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SPEN (NM_015001) Human Tagged ORF Clone

main product photo
SKU
RG213922
SPEN (tGFP-tagged) - Human spen homolog, transcriptional regulator (Drosophila) (SPEN)
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_015001 in other vectors (2)
Reconstitution Protocol
$4,570.00
3 Weeks*
Size
Bulk Requests & Clone Modifications

Other products for "SPEN"

Frequently Bought Together (3)

TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
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PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
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PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug 10 ug
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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol SPEN
Synonyms HIAA0929; MINT; RATARS; RBM15C; SHARP
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG213922 representing NM_015001
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGTCCGGGAAACCAGGCATCTCTGGGTGGGCAACTTACCCGAGAACGTGCGGGAAGAGAAGATCATCG
AGCATTTCAAACGATATGGCCGCGTGGAAAGTGTCAAAATTCTTCCCAAGAGGGGATCTGAAGGAGGAGT
GGCTGCCTTTGTGGATTTTGTGGACATCAAAAGTGCACAGAAAGCTCACAACTCGGTCAACAAAATGGGT
GACAGAGACCTACGCACGGATTATAATGAACCAGGCACCATCCCGAGTGCTGCTCGGGGATTGGATGATA
CAGTTTCCATAGCATCTCGTAGTAGAGAGGTTTCTGGGTTCAGAGGAGGTGGTGGAGGGCCTGCTTATGG
TCCCCCACCGTCACTTCATGCACGAGAAGGACGTTATGAGCGGAGACTTGATGGGGCTTCAGATAACAGG
GAGCGTGCTTATGAACATAGTGCCTATGGACACCATGAACGGGGGACGGGAGGATTTGATCGGACAAGAC
ATTACGATCAGGATTACTATAGAGATCCTCGAGAGCGGACTTTACAACATGGGCTCTATTACGCTTCTCG
GAGTCGAAGTCCAAATCGCTTTGATGCTCATGACCCCCGATATGAACCTAGGGCTCGCGAGCAGTTTACA
CTGCCCAGTGTGGTACACAGGGATATCTACAGGGATGATATTACCCGGGAGGTACGAGGCAGAAGGCCAG
AGCGGAATTACCAGCACAGCAGGAGTCGGTCACCACATTCATCCCAGTCTAGAAATCAGTCTCCTCAGAG
ACTGGCTAGCCAAGCATCTAGACCCACAAGGTCCCCTAGCGGCAGCGGCTCTAGAAGTAGATCCTCCAGT
AGTGATTCAATCAGCAGCAGCAGTAGTACCAGCAGTGACAGCAGTGATTCCAGCAGTAGTTCAAGTGATG
ATTCTCCAGCTCGATCAGTTCAGTCTGCAGCAGTCCCTGCACCCACTTCCCAGTTGCTTTCATCTCTGGA
AAAAGATGAGCCCCGTAAAAGTTTTGGCATCAAGGTCCAGAATCTTCCAGTACGCTCTACAGATACAAGC
CTTAAAGATGGCCTTTTCCATGAATTTAAGAAATTTGGAAAAGTAACTTCAGTGCAGATACATGGAACTT
CAGAAGAGAGGTATGGTCTGGTATTCTTTCGGCAGCAAGAGGACCAAGAAAAAGCCTTGACTGCATCAAA
AGGAAAACTTTTCTTTGGCATGCAGATTGAAGTAACAGCATGGATAGGTCCAGAAACAGAAAGTGAAAAT
GAATTTCGCCCCTTGGATGAAAGGATAGATGAATTTCACCCCAAAGCAACAAGAACTCTCTTTATTGGCA
ACCTTGAAAAAACCACTACTTACCATGACCTTCGCAACATCTTCCAGCGCTTTGGAGAAATTGTGGATAT
TGACATTAAGAAAGTAAATGGAGTTCCTCAGTATGCGTTTCTGCAATACTGTGATATTGCTAGCGTTTGT
AAAGCTATTAAGAAGATGGATGGGGAATATCTTGGAAATAATCGCCTCAAGCTGGGTTTTGGAAAGAGCA
TGCCTACAAACTGCGTGTGGCTAGATGGGCTTTCTTCGAATGTGTCAGATCAGTATTTAACACGACATTT
CTGCCGATATGGGCCTGTGGTAAAGGTGGTGTTTGACCGCTTAAAAGGCATGGCCCTGGTTCTCTACAAT
GAAATTGAATATGCACAAGCAGCTGTAAAAGAGACCAAAGGGAGGAAAATCGGTGGGAATAAAATTAAGG
TGGATTTTGCAAATCGGGAAAGTCAGCTGGCTTTTTATCACTGCATGGAGAAATCTGGTCAAGACATCAG
AGACTTTTATGAAATGTTAGCCGAAAGAAGAGAGGAACGAAGGGCATCCTACGACTATAACCAAGATCGT
ACATATTATGAGAGTGTTCGAACTCCAGGCACTTATCCTGAGGATTCCAGGCGGGACTATCCAGCTCGAG
GGAGAGAGTTTTATTCAGAATGGGAAACTTACCAAGGAGACTACTATGAATCACGATACTACGATGATCC
TCGGGAATACAGGGATTACAGGAATGATCCTTATGAACAAGATATTAGGGAATATAGTTACAGGCAAAGG
GAACGAGAAAGAGAACGTGAAAGATTTGAGTCTGACCGGGACAGAGACCATGAGAGGAGGCCGATTGAAC
GAAGTCAAAGTCCTGTTCACTTGCGACGTCCACAGAGTCCTGGAGCGTCTCCCTCTCAGGCAGAGAGGTT
GCCGAGTGATTCTGAGAGGAGGCTTTACAGCCGATCCTCAGACCGGAGTGGAAGCTGTAGCTCACTCTCC
CCTCCAAGATATGAGAAACTGGACAAGTCTCGTTTGGAGCGCTATACAAAAAATGAAAAGACAGATAAAG
AACGAACTTTTGATCCGGAGAGAGTGGAGAGAGAGAGACGCTTAATACGGAAGGAAAAAGTGGAAAAGGA
CAAAACTGACAAGCAGAAACGCAAAGGAAAGGTTCACTCCCCTAGTTCTCAGTCTTCAGAAACGGACCAA
GAAAATGAGCGAGAGCAAAGCCCTGAAAAGCCCAGGAGTTGTAATAAACTGAGCAGAGAGAAAGCTGACA
AAGAGGGAATAGCGAAAAACCGCCTGGAACTCATGCCTTGCGTGGTTTTGACTCGAGTGAAAGAGAAAGA
GGGAAAGGTCATTGACCACACTCCTGTGGAAAAGTTGAAAGCCAAGCTTGATAATGACACTGTCAAATCT
TCTGCCCTGGACCAGAAACTTCAGGTCTCTCAGACGGAGCCTGCAAAATCTGACTTGTCTAAACTGGAAT
CAGTTAGAATGAAAGTACCAAAGGAAAAGGGGCTTTCAAGCCATGTTGAAGTGGTGGAGAAGGAAGGCAG
GCTTAAAGCCAGGAAGCACCTCAAGCCTGAGCAGCCTGCAGATGGGGTAAGTGCTGTGGATCTGGAGAAG
CTGGAAGCCAGGAAAAGGCGCTTTGCAGATTCCAATTTAAAAGCAGAAAAGCAAAAACCAGAGGTCAAGA
AAAGCAGTCCAGAGATGGAGGATGCTCGCGTGCTTTCAAAAAAGCAGCCTGACGTGTCCTCTAGAGAGGT
CATTCTGCTGAGGGAAGGAGAGGCTGAAAGAAAGCCTGTGAGGAAAGAAATTCTTAAAAGAGAATCTAAA
AAAATCAAACTGGACAGACTTAATACTGTTGCCAGCCCCAAAGACTGTCAGGAGCTTGCCAGTATTTCTG
TTGGGTCTGGCTCAAGGCCCAGCTCAGACCTACAAGCAAGACTGGGAGAACTAGCAGGTGAATCTGTGGA
AAATCAAGAAGTCCAATCAAAAAAGCCCATTCCCTCAAAACCACAGCTCAAACAGCTGCAGGTATTAGAT
GATCAAGGACCAGAGAGAGAAGACGTTAGGAAAAACTATTGCAGTCTTCGTGATGAAACACCTGAACGTA
AATCAGGCCAAGAGAAATCACATTCAGTAAATACTGAAGAAAAAATTGGCATTGACATCGATCACACGCA
GAGTTACCGAAAACAAATGGAACAGAGTCGTAGGAAACAGCAGATGGAAATGGAAATAGCCAAGTCTGAG
AAGTTTGGCAGTCCTAAAAAAGATGTAGATGAATATGAAAGACGTAGCCTCGTTCACGAGGTAGGCAAAC
CCCCTCAAGATGTCACTGATGACTCTCCTCCTAGCAAAAAGAAAAGGATGGATCATGTCGATTTTGATAT
CTGCACCAAGCGAGAACGGAATTACAGAAGTTCACGCCAAATCAGCGAAGATTCTGAAAGGACTGGTGGT
TCTCCCAGTGTCCGACATGGTTCCTTCCATGAAGATGAGGATCCCATAGGCTCCCCTAGGCTACTGTCAG
TAAAAGGGTCTCCTAAAGTAGATGAAAAAGTCCTCCCCTATTCTAACATAACAGTCAGGGAAGAGTCTTT
AAAATTTAATCCTTATGATTCTAGCAGGAGAGAACAGATGGCAGATATGGCCAAAATAAAACTATCTGTC
TTGAATTCTGAAGATGAACTAAATCGTTGGGACTCTCAGATGAAACAGGATGCTGGCAGATTTGATGTGA
GTTTCCCAAACAGCATAATTAAGAGAGATAGCCTTCGAAAAAGGTCTGTACGAGATCTGGAACCTGGTGA
GGTGCCTTCTGATTCTGACGAAGATGGTGAACACAAATCCCACTCACCCAGAGCCTCTGCATTATATGAA
AGTTCTCGATTGTCTTTTTTATTGAGGGACAGAGAAGACAAGCTACGTGAGCGAGATGAAAGACTCTCTA
GTTCTTTAGAAAGGAACAAATTTTACTCTTTTGCATTGGATAAGACAATCACACCAGACACTAAAGCTTT
GCTTGAAAGAGCTAAATCCCTCTCTTCATCTCGTGAAGAAAATTGGTCTTTTCTTGATTGGGACTCCCGA
TTTGCAAATTTTCGAAACAACAAAGATAAAGAAAAGGTTGACTCTGCTCCAAGACCTATTCCATCCTGGT
ACATGAAAAAGAAGAAAATTAGGACTGATTCAGAAGGGAAAATGGATGATAAGAAAGAGGACCATAAAGA
AGAAGAGCAAGAGAGGCAGGAATTGTTTGCTTCTCGTTTTTTACACAGCTCAATCTTTGAACAAGATTCC
AAGCGATTGCAGCATCTAGAGAGAAAAGAGGAAGATTCTGACTTCATTTCTGGTAGGATCTATGGGAAGC
AGACATCTGAGGGAGCAAACAGCACAACTGATTCCATTCAAGAACCAGTAGTTCTGTTCCATAGCAGATT
TATGGAGCTCACACGGATGCAACAGAAAGAAAAAGAAAAAGACCAGAAACCCAAAGAGGTTGAGAAACAG
GAAGATACAGAGAATCATCCCAAGACCCCAGAATCTGCTCCTGAGAATAAAGATTCAGAACTGAAAACTC
CACCTTCCGTTGGGCCTCCAAGTGTCACAGTCGTAACTCTAGAATCAGCCCCATCAGCACTAGAGAAGAC
CACTGGTGACAAAACGGTAGAGGCGCCTTTGGTAACAGAAGAGAAGACTGTGGAGCCAGCTACCGTCTCA
GAAGAAGCAAAGCCTGCATCTGAACCTGCTCCTGCCCCTGTGGAACAGCTGGAACAAGTAGACCTGCCCC
CAGGAGCAGACCCCGATAAAGAAGCTGCCATGATGCCTGCGGGTGTTGAGGAAGGTTCATCAGGTGACCA
GCCGCCTTATCTGGATGCCAAGCCTCCAACTCCCGGGGCCTCGTTTTCCCAGGCAGAGAGCAACGTAGAT
CCAGAGCCTGACAGTACCCAGCCACTTTCAAAACCAGCTCAGAAGTCTGAGGAAGCCAATGAGCCAAAGG
CCGAAAAGCCAGACGCCACTGCAGATGCTGAGCCTGATGCAAACCAGAAAGCCGAAGCTGCTCCTGAGTC
TCAGCCCCCAGCTTCTGAAGATTTAGAGGTTGATCCTCCAGTTGCTGCAAAGGATAAAAAGCCAAACAAA
AGCAAGCGTTCAAAGACCCCTGTTCAGGCAGCTGCAGTGAGTATCGTGGAGAAGCCCGTCACAAGGAAGA
GTGAGAGGATAGACCGGGAAAAACTCAAGCGGTCCAATTCTCCTCGGGGAGAAGCACAGAAGCTTTTGGA
ATTGAAGATGGAGGCAGAGAAGATTACAAGGACTGCTTCTAAAAACTCTGCTGCAGACCTTGAACATCCC
GAACCAAGTTTGCCTCTCAGCCGAACAAGGCGCCGGAATGTAAGGAGCGTCTATGCAACCATGGGTGACC
ATGAAAACCGCTCTCCTGTCAAAGAGCCCGTTGAGCAACCAAGAGTGACCAGAAAGAGATTGGAGCGAGA
GCTTCAGGAGGCTGCAGCGGTTCCCACCACCCCTCGGAGGGGAAGGCCTCCAAAGACACGCCGGCGAGCC
GATGAAGAGGAGGAGAACGAGGCCAAGGAACCTGCAGAAACACTCAAGCCACCTGAGGGATGGCGGTCGC
CAAGGTCCCAGAAAACTGCAGCTGGTGGTGGACCCCAAGGGAAAAAGGGAAAAAATGAACCGAAGGTGGA
TGCTACACGTCCTGAGGCCACCACTGAGGTGGGCCCCCAAATAGGCGTGAAAGAGAGCTCCATGGAACCC
AAGGCTGCTGAGGAGGAGGCAGGGAGTGAACAGAAACGTGACAGAAAAGATGCTGGCACAGACAAAAACC
CCCCTGAAACCGCCCCTGTTGAAGTTGTAGAGAAAAAACCGGCCCCTGAAAAAAACTCCAAATCAAAGAG
AGGAAGATCTCGAAACTCCAGGTTAGCAGTGGACAAATCTGCAAGTCTGAAAAATGTGGATGCTGCTGTC
AGTCCCAGGGGGGCTGCAGCACAGGCAGGGGAGAGGGAATCTGGGGTGGTGGCAGTCTCCCCTGAGAAAA
GTGAGAGTCCCCAAAAGGAGGATGGTTTATCATCCCAGTTGAAAAGTGATCCAGTTGATCCAGACAAGGA
ACCAGAGAAAGAAGACGTGTCTGCCTCTGGGCCGTCCCCAGAAGCCACCCAGTTAGCCAAGCAGATGGAG
CTGGAGCAGGCCGTGGAACACATCGCAAAGCTCGCTGAGGCCTCTGCCTCTGCTGCCTATAAGGCAGATG
CACCAGAGGGCCTTGCCCCAGAGGACAGGGACAAGCCTGCACACCAAGCAAGTGAAACAGAGCTGGCTGC
GGCCATCGGCTCCATCATCAATGACATTTCTGGGGAGCCAGAAAACTTCCCAGCACCTCCACCTTATCCT
GGAGAATCCCAGACAGATCTGCAACCCCCCGCAGGTGCACAGGCGCTGCAGCCTTCTGAGGAAGGAATGG
AGACAGATGAGGCTGTATCTGGCATCCTGGAAACTGAGGCTGCTACAGAATCTTCTAGGCCTCCAGTCAA
TGCTCCTGACCCCTCAGCCGGCCCAACAGATACCAAGGAAGCCAGAGGAAATAGCAGTGAAACCTCACAC
TCAGTGCCAGAAGCCAAAGGGTCTAAAGAAGTGGAAGTCACTCTTGTTCGGAAAGACAAAGGGCGCCAGA
AAACAACCCGATCACGCCGCAAGCGAAACACAAACAAGAAAGTGGTGGCTCCTGTAGAGAGCCATGTCCC
TGAATCCAACCAAGCTCAAGGTGAGAGTCCTGCTGCAAATGAGGGGACAACAGTACAGCACCCCGAAGCC
CCACAGGAAGAAAAGCAGAGTGAGAAACCCCATTCCACTCCTCCTCAGTCATGTACTTCTGACCTAAGCA
AGATTCCCTCCACAGAGAATTCGTCCCAAGAAATCAGTGTTGAGGAAAGGACTCCAACCAAAGCATCTGT
GCCCCCAGACCTTCCCCCACCTCCCCAGCCAGCACCGGTGGATGAGGAGCCTCAAGCCAGGTTCAGGGTG
CATTCCATCATTGAAAGTGACCCGGTGACCCCACCCAGCGATCCAAGCATCCCCATACCCACACTGCCTT
CTGTAACTGCAGCAAAGCTCTCACCTCCTGTCGCCTCTGGGGGGATCCCACACCAGAGCCCCCCTACTAA
GGTGACAGAGTGGATCACAAGGCAGGAGGAGCCACGGGCTCAGTCTACTCCATCTCCAGCTCTTCCCCCA
GACACAAAGGCCTCTGATGTTGACACCAGCTCCAGCACCCTGAGGAAGATTCTCATGGACCCCAAGTATG
TGTCTGCCACAAGTGTCACTTCCACAAGTGTCACCACAGCCATTGCAGAGCCTGTCAGTGCTGCCCCTTG
CCTACATGAGGCCCCGCCCCCGCCAGTTGACTCTAAAAAGCCTTTAGAAGAAAAAACAGCACCTCCAGTG
ACAAACAACTCTGAGATACAAGCCTCGGAGGTGCTGGTAGCTGCTGACAAGGAAAAGGTGGCTCCAGTCA
TTGCTCCCAAAATTACCTCTGTTATTAGCCGGATGCCTGTCAGCATTGACCTGGAAAATTCACAGAAGAT
AACCTTGGCAAAACCAGCTCCTCAAACCCTCACTGGTCTGGTGAGCGCACTCACTGGCCTGGTGAACGTC
TCCCTGGTCCCGGTGAATGCCCTGAAAGGCCCCGTGAAGGGCTCAGTGACCACACTGAAAAGTTTGGTGA
GCACCCCTGCTGGGCCCGTGAACGTCCTGAAAGGGCCTGTGAATGTTCTTACGGGGCCAGTGAATGTTCT
CACCACTCCAGTGAACGCCACGGTGGGCACAGTGAATGCCGCCCCAGGCACAGTCAATGCCGCTGCGAGT
GCAGTGAATGCCACAGCAAGTGCAGTGACCGTCACAGCGGGTGCGGTTACTGCTGCATCTGGTGGTGTAA
CGGCCACAACAGGCACGGTGACAATGGCAGGGGCAGTGATTGCGCCGTCAACAAAGTGCAAACAGAGAGC
GAGTGCTAATGAAAACAGTCGGTTCCACCCAGGGTCCATGCCTGTGATCGACGATCGTCCGGCAGACGCG
GGCTCAGGGGCGGGGCTGCGTGTGAACACTTCTGAAGGGGTTGTGCTCCTGAGTTACTCAGGGCAGAAGA
CCGAAGGCCCACAGCGGATCAGCGCCAAGATCAGCCAGATCCCCCCGGCCAGTGCAATGGACATTGAATT
TCAGCAGTCAGTGTCCAAGTCCCAGGTCAAACCTGATTCTGTCACAGCATCGCAGCCTCCATCCAAAGGC
CCTCAAGCTCCTGCAGGCTATGCGAACGTGGCCACCCATTCCACGTTGGTACTGACCGCCCAGACATATA
ATGCCTCTCCTGTGATTTCGTCTGTGAAGGCCGATAGGCCATCCTTGGAGAAGCCCGAGCCCATTCACCT
CTCGGTGTCCACGCCTGTCACCCAGGGAGGCACAGTGAAGGTTCTCACCCAGGGGATCAACACACCCCCT
GTGCTGGTTCACAACCAGCTGGTCCTCACCCCAAGCATTGTCACCACAAACAAGAAGCTTGCTGACCCCG
TCACCCTTAAAATCGAGACCAAGGTCCTTCAGCCGGCCAACCTGGGGTCCACGCTCACGCCCCACCACCC
TCCTGCTCTGCCCAGCAAACTGCCTACAGAAGTCAACCATGTCCCCTCGGGGCCCAGCATCCCAGCAGAT
CGAACTGTCTCCCATTTGGCAGCTGCAAAGCTAGATGCTCATTCTCCTCGACCAAGTGGACCCGGGCCAT
CCTCATTCCCAAGGGCAAGCCACCCCAGCAGTACTGCATCTACGGCGCTCTCCACCAACGCCACAGTCAT
GCTGGCTGCAGGCATCCCAGTGCCCCAGTTCATCTCCAGCATCCACCCAGAGCAGTCTGTCATCATGCCA
CCCCACAGCATCACCCAGACTGTGTCCCTGAGCCACCTCTCCCAGGGCGAGGTGAGAATGAACACTCCCA
CGCTGCCCAGTATCACCTACAGCATCCGGCCAGAAGCGCTTCACTCTCCTCGGGCTCCGCTGCAGCCCCA
GCAAATAGAGGTCAGGGCCCCACAGCGTGCCAGCACCCCGCAGCCAGCCCCAGCTGGTGTGCCTGCACTG
GCCTCCCAGCACCCTCCCGAGGAGGAAGTGCATTATCACCTTCCTGTCGCTCGAGCCACAGCCCCTGTGC
AGTCAGAGGTACTAGTCATGCAGTCTGAGTACCGACTGCACCCCTATACTGTGCCACGGGATGTGAGGAT
CATGGTGCATCCACATGTGACGGCAGTCAGCGAGCAGCCCAGGGCCGCGGATGGGGTGGTGAAGGTGCCA
CCAGCCAGCAAGGCCCCTCAGCAGCCAGGGAAGGAAGCTGCCAAGACACCAGATGCCAAAGCTGCCCCCA
CCCCCACCCCTGCCCCCGTCCCTGTCCCTGTCCCCCTTCCTGCCCCTGCTCCTGCCCCTCATGGTGAGGC
CCGTATCCTCACAGTTACCCCCAGTAACCAACTCCAGGGGCTGCCTCTGACCCCTCCTGTGGTGGTGACC
CATGGGGTGCAGATTGTGCACTCCAGCGGGGAGCTGTTTCAAGAGTACCGGTACGGCGACATCCGCACCT
ACCACCCCCCGGCCCAGCTCACACACACTCAGTTTCCCGCCGCTTCCTCTGTTGGCCTGCCTTCCCGGAC
CAAGACAGCTGCTCAGGGCCCTCCTCCTGAAGGTGAGCCCCTGCAGCCTCCTCAGCCTGTGCAGTCCACA
CAGCCTGCCCAGCCTGCACCACCCTGCCCGCCCTCCCAGCTCGGTCAGCCCGGCCAGCCACCAAGCAGCA
AGATGCCTCAAGTGTCCCAGGAGGCAAAGGGGACCCAGACGGGAGTAGAGCAGCCTCGCCTCCCAGCTGG
ACCTGCAAACAGGCCACCTGAGCCTCACACCCAGGTTCAGAGGGCACAAGCAGAAACAGGCCCGACTTCC
TTCCCCTCCCCTGTGTCTGTCTCCATGAAGCCTGACCTTCCAGTCTCTCTTCCCACTCAGACTGCCCCAA
AACAGCCGTTGTTTGTCCCAACAACCTCTGGCCCCAGCACCCCACCAGGACTGGTTCTGCCACACACTGA
ATTCCAGCCAGCCCCCAAACAAGATTCCTCTCCACACCTGACTTCCCAGAGACCCGTGGATATGGTTCAA
CTTCTGAAGAAGTACCCCATCGTGTGGCAGGGCCTGCTGGCCCTCAAGAATGACACAGCTGCTGTGCAGC
TCCACTTCGTCTCTGGCAACAACGTCCTGGCCCATCGGTCCCTGCCCCTTTCTGAAGGAGGGCCCCCACT
AAGGATCGCCCAGAGGATGCGGCTGGAGGCAACGCAGCTGGAAGGGGTTGCCCGAAGGATGACGGTGGAG
ACAGATTACTGTCTGCTGCTGGCTCTGCCCTGTGGCCGTGACCAAGAGGATGTTGTGAGCCAGACCGAGT
CCCTCAAGGCTGCCTTCATCACTTACCTGCAGGCCAAGCAGGCGGCAGGGATCATCAACGTTCCCAACCC
TGGCTCCAATCAGCCTGCCTACGTGCTGCAGATCTTCCCGCCCTGTGAGTTCTCTGAGAGTCACCTGTCC
CGCCTGGCCCCTGACCTCCTTGCCAGCATCTCCAACATCTCTCCCCACCTCATGATTGTCATTGCCTCCG
TG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG213922 representing NM_015001
Red=Cloning site Green=Tags(s)

MVRETRHLWVGNLPENVREEKIIEHFKRYGRVESVKILPKRGSEGGVAAFVDFVDIKSAQKAHNSVNKMG
DRDLRTDYNEPGTIPSAARGLDDTVSIASRSREVSGFRGGGGGPAYGPPPSLHAREGRYERRLDGASDNR
ERAYEHSAYGHHERGTGGFDRTRHYDQDYYRDPRERTLQHGLYYASRSRSPNRFDAHDPRYEPRAREQFT
LPSVVHRDIYRDDITREVRGRRPERNYQHSRSRSPHSSQSRNQSPQRLASQASRPTRSPSGSGSRSRSSS
SDSISSSSSTSSDSSDSSSSSSDDSPARSVQSAAVPAPTSQLLSSLEKDEPRKSFGIKVQNLPVRSTDTS
LKDGLFHEFKKFGKVTSVQIHGTSEERYGLVFFRQQEDQEKALTASKGKLFFGMQIEVTAWIGPETESEN
EFRPLDERIDEFHPKATRTLFIGNLEKTTTYHDLRNIFQRFGEIVDIDIKKVNGVPQYAFLQYCDIASVC
KAIKKMDGEYLGNNRLKLGFGKSMPTNCVWLDGLSSNVSDQYLTRHFCRYGPVVKVVFDRLKGMALVLYN
EIEYAQAAVKETKGRKIGGNKIKVDFANRESQLAFYHCMEKSGQDIRDFYEMLAERREERRASYDYNQDR
TYYESVRTPGTYPEDSRRDYPARGREFYSEWETYQGDYYESRYYDDPREYRDYRNDPYEQDIREYSYRQR
ERERERERFESDRDRDHERRPIERSQSPVHLRRPQSPGASPSQAERLPSDSERRLYSRSSDRSGSCSSLS
PPRYEKLDKSRLERYTKNEKTDKERTFDPERVERERRLIRKEKVEKDKTDKQKRKGKVHSPSSQSSETDQ
ENEREQSPEKPRSCNKLSREKADKEGIAKNRLELMPCVVLTRVKEKEGKVIDHTPVEKLKAKLDNDTVKS
SALDQKLQVSQTEPAKSDLSKLESVRMKVPKEKGLSSHVEVVEKEGRLKARKHLKPEQPADGVSAVDLEK
LEARKRRFADSNLKAEKQKPEVKKSSPEMEDARVLSKKQPDVSSREVILLREGEAERKPVRKEILKRESK
KIKLDRLNTVASPKDCQELASISVGSGSRPSSDLQARLGELAGESVENQEVQSKKPIPSKPQLKQLQVLD
DQGPEREDVRKNYCSLRDETPERKSGQEKSHSVNTEEKIGIDIDHTQSYRKQMEQSRRKQQMEMEIAKSE
KFGSPKKDVDEYERRSLVHEVGKPPQDVTDDSPPSKKKRMDHVDFDICTKRERNYRSSRQISEDSERTGG
SPSVRHGSFHEDEDPIGSPRLLSVKGSPKVDEKVLPYSNITVREESLKFNPYDSSRREQMADMAKIKLSV
LNSEDELNRWDSQMKQDAGRFDVSFPNSIIKRDSLRKRSVRDLEPGEVPSDSDEDGEHKSHSPRASALYE
SSRLSFLLRDREDKLRERDERLSSSLERNKFYSFALDKTITPDTKALLERAKSLSSSREENWSFLDWDSR
FANFRNNKDKEKVDSAPRPIPSWYMKKKKIRTDSEGKMDDKKEDHKEEEQERQELFASRFLHSSIFEQDS
KRLQHLERKEEDSDFISGRIYGKQTSEGANSTTDSIQEPVVLFHSRFMELTRMQQKEKEKDQKPKEVEKQ
EDTENHPKTPESAPENKDSELKTPPSVGPPSVTVVTLESAPSALEKTTGDKTVEAPLVTEEKTVEPATVS
EEAKPASEPAPAPVEQLEQVDLPPGADPDKEAAMMPAGVEEGSSGDQPPYLDAKPPTPGASFSQAESNVD
PEPDSTQPLSKPAQKSEEANEPKAEKPDATADAEPDANQKAEAAPESQPPASEDLEVDPPVAAKDKKPNK
SKRSKTPVQAAAVSIVEKPVTRKSERIDREKLKRSNSPRGEAQKLLELKMEAEKITRTASKNSAADLEHP
EPSLPLSRTRRRNVRSVYATMGDHENRSPVKEPVEQPRVTRKRLERELQEAAAVPTTPRRGRPPKTRRRA
DEEEENEAKEPAETLKPPEGWRSPRSQKTAAGGGPQGKKGKNEPKVDATRPEATTEVGPQIGVKESSMEP
KAAEEEAGSEQKRDRKDAGTDKNPPETAPVEVVEKKPAPEKNSKSKRGRSRNSRLAVDKSASLKNVDAAV
SPRGAAAQAGERESGVVAVSPEKSESPQKEDGLSSQLKSDPVDPDKEPEKEDVSASGPSPEATQLAKQME
LEQAVEHIAKLAEASASAAYKADAPEGLAPEDRDKPAHQASETELAAAIGSIINDISGEPENFPAPPPYP
GESQTDLQPPAGAQALQPSEEGMETDEAVSGILETEAATESSRPPVNAPDPSAGPTDTKEARGNSSETSH
SVPEAKGSKEVEVTLVRKDKGRQKTTRSRRKRNTNKKVVAPVESHVPESNQAQGESPAANEGTTVQHPEA
PQEEKQSEKPHSTPPQSCTSDLSKIPSTENSSQEISVEERTPTKASVPPDLPPPPQPAPVDEEPQARFRV
HSIIESDPVTPPSDPSIPIPTLPSVTAAKLSPPVASGGIPHQSPPTKVTEWITRQEEPRAQSTPSPALPP
DTKASDVDTSSSTLRKILMDPKYVSATSVTSTSVTTAIAEPVSAAPCLHEAPPPPVDSKKPLEEKTAPPV
TNNSEIQASEVLVAADKEKVAPVIAPKITSVISRMPVSIDLENSQKITLAKPAPQTLTGLVSALTGLVNV
SLVPVNALKGPVKGSVTTLKSLVSTPAGPVNVLKGPVNVLTGPVNVLTTPVNATVGTVNAAPGTVNAAAS
AVNATASAVTVTAGAVTAASGGVTATTGTVTMAGAVIAPSTKCKQRASANENSRFHPGSMPVIDDRPADA
GSGAGLRVNTSEGVVLLSYSGQKTEGPQRISAKISQIPPASAMDIEFQQSVSKSQVKPDSVTASQPPSKG
PQAPAGYANVATHSTLVLTAQTYNASPVISSVKADRPSLEKPEPIHLSVSTPVTQGGTVKVLTQGINTPP
VLVHNQLVLTPSIVTTNKKLADPVTLKIETKVLQPANLGSTLTPHHPPALPSKLPTEVNHVPSGPSIPAD
RTVSHLAAAKLDAHSPRPSGPGPSSFPRASHPSSTASTALSTNATVMLAAGIPVPQFISSIHPEQSVIMP
PHSITQTVSLSHLSQGEVRMNTPTLPSITYSIRPEALHSPRAPLQPQQIEVRAPQRASTPQPAPAGVPAL
ASQHPPEEEVHYHLPVARATAPVQSEVLVMQSEYRLHPYTVPRDVRIMVHPHVTAVSEQPRAADGVVKVP
PASKAPQQPGKEAAKTPDAKAAPTPTPAPVPVPVPLPAPAPAPHGEARILTVTPSNQLQGLPLTPPVVVT
HGVQIVHSSGELFQEYRYGDIRTYHPPAQLTHTQFPAASSVGLPSRTKTAAQGPPPEGEPLQPPQPVQST
QPAQPAPPCPPSQLGQPGQPPSSKMPQVSQEAKGTQTGVEQPRLPAGPANRPPEPHTQVQRAQAETGPTS
FPSPVSVSMKPDLPVSLPTQTAPKQPLFVPTTSGPSTPPGLVLPHTEFQPAPKQDSSPHLTSQRPVDMVQ
LLKKYPIVWQGLLALKNDTAAVQLHFVSGNNVLAHRSLPLSEGGPPLRIAQRMRLEATQLEGVARRMTVE
TDYCLLLALPCGRDQEDVVSQTESLKAAFITYLQAKQAAGIINVPNPGSNQPAYVLQIFPPCEFSESHLS
RLAPDLLASISNISPHLMIVIASV

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_015001
ORF Size 10992 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution Method 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_015001.3
RefSeq Size 12227 bp
RefSeq ORF 10995 bp
Locus ID 23013
UniProt ID Q96T58
Cytogenetics 1p36.21-p36.13
Domains RRM
Protein Families Druggable Genome
Summary This gene encodes a hormone inducible transcriptional repressor. Repression of transcription by this gene product can occur through interactions with other repressors, by the recruitment of proteins involved in histone deacetylation, or through sequestration of transcriptional activators. The product of this gene contains a carboxy-terminal domain that permits binding to other corepressor proteins. This domain also permits interaction with members of the NuRD complex, a nucleosome remodeling protein complex that contains deacetylase activity. In addition, this repressor contains several RNA recognition motifs that confer binding to a steroid receptor RNA coactivator; this binding can modulate the activity of both liganded and nonliganded steroid receptors. [provided by RefSeq, Jul 2008]
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You're reviewing:SPEN (NM_015001) Human Tagged ORF Clone
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"NM_015001" in other vectors (2)
SKU Description Size Price
RC213922 SPEN (Myc-DDK-tagged)-Human spen homolog, transcriptional regulator (Drosophila) (SPEN) 10 ug
$4,370.00
SC308906 SPEN (untagged)-Human spen homolog, transcriptional regulator (Drosophila) (SPEN) 10 ug
$3,206.00

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*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.