGAAGGCAC TTAGGTTACT GAATTTCCAA 
    CGCCAGTTAA GACAAGAGGT AGTAGCCTGC ATGCGTCGTG ACACAACACT GGAGACGGCA 
    CTGAACTCCA AAGCCTACAA ACGAAGCAAG CGCCAGACTT TGAGAGAGGC TCGTATGACA 
    GAAAAGCTTG AAAAACAGCA GAAGATAGAG CAGGAGAGGA AGCGTAGGCA GAAGCACCAG 
    GAATACCTGA ATAGCATATT GCAGCATGCT AAAGATTTTA AAGAGTACCA CCGGTCAGTC 
    GCTGGGAAAA TTCAGAAACT TTCTAAAGCT GTGGCAACTT GGCATGCCAA CACTGAACGT 
    GAGCAGAAAA AAGAAACTGA GAGAATTGAG AAAGAAAGAA TGAGGAGACT AATGGCCGAA 
    GATGAAGAAG GCTACCGTAA GCTGATTGAT CAAAAGAAAG ACAGACGCCT GGCCTACCTG 
    TTGCAGCAGA CAGATGAGTA TGTGGCTAAC TTGACTAACC TGGTATGGGA GCATAAACAG 
    GCACAAGCAG CCAAAGAGAA GAAGAAGCGA AGGAGAAGAA AGAAGAAAGC TGAAGAAAAT 
    GCAGAAGGAA TGGCATCTGG TCTTGGTCCC GATGGAGAGC CCATAGATGA GAGCAGTCAG 
    ATGAGTGACC TTCCAGTCAA AGTTACTCAC ACTGAAACAG GCAAAGTTCT TCTTGGACCA 
    GAAGCACCCA AAGCAAGTCA GCTGGATGCT TGGCTGGAAA TGAACCCTGG CTATGAAGTT 
    GCTCCCAGAT CAGACAGTGA AGATGAAAGT GGCTCTGAAT ATGAGGAGGA GGATGAGGAA 
    GAAGAATCAA GCAAATTAGA GACAGATGAG AAGATACTCC TGGATCCTAA CAGTGAGGAA 
    GTTTCTGAGA AGGATGCAAA GCAAATCATT GAGACAGCCA AACAAGATGT AGATGATGAA 
    TATAGCATGC AATATAGTGC CAGAGGGTCT CAGTCCTACT ACACTGTTGC TCATGCTATC 
    ACTGAAAGGG TGGAAAAGCA GTCTTCCCTG CTTATTAACG GCACATTAAA ACATTATCAG 
    CTCCAGGGAC TGGAGTGGAT GGTTTCTCTC TATAATAACA ATCTGAATGG AATTTTAGCA 
    GATGAAATGG GACTAGGAAA GACAATACAA ACTATTGCTC TCATCACTTA CCTGATGGAG 
    CACAAAAGAC TCAATGGCCC CTATCTCATC ATTGTTCCCT TGTCGACTTT ATCCAATTGG 
    ACATATGAAT TTGACAAATG GGCTCCTTCT GTGGTGAAGA TATCTTACAA GGGTACACCT 
    GCAATGCGCC GCTCACTTGT TCCTCAGCTT CGAAGTGGAA AATTTAATGT TCTTTTAACT 
    ACTTACGAGT ACATAATAAA GGACAAACAT ATCCTTGCTA AGATTCGGTG GAAGTACATG 
    ATAGTAGATG AGGGCCATCG AATGAAGAAC CATCACTGCA AGCTGACTCA GGTCTTGAAT 
    ACTCACTATG TGGCCCCTCG GCGAATCCTG CTGACTGGGA CTCCTTTGCA GAACAAATTG 
    CCTGAACTTT GGGCTCTTCT CAATTTCCTT CTTCCAACCA TTTTCAAGAG TTGCAGCACC 
    TTTGAACAGT GGTTCAATGC TCCATTTGCC ATGACTGGAG AAAGGGTGGA TTTAAATGAG 
    GAAGAAACTA TTCTGATCAT CCGTCGTCTC CATAAAGTGC TTCGGCCATT CTTGCTGAGA 
    AGACTGAAGA AGGAGGTTGA GTCTCAGCTG CCGGAAAAGG TGGAATATGT GATCAAGTGT 
    GATATGTCAG CTCTTCAAAA GATCCTGTAC CGTCACATGC AAGCCAAGGG AATCCTGCTC 
    ACGGATGGTT CTGAAAAAGA CAAGAAGGGA AAAGGCGGAG CAAAAACTCT TATGAACACT 
    ATCATGCAAT TGAGAAAGAT ATGCAATCAC CCATACATGT TTCAACACAT TGAGGAGTCC 
    TTCGCTGAAC ATCTGGGCTA CTCAAATGGT GTCATTAATG GAGCTGAACT TTATCGGGCC 
    TCAGGGAAGT TTGAACTACT CGATCGTATT CTACCAAAGT TAAGAGCTAC TAACCATCGT 
    GTGCTTCTTT TCTGTCAAAT GACATCACTC ATGACCATTA TGGAAGACTA CTTTGCATTT 
    CGAAATTTCC TTTACCTGCG TCTTGATGGC ACAACAAAAT CAGAGGATCG AGCTGCTCTG 
    TTGAAGAAGT TCAATGAACC TGGATCACAG TACTTTATCT TCTTGCTGAG TACAAGGGCT 
    GGAGGGCTAG GCTTAAATCT CCAGGCTGCT GACACTGTTA TAATCTTTGA TAGTGACTGG 
    AATCCTCATC AGGACTTGCA GGCCCAGGAT AGAGCTCACC GAATTGGTCA GCAGAATGAA 
    GTTAGAGTCC TGCGACTGTG CACTGTGAAC AGTGTGGAAG AGAAGATACT TGCTGCGGCA 
    AAGTATAAGC TGAATGTAGA TCAAAAAGTT ATTCAGGCAG GAATGTTTGA TCAGAAATCT 
    TCAAGCCATG AAAGGAGAGC ATTCCTCCAA GCTATACTGG AGCATGAAGA AGAAAATGAG 
    GAAGAAGATG AAGTTCCTGA TGATGAGACA CTGAATCAGA TGATTGCTCG ACGTGAGGAG 
    GAATTTGATC TCTTTATGCG CATGGATATG GATCGTCGCA GAGAGGATGC CAGAAACCCT 
    AAACGTAAAC CTCGCTTGAT GGAGGAGGAT GAATTACCAT CCTGGATTAT TAAGGATGAT 
    GCTGAAGTTG AAAGGCTTAC ATGTGAAGAA GAGGAAGAGA AAATATTTGG AAGAGGATCC 
    CGTCAGCGCA GGGATGTGGA CTACAGTGAT GCTCTCACAG AGAAACAGTG GCTGCGGGCA 
    ATTGAAGACG GCAATTTGGA AGAAATGGAA GAGGAAGTCC GGCTTAAAAA GCGAAAGAGA 
    CGAAGAAACG TGGATAAGGA CTCTGGGAAG GAGGATGGAG AAAAAGCAAA GAAAAGAAGA 
    GGCAGACCTC CTGCAGAGAA GTTGTCACCC AATCCACCCA AACTGACAAA ACAAATGAAT 
    GCCATCATTG ATACTGTGAT AAACTACAAG GACAGTTCAG GACGGCAGCT AAGTGAAGTA 
    TTCATACAGC TGCCATCTAG GAAAGAACTA CCAGAGTATT ATGAATTGAT TAGGAAACCA 
    GTGGACTTCA AAAAGATAAA GGAAAGAATT CGCAACCATA AATATCGGAG TCTTGGGGAT 
    TTGGAAAAAG ATGTCATGCT GCTGTGTCAC AATGCACAGA CATTCAACTT GGAGGGATCT 
    CAGATCTATG AGGATTCCAT TGTTCTTCAG TCTGTGTTCA AAAGTGCACG ACAGAAGATA 
    GCCAAAGAAG AAGAAAGTGA GGATGAAAGC AATGATGATG AAGAAGAAGA TGAGGAAGAA 
    GAATCGGAAT CAGAATCAAA ATCAGTGAAA GTCAAAATCA AGTTAAATAA GAAGGATGAA 
    AAAAGTCGAG AGAAAGGAAA AGGCAAGAAG AGGCAAAGCA GAGCAAAAGC CAAGCCTGTC 
    GTGAGTGATG ATGATAGTGA TGAGGATCAA GATGAAAATG ACCAGTCGGA AGCAAGCGGA 
    AGTGATGATG AGTGA

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

    SMARCA2 ( XM_004177169.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004177217.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), mRNA.
    Price & Availability↑
    CloneID OTd13370
    Clone ID Related Accession (Same CDS sequence) XM_004177169.2
    Accession Version XM_004177169.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    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 2015-05-25
    Organism Taeniopygia guttata(zebra finch)
    Product LOW QUALITY PROTEIN: probable global transcription activator SNF2L2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234472.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_004177169.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    NCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_004177217.1
    CDS39..4745
    Translation

    Target ORF information:

    RefSeq Version XM_004177169.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004177169.2

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    NCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_004177169.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004177217.2 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd53644
    Clone ID Related Accession (Same CDS sequence) XM_004177169.3 , XM_030258818.1 , XM_030258815.1 , XM_030258816.1 , XM_030258819.1
    Accession Version XM_004177169.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_004177169.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_004177217.2
    CDS1..4707
    Translation

    Target ORF information:

    RefSeq Version XM_004177169.3
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004177169.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_030258818.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114678.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OTd53644
    Clone ID Related Accession (Same CDS sequence) XM_004177169.3 , XM_030258818.1 , XM_030258815.1 , XM_030258816.1 , XM_030258819.1
    Accession Version XM_030258818.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_030114678.1
    CDS97..4803
    Translation

    Target ORF information:

    RefSeq Version XM_030258818.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258818.1

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_030258815.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114675.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd53644
    Clone ID Related Accession (Same CDS sequence) XM_004177169.3 , XM_030258818.1 , XM_030258815.1 , XM_030258816.1 , XM_030258819.1
    Accession Version XM_030258815.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_030114675.1
    CDS205..4911
    Translation

    Target ORF information:

    RefSeq Version XM_030258815.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258815.1

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_030258816.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114676.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OTd53644
    Clone ID Related Accession (Same CDS sequence) XM_004177169.3 , XM_030258818.1 , XM_030258815.1 , XM_030258816.1 , XM_030258819.1
    Accession Version XM_030258816.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_030114676.1
    CDS286..4992
    Translation

    Target ORF information:

    RefSeq Version XM_030258816.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258816.1

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_030258819.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114679.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OTd53644
    Clone ID Related Accession (Same CDS sequence) XM_004177169.3 , XM_030258818.1 , XM_030258815.1 , XM_030258816.1 , XM_030258819.1
    Accession Version XM_030258819.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4707bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    RefSeq XP_030114679.1
    CDS156..4862
    Translation

    Target ORF information:

    RefSeq Version XM_030258819.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258819.1

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGACCAGTCG 
    GAAGCAAGCG GAAGTGATGA TGAGTGA

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

    SMARCA2 ( XM_030258814.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030114674.1 Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd53645
    Clone ID Related Accession (Same CDS sequence) XM_030258814.1
    Accession Version XM_030258814.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4689bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product probable global transcription activator SNF2L2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGTAAGTTTT 
    GTTCAGTGA

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

    RefSeq XP_030114674.1
    CDS188..4876
    Translation

    Target ORF information:

    RefSeq Version XM_030258814.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 (SMARCA2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030258814.1

    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
    ATGTCCACGC CTACAGATCC TGGCACCATG CCTCATCCTG GTCCTTCCCC TGGACCAGGA 
    CCTTCGCCTG GACCGATTCT GGGACCTAGC CCAGGACCAG GGCCGTCTCC TGGTTCCGTT 
    CACAGCATGA TGGGGCCAAG TCCTGGTCCG CCCAGTGTCC CACATCCAAT GCCAACAATG 
    GGGCCTACAG ATTATCCACA GGAAGGCATG CATCAAATGC ATAAGTCTAT TGATGGCTTG 
    CATGAAAAAG GAATGGTTGA AGATGTTCAT TGTGGCTCCA TGAAGAGTAT GCGACCTCCT 
    CATCCTGGAA TGGGTCCACC TCAGAGTCCA ATGGACCAGC ATAGCCAAGG TTATATTTCT 
    CCACACCCAT CTCCACTAGG AGCACCAGAG CATGTGTCCA GTCCAATGTC TGGAGGAGGT 
    CCAACACCAC CTCAGATGAC TCCCAGTCAG CCAGGACCCA TTATAGCAGG AGACCCACAA 
    GTTATGAATC AGCCTAACAG AGGGCCTTCC CCCTTCAGCC CTGCACAGTT GCATCAGCTG 
    CGGGCTCAGA TTCTAGCATA CAAAATGCTG GCTAGGGGTC AGCCCTTACC AGAGAACCTC 
    CAGCTTGCTG TCCAGGGCAA GAGAACACTG CCTGGTATTC AACAGCAGCA GCCTCCCGGT 
    GCCTTCAACA GGCAGTCTGG TATTGGATTA CATGCAATGA GTGGTACTGC TGCTGGACCA 
    GGGGCTGCAC CAGGGATGCC TGGACATACA ACTGCCATTA CCCCTAAAAC ATGGACTGAA 
    GGCCAAGCCC CAGATATGAA CGTCTCCAAT GCACAGCAAA AGCTTCCAGC GCCAGCTCCT 
    AGTGGGAGGC CTTCTCCTGC TCCTGCTGCC ACCCAGCCTG CTGCCACCAT GCCTGGGCCC 
    TCTGTACCAC AGCCCCCACC TGGACAGCCT TCACCCATTG TCCAGCTGCA GCAGAAGCAG 
    AACCGCATCA GCCCTATCCA GAAGCCACAA GGACTGGATC CTGTTGAAAT ACTCCAAGAA 
    CGTGAATATA GACTTCAGGC TCGAATTGCT CACAGAATCC AGGAACTGGA GAATTTGCCT 
    GGTTCTCTGC CCCCTGATCT GCGGACCAAA GCTACAGTGG AATTGAAGGC ACTTAGGTTA 
    CTGAATTTCC AACGCCAGTT AAGACAAGAG GTAGTAGCCT GCATGCGTCG TGACACAACA 
    CTGGAGACGG CACTGAACTC CAAAGCCTAC AAACGAAGCA AGCGCCAGAC TTTGAGAGAG 
    GCTCGTATGA CAGAAAAGCT TGAAAAACAG CAGAAGATAG AGCAGGAGAG GAAGCGTAGG 
    CAGAAGCACC AGGAATACCT GAATAGCATA TTGCAGCATG CTAAAGATTT TAAAGAGTAC 
    CACCGGTCAG TCGCTGGGAA AATTCAGAAA CTTTCTAAAG CTGTGGCAAC TTGGCATGCC 
    AACACTGAAC GTGAGCAGAA AAAAGAAACT GAGAGAATTG AGAAAGAAAG AATGAGGAGA 
    CTAATGGCCG AAGATGAAGA AGGCTACCGT AAGCTGATTG ATCAAAAGAA AGACAGACGC 
    CTGGCCTACC TGTTGCAGCA GACAGATGAG TATGTGGCTA ACTTGACTAA CCTGGTATGG 
    GAGCATAAAC AGGCACAAGC AGCCAAAGAG AAGAAGAAGC GAAGGAGAAG AAAGAAGAAA 
    GCTGAAGAAA ATGCAGAAGG AATGGCATCT GGTCTTGGTC CCGATGGAGA GCCCATAGAT 
    GAGAGCAGTC AGATGAGTGA CCTTCCAGTC AAAGTTACTC ACACTGAAAC AGGCAAAGTT 
    CTTCTTGGAC CAGAAGCACC CAAAGCAAGT CAGCTGGATG CTTGGCTGGA AATGAACCCT 
    GGCTATGAAG TTGCTCCCAG ATCAGACAGT GAAGATGAAA GTGGCTCTGA ATATGAGGAG 
    GAGGATGAGG AAGAAGAATC AAGCAAATTA GAGACAGATG AGAAGATACT CCTGGATCCT 
    AACAGTGAGG AAGTTTCTGA GAAGGATGCA AAGCAAATCA TTGAGACAGC CAAACAAGAT 
    GTAGATGATG AATATAGCAT GCAATATAGT GCCAGAGGGT CTCAGTCCTA CTACACTGTT 
    GCTCATGCTA TCACTGAAAG GGTGGAAAAG CAGTCTTCCC TGCTTATTAA CGGCACATTA 
    AAACATTATC AGCTCCAGGG ACTGGAGTGG ATGGTTTCTC TCTATAATAA CAATCTGAAT 
    GGAATTTTAG CAGATGAAAT GGGACTAGGA AAGACAATAC AAACTATTGC TCTCATCACT 
    TACCTGATGG AGCACAAAAG ACTCAATGGC CCCTATCTCA TCATTGTTCC CTTGTCGACT 
    TTATCCAATT GGACATATGA ATTTGACAAA TGGGCTCCTT CTGTGGTGAA GATATCTTAC 
    AAGGGTACAC CTGCAATGCG CCGCTCACTT GTTCCTCAGC TTCGAAGTGG AAAATTTAAT 
    GTTCTTTTAA CTACTTACGA GTACATAATA AAGGACAAAC ATATCCTTGC TAAGATTCGG 
    TGGAAGTACA TGATAGTAGA TGAGGGCCAT CGAATGAAGA ACCATCACTG CAAGCTGACT 
    CAGGTCTTGA ATACTCACTA TGTGGCCCCT CGGCGAATCC TGCTGACTGG GACTCCTTTG 
    CAGAACAAAT TGCCTGAACT TTGGGCTCTT CTCAATTTCC TTCTTCCAAC CATTTTCAAG 
    AGTTGCAGCA CCTTTGAACA GTGGTTCAAT GCTCCATTTG CCATGACTGG AGAAAGGGTG 
    GATTTAAATG AGGAAGAAAC TATTCTGATC ATCCGTCGTC TCCATAAAGT GCTTCGGCCA 
    TTCTTGCTGA GAAGACTGAA GAAGGAGGTT GAGTCTCAGC TGCCGGAAAA GGTGGAATAT 
    GTGATCAAGT GTGATATGTC AGCTCTTCAA AAGATCCTGT ACCGTCACAT GCAAGCCAAG 
    GGAATCCTGC TCACGGATGG TTCTGAAAAA GACAAGAAGG GAAAAGGCGG AGCAAAAACT 
    CTTATGAACA CTATCATGCA ATTGAGAAAG ATATGCAATC ACCCATACAT GTTTCAACAC 
    ATTGAGGAGT CCTTCGCTGA ACATCTGGGC TACTCAAATG GTGTCATTAA TGGAGCTGAA 
    CTTTATCGGG CCTCAGGGAA GTTTGAACTA CTCGATCGTA TTCTACCAAA GTTAAGAGCT 
    ACTAACCATC GTGTGCTTCT TTTCTGTCAA ATGACATCAC TCATGACCAT TATGGAAGAC 
    TACTTTGCAT TTCGAAATTT CCTTTACCTG CGTCTTGATG GCACAACAAA ATCAGAGGAT 
    CGAGCTGCTC TGTTGAAGAA GTTCAATGAA CCTGGATCAC AGTACTTTAT CTTCTTGCTG 
    AGTACAAGGG CTGGAGGGCT AGGCTTAAAT CTCCAGGCTG CTGACACTGT TATAATCTTT 
    GATAGTGACT GGAATCCTCA TCAGGACTTG CAGGCCCAGG ATAGAGCTCA CCGAATTGGT 
    CAGCAGAATG AAGTTAGAGT CCTGCGACTG TGCACTGTGA ACAGTGTGGA AGAGAAGATA 
    CTTGCTGCGG CAAAGTATAA GCTGAATGTA GATCAAAAAG TTATTCAGGC AGGAATGTTT 
    GATCAGAAAT CTTCAAGCCA TGAAAGGAGA GCATTCCTCC AAGCTATACT GGAGCATGAA 
    GAAGAAAATG AGGAAGAAGA TGAAGTTCCT GATGATGAGA CACTGAATCA GATGATTGCT 
    CGACGTGAGG AGGAATTTGA TCTCTTTATG CGCATGGATA TGGATCGTCG CAGAGAGGAT 
    GCCAGAAACC CTAAACGTAA ACCTCGCTTG ATGGAGGAGG ATGAATTACC ATCCTGGATT 
    ATTAAGGATG ATGCTGAAGT TGAAAGGCTT ACATGTGAAG AAGAGGAAGA GAAAATATTT 
    GGAAGAGGAT CCCGTCAGCG CAGGGATGTG GACTACAGTG ATGCTCTCAC AGAGAAACAG 
    TGGCTGCGGG CAATTGAAGA CGGCAATTTG GAAGAAATGG AAGAGGAAGT CCGGCTTAAA 
    AAGCGAAAGA GACGAAGAAA CGTGGATAAG GACTCTGGGA AGGAGGATGG AGAAAAAGCA 
    AAGAAAAGAA GAGGCAGACC TCCTGCAGAG AAGTTGTCAC CCAATCCACC CAAACTGACA 
    AAACAAATGA ATGCCATCAT TGATACTGTG ATAAACTACA AGGACAGTTC AGGACGGCAG 
    CTAAGTGAAG TATTCATACA GCTGCCATCT AGGAAAGAAC TACCAGAGTA TTATGAATTG 
    ATTAGGAAAC CAGTGGACTT CAAAAAGATA AAGGAAAGAA TTCGCAACCA TAAATATCGG 
    AGTCTTGGGG ATTTGGAAAA AGATGTCATG CTGCTGTGTC ACAATGCACA GACATTCAAC 
    TTGGAGGGAT CTCAGATCTA TGAGGATTCC ATTGTTCTTC AGTCTGTGTT CAAAAGTGCA 
    CGACAGAAGA TAGCCAAAGA AGAAGAAAGT GAGGATGAAA GCAATGATGA TGAAGAAGAA 
    GATGAGGAAG AAGAATCGGA ATCAGAATCA AAATCAGTGA AAGTCAAAAT CAAGTTAAAT 
    AAGAAGGATG AAAAAAGTCG AGAGAAAGGA AAAGGCAAGA AGAGGCAAAG CAGAGCAAAA 
    GCCAAGCCTG TCGTGAGTGA TGATGATAGT GATGAGGATC AAGATGAAAA TGTAAGTTTT 
    GTTCAGTGA

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

REQUEST A QUOTE

EMAIL

[email protected]

PHONE

1-877-436-7274

ONLINE FORM

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ONLINE FORM

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FAX

1-732-210-0262