Separase (ESPL1) (NM_012291) Human Tagged ORF Clone
CAT#: RG217230
- TrueORF®
ESPL1 (GFP-tagged) - Human extra spindle pole bodies homolog 1 (S. cerevisiae) (ESPL1)
"NM_012291" in other vectors (2)
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Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Symbol | ESPL1 |
Synonyms | ESP1; SEPA |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG217230 representing NM_012291
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAGGAGCTTCAAAAGAGTCAACTTTGGGACTCTGCTAAGCAGCCAGAAGGAGGCTGAAGAGTTGCTGC CCGCCTTGAAGGAGTTCCTGTCCAACCCTCCAGCTGGTTTTCCCAGCAGCCGATCTGATGCTGAGAGGAG ACAAGCTTGTGATGCCATCCTGAGGGCTTGCAACCAGCAGCTGACTGCTAAGCTAGCTTGCCCTAGGCAT CTGGGGAGCCTGCTGGAGCTGGCAGAGCTGGCCTGTGATGGCTACTTAGTGTCTACCCCACAGCGTCCTC CCCTCTACCTGGAACGAATTCTCTTTGTCTTACTGCGGAATGCTGCTGCACAAGGAAGCCCAGAGGCCAC ACTCCGCCTTGCTCAGCCCCTCCATGCCTGCTTGGTGCAGTGCTCTCGCGAGGCTGCTCCCCAGGACTAT GAGGCCGTGGCTCGGGGCAGCTTTTCTCTGCTTTGGAAGGGGGCAGAAGCCCTGTTGGAACGGCGAGCTG CATTTGCAGCTCGGCTGAAGGCCTTGAGCTTCCTAGTACTCTTGGAGGATGAAAGTACCCCTTGTGAGGT TCCTCACTTTGCTTCTCCAACAGCCTGTCGAGCGGTAGCTGCCCATCAGCTATTTGATGCCAGTGGCCAT GGTCTAAATGAAGCAGATGCTGATTTCCTAGATGACCTGCTCTCCAGGCACGTGATCAGAGCCTTGGTGG GTGAGAGAGGGAGCTCTTCTGGGCTTCTTTCTCCCCAGAGGGCCCTCTGCCTCTTGGAGCTCACCTTGGA ACACTGCCGTCGCTTTTGCTGGAGCCGCCACCATGACAAAGCCATCAGCGCAGTGGAGAAGGCTCACAGT TACCTAAGGAACACCAATCTAGCCCCTAGCCTTCAGCTATGTCAGCTGGGGGTTAAGCTGCTGCAGGTTG GGGAGGAAGGACCTCAGGCAGTGGCCAAGCTTCTGATCAAGGCATCAGCTGTCCTGAGCAAGAGTATGGA GGCACCATCACCCCCACTTCGGGCATTGTATGAGAGCTGCCAGTTCTTCCTTTCAGGCCTGGAACGAGGC ACCAAGAGGCGCTATAGACTTGATGCCATTCTGAGCCTCTTTGCTTTTCTTGGAGGGTACTGCTCTCTTC TGCAGCAGCTGCGGGATGATGGTGTGTATGGGGGCTCCTCCAAGCAACAGCAGTCTTTTCTTCAGATGTA CTTTCAGGGACTTCACCTCTACACTGTGGTGGTTTATGACTTTGCCCAAGGCTGTCAGATAGTTGATTTG GCTGACCTGACCCAACTAGTGGACAGTTGTAAATCTACCGTTGTCTGGATGCTGGAGGCCTTAGAGGGCC TGTCGGGCCAAGAGCTGACGGACCACATGGGGATGACCGCTTCTTACACCAGTAATTTGGCCTACAGCTT CTATAGTCACAAGCTCTATGCCGAGGCCTGTGCCATCTCTGAGCCGCTCTGTCAGCACCTGGGTTTGGTG AAGCCAGGCACTTATCCCGAGGTGCCTCCTGAGAAGTTGCACAGGTGCTTCCGGCTACAAGTAGAGAGTT TGAAGAAACTGGGTAAACAGGCCCAGGGCTGCAAGATGGTGATTTTGTGGCTGGCAGCCCTGCAACCCTG TAGCCCTGAACACATGGCTGAGCCAGTCACTTTCTGGGTTCGGGTCAAGATGGATGCGGCCAGGGCTGGA GACAAGGAGCTACAGCTAAAGACTCTGCGAGACAGCCTCAGTGGCTGGGACCCGGAGACCCTGGCCCTCC TGCTGAGGGAGGAGCTGCAGGCCTACAAGGCGGTGCGGGCCGACACTGGACAGGAACGCTTCAACATCAT CTGTGACCTCCTGGAGCTGAGCCCCGAGGAGACACCAGCCGGGGCCTGGGCACGAGCCACCCACCTGGTA GAACTGGCTCAGGTGCTCTGCTACCACGACTTTACGCAGCAGACCAACTGCTCTGCTCTGGATGCTATCC GGGAAGCCCTGCAGCTTCTGGACTCTGTGAGGCCTGAGGCCCAGGCCAGAGATCAGCTTCTGGACGATAA AGCACAGGCCTTGCTGTGGCTTTACATCTGTACTCTGGAAGCCAAAATGCAGGAAGGTATCGAGCGGGAT CGGAGAGCCCAGGCCCCTGGTAACTTGGAGGAATTTGAAGTCAATGACCTGAACTATGAAGATAAACTCC AGGAAGATCGTTTCCTATACAGTAACATTGCCTTCAACCTGGCTGCAGATGCTGCTCAGTCCAAATGCCT GGACCAAGCCCTGGCCCTGTGGAAGGAGCTGCTTACAAAGGGGCAGGCCCCAGCTGTACGGTGTCTCCAG CAGACAGCAGCCTCACTGCAGATCCTAGCAGCCCTCTACCAGCTGGTGGCAAAGCCCATGCAGGCTCTGG AGGTCCTCCTGCTGCTACGGATTGTCTCTGAGAGACTGAAGGACCACTCGAAGGCAGCTGGCTCCTCCTG CCACATCACCCAGCTCCTCCTGACCCTCGGCTGTCCCAGCTATGCCCAGTTACACCTGGAAGAGGCAGCA TCGAGCCTGAAGCATCTCGATCAGACTACTGACACATACCTGCTCCTTTCCCTGACCTGTGATCTGCTTC GAAGTCAACTCTACTGGACTCACCAGAAGGTGACCAAGGGTGTCTCTCTGCTGCTGTCTGTGCTTCGGGA TCCTGCCCTCCAGAAGTCCTCCAAGGCTTGGTACTTGCTGCGTGTCCAGGTCCTGCAGCTGGTGGCAGCT TACCTTAGCCTCCCGTCAAACAACCTCTCACACTCCCTGTGGGAGCAGCTCTGTGCCCAAGGCTGGCAGA CACCTGAGATAGCTCTCATAGACTCCCATAAGCTCCTCCGAAGCATCATCCTCCTGCTGATGGGCAGTGA CATTCTCTCAACTCAGAAAGCAGCTGTGGAGACATCGTTTTTGGACTATGGTGAAAATCTGGTACAAAAA TGGCAGGTTCTTTCAGAGGTGCTGAGCTGCTCAGAGAAGCTGGTCTGCCACCTGGGCCGCCTGGGTAGTG TGAGTGAAGCCAAGGCCTTTTGCTTGGAGGCCCTAAAACTTACAACAAAGCTGCAGATACCACGCCAGTG TGCCCTGTTCCTGGTGCTGAAGGGCGAGCTGGAGCTGGCCCGCAATGACATTGATCTCTGTCAGTCGGAC CTGCAGCAGGTTCTGTTCTTGCTTGAGTCTTGCACAGAGTTTGGTGGGGTGACTCAGCACCTGGACTCTG TGAAGAAGGTCCACCTGCAGAAGGGGAAGCAGCAGGCCCAGGTCCCCTGTCCTCCACAGCTCCCAGAGGA GGAGCTCTTCCTAAGAGGCCCTGCTCTAGAGCTGGTGGCCACTGTGGCCAAGGAGCCTGGCCCCATAGCA CCTTCTACAAACTCCTCCCCAGTCTTGAAAACCAAGCCCCAGCCCATACCCAACTTCCTGTCCCATTCAC CCACCTGTGACTGCTCGCTCTGCGCCAGCCCTGTCCTCACAGCAGTCTGTCTGCGCTGGGTATTGGTCAC GGCAGGGGTGAGGCTGGCCATGGGCCACCAAGCCCAGGGTCTGGATCTGCTGCAGGTCGTGCTGAAGGGC TGTCCTGAAGCCGCTGAGCGCCTCACCCAAGCTCTCCAAGCTTCCCTGAATCATAAAACACCCCCCTCCT TGGTTCCAAGCCTCTTGGATGAGATCTTGGCTCAAGCATACACACTGTTGGCACTGGAGGGCCTGAACCA GCCATCAAACGAGAGCCTGCAGAAGGTTCTACAGTCAGGGCTGAAGTTTGTAGCAGCACGGATACCCCAC CTAGAGCCCTGGCGAGCCAGCCTGCTCTTGATTTGGGCCCTCACAAAACTAGGTGGCCTCAGCTGCTGTA CTACCCAACTTTTTGCAAGCTCCTGGGGCTGGCAGCCACCATTAATAAAAAGTGTCCCTGGCTCAGAGCC CTCTAAGACTCAGGGCCAAAAACGTTCTGGACGAGGGCGCCAAAAGTTAGCCTCTGCTCCCCTGCGCCTC AATAATACCTCTCAGAAAGGTCTGGAAGGTAGAGGACTGCCCTGCACACCTAAACCCCCAGACCGGATCA GGCAAGCTGGCCCTCATGTCCCCTTCACGGTGTTTGAGGAAGTCTGCCCTACAGAGAGCAAGCCTGAAGT ACCCCAGGCCCCCAGGGTACAACAGAGAGTCCAGACGCGCCTCAAGGTGAACTTCAGTGATGACAGTGAC TTGGAAGACCCTGTCTCAGCTGAGGCCTGGCTGGCAGAGGAGCCTAAGAGACGGGGCACTGCTTCCCGGG GCCGGGGGCGAGCAAGGAAGGGCCTGAGCCTAAAGACGGATGCCGTGGTTGCCCCAGGTAGTGCCCCTGG GAACCCTGGCCTGAATGGCAGGAGCCGGAGGGCCAAGAAGGTGGCATCAAGACATTGTGAGGAGCGGCGT CCCCAGAGGGCCAGTGACCAGGCCAGGCCTGGCCCTGAGATCATGAGGACCATCCCTGAGGAAGAACTGA CTGACAACTGGAGAAAAATGAGCTTTGAGATCCTCAGGGGCTCTGACGGGGAAGACTCAGCCTCAGGTGG GAAGACTCCAGCTCCGGGCCCTGAGGCAGCTTCTGGAGAATGGGAGCTGCTGAGGCTGGATTCCAGCAAG AAGAAGCTGCCCAGCCCATGCCCAGACAAGGAGAGTGACAAGGACCTTGGTCCTCGGCTCCGGCTCCCCT CAGCCCCCGTAGCCACTGGTCTTTCTACCCTGGACTCCATCTGTGACTCCCTGAGTGTTGCTTTCCGGGG CATTAGTCACTGTCCTCCTAGTGGGCTCTATGCCCACCTCTGCCGCTTCCTGGCCTTGTGCCTGGGCCAC CGGGATCCTTATGCCACTGCTTTCCTTGTCACCGAGTCTGTCTCCATCACCTGTCGCCACCAGCTGCTCA CCCACCTCCACAGACAGCTCAGCAAGGCCCAGAAGCACCGAGGATCACTTGAAATAGCAGACCAGCTGCA GGGGCTGAGCCTTCAGGAGATGCCTGGAGATGTCCCCCTGGCCCGCATCCAGCGCCTCTTTTCCTTCAGG GCTTTGGAATCTGGCCACTTCCCCCAGCCTGAAAAGGAGAGTTTCCAGGAGCGCCTGGCTCTGATCCCCA GTGGGGTGACTGTGTGTGTGTTGGCCCTGGCCACCCTCCAGCCCGGAACCGTGGGCAACACCCTCCTGCT GACCCGGCTGGAAAAGGACAGTCCCCCAGTCAGTGTGCAGATTCCCACTGGCCAGAACAAGCTTCATCTG CGTTCAGTCCTGAATGAGTTTGATGCCATCCAGAAGGCACAGAAAGAGAACAGCAGCTGTACTGACAAGC GAGAATGGTGGACAGGGCGGCTGGCACTGGACCACAGGATGGAGGTTCTCATCGCTTCCCTAGAGAAGTC TGTGCTGGGCTGCTGGAAGGGGCTGCTGCTGCCGTCCAGTGAGGAGCCCGGCCCTGCCCAGGAGGCCTCC CGCCTACAGGAGCTGCTACAGGACTGTGGCTGGAAATATCCTGACCGCACTCTGCTGAAAATCATGCTCA GTGGTGCCGGTGCCCTCACCCCTCAGGACATTCAGGCCCTGGCCTACGGGCTGTGCCCAACCCAGCCAGA GCGAGCCCAGGAGCTCCTGAATGAGGCAGTAGGACGTCTACAGGGCCTGACAGTACCAAGCAATAGCCAC CTTGTCTTGGTCCTAGACAAGGACTTGCAGAAGCTGCCGTGGGAAAGCATGCCCAGCCTCCAAGCACTGC CTGTCACCCGGCTGCCCTCCTTCCGCTTCCTACTCAGCTACTCCATCATCAAAGAGTATGGGGCCTCGCC AGTGCTGAGTCAAGGGGTGGATCCACGAAGTACCTTCTATGTCCTGAACCCTCACAATAACCTGTCAAGC ACAGAGGAGCAATTTCGAGCCAATTTCAGCAGTGAAGCTGGCTGGAGAGGAGTGGTTGGGGAGGTGCCAA GACCTGAACAGGTGCAGGAAGCCCTGACAAAGCATGATTTGTATATCTATGCAGGGCATGGGGCTGGTGC CCGCTTCCTTGATGGGCAGGCTGTCCTGCGGCTGAGCTGTCGGGCAGTGGCCCTGCTGTTTGGCTGTAGC AGTGCGGCCCTGGCTGTGCGTGGAAACCTGGAGGGGGCTGGCATCGTGCTCAAGTACATCATGGCTGGTT GCCCCTTGTTTCTGGGTAATCTCTGGGATGTGACTGACCGCGACATTGACCGCTACACGGAAGCTCTGCT GCAAGGCTGGCTTGGAGCAGGCCCAGGGGCCCCCCTTCTCTACTATGTAAACCAGGCCCGCCAAGCTCCC CGACTCAAGTATCTTATTGGGGCTGCACCTATAGCCTATGGCTTGCCTGTCTCTCTGCGG ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA >RG217230 representing NM_012291
Red=Cloning site Green=Tags(s) MRSFKRVNFGTLLSSQKEAEELLPALKEFLSNPPAGFPSSRSDAERRQACDAILRACNQQLTAKLACPRH LGSLLELAELACDGYLVSTPQRPPLYLERILFVLLRNAAAQGSPEATLRLAQPLHACLVQCSREAAPQDY EAVARGSFSLLWKGAEALLERRAAFAARLKALSFLVLLEDESTPCEVPHFASPTACRAVAAHQLFDASGH GLNEADADFLDDLLSRHVIRALVGERGSSSGLLSPQRALCLLELTLEHCRRFCWSRHHDKAISAVEKAHS YLRNTNLAPSLQLCQLGVKLLQVGEEGPQAVAKLLIKASAVLSKSMEAPSPPLRALYESCQFFLSGLERG TKRRYRLDAILSLFAFLGGYCSLLQQLRDDGVYGGSSKQQQSFLQMYFQGLHLYTVVVYDFAQGCQIVDL ADLTQLVDSCKSTVVWMLEALEGLSGQELTDHMGMTASYTSNLAYSFYSHKLYAEACAISEPLCQHLGLV KPGTYPEVPPEKLHRCFRLQVESLKKLGKQAQGCKMVILWLAALQPCSPEHMAEPVTFWVRVKMDAARAG DKELQLKTLRDSLSGWDPETLALLLREELQAYKAVRADTGQERFNIICDLLELSPEETPAGAWARATHLV ELAQVLCYHDFTQQTNCSALDAIREALQLLDSVRPEAQARDQLLDDKAQALLWLYICTLEAKMQEGIERD RRAQAPGNLEEFEVNDLNYEDKLQEDRFLYSNIAFNLAADAAQSKCLDQALALWKELLTKGQAPAVRCLQ QTAASLQILAALYQLVAKPMQALEVLLLLRIVSERLKDHSKAAGSSCHITQLLLTLGCPSYAQLHLEEAA SSLKHLDQTTDTYLLLSLTCDLLRSQLYWTHQKVTKGVSLLLSVLRDPALQKSSKAWYLLRVQVLQLVAA YLSLPSNNLSHSLWEQLCAQGWQTPEIALIDSHKLLRSIILLLMGSDILSTQKAAVETSFLDYGENLVQK WQVLSEVLSCSEKLVCHLGRLGSVSEAKAFCLEALKLTTKLQIPRQCALFLVLKGELELARNDIDLCQSD LQQVLFLLESCTEFGGVTQHLDSVKKVHLQKGKQQAQVPCPPQLPEEELFLRGPALELVATVAKEPGPIA PSTNSSPVLKTKPQPIPNFLSHSPTCDCSLCASPVLTAVCLRWVLVTAGVRLAMGHQAQGLDLLQVVLKG CPEAAERLTQALQASLNHKTPPSLVPSLLDEILAQAYTLLALEGLNQPSNESLQKVLQSGLKFVAARIPH LEPWRASLLLIWALTKLGGLSCCTTQLFASSWGWQPPLIKSVPGSEPSKTQGQKRSGRGRQKLASAPLRL NNTSQKGLEGRGLPCTPKPPDRIRQAGPHVPFTVFEEVCPTESKPEVPQAPRVQQRVQTRLKVNFSDDSD LEDPVSAEAWLAEEPKRRGTASRGRGRARKGLSLKTDAVVAPGSAPGNPGLNGRSRRAKKVASRHCEERR PQRASDQARPGPEIMRTIPEEELTDNWRKMSFEILRGSDGEDSASGGKTPAPGPEAASGEWELLRLDSSK KKLPSPCPDKESDKDLGPRLRLPSAPVATGLSTLDSICDSLSVAFRGISHCPPSGLYAHLCRFLALCLGH RDPYATAFLVTESVSITCRHQLLTHLHRQLSKAQKHRGSLEIADQLQGLSLQEMPGDVPLARIQRLFSFR ALESGHFPQPEKESFQERLALIPSGVTVCVLALATLQPGTVGNTLLLTRLEKDSPPVSVQIPTGQNKLHL RSVLNEFDAIQKAQKENSSCTDKREWWTGRLALDHRMEVLIASLEKSVLGCWKGLLLPSSEEPGPAQEAS RLQELLQDCGWKYPDRTLLKIMLSGAGALTPQDIQALAYGLCPTQPERAQELLNEAVGRLQGLTVPSNSH LVLVLDKDLQKLPWESMPSLQALPVTRLPSFRFLLSYSIIKEYGASPVLSQGVDPRSTFYVLNPHNNLSS TEEQFRANFSSEAGWRGVVGEVPRPEQVQEALTKHDLYIYAGHGAGARFLDGQAVLRLSCRAVALLFGCS SAALAVRGNLEGAGIVLKYIMAGCPLFLGNLWDVTDRDIDRYTEALLQGWLGAGPGAPLLYYVNQARQAP RLKYLIGAAPIAYGLPVSLR TRTRRLE - GFP Tag - V |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_012291 |
ORF Size | 6360 bp |
OTI Disclaimer | 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. |
Reference Data | |
RefSeq | NM_012291.4, NP_036423.4 |
RefSeq Size | 6641 |
RefSeq ORF | 6363 |
Locus ID | 9700 |
Protein Families | Druggable Genome, Protease |
Protein Pathways | Cell cycle, Oocyte meiosis |
Gene Summary | Stable cohesion between sister chromatids before anaphase and their timely separation during anaphase are critical for chromosome inheritance. In vertebrates, sister chromatid cohesion is released in 2 steps via distinct mechanisms. The first step involves phosphorylation of STAG1 (MIM 604358) or STAG2 (MIM 300826) in the cohesin complex. The second step involves cleavage of the cohesin subunit SCC1 (RAD21; MIM 606462) by ESPL1, or separase, which initiates the final separation of sister chromatids (Sun et al., 2009 [PubMed 19345191]). [supplied by OMIM, Nov 2010] |
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