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REV3L (NM_001286431) Human Tagged ORF Clone
CAT#: RG240264
- TrueORF®
REV3L (tGFP-tagged) - Human REV3-like, polymerase (DNA directed), zeta, catalytic subunit (REV3L), transcript variant 2
ORF Plasmid: DDK
"NM_001286431" in other vectors (2)
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CNY 35,150.00
货期*
2周
规格
Product images
经常一起买 (5)
Specifications
| Product Data | |
| Type | Human Tagged ORF Clone |
| Tag | TurboGFP |
| Synonyms | POLZ; REV3 |
| Vector | pCMV6-AC-GFP |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | Neomycin |
| Sequence Data |
>RG240264 representing NM_001286431.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGGCATTCAGTATCGACAGAGCACTTAATGTGGCTTTAGGCAATCCATCTTCCACTGCTCAGCATGTG TTCAAAGTGTCATTAGTATCAGGAATGCCTTTTTATGGTTATCATGAGAAGGAAAGACACTTTATGAAG ATCTATCTTTACAATCCTACAATGGTGAAAAGGATATGTGAACTTTTGCAAAGCGGAGCCATAATGAAT AAATTTTACCAGCCTCATGAAGCGCATATTCCCTACCTCCTACAGCTCTTCATTGACTACAATCTTTAT GGCATGAATTTAATAAATCTGGCTGCTGTCAAGTTCCGAAAAGCAAGAAGGAAAAGTAATACATTGCAT GCAACTGGATCCTGCAAGAATCATTTATCAGGAAATTCTCTTGCTGATACTTTATTTCGGTGGGAACAA GATGAAATACCAAGCTCTTTAATATTGGAAGGTGTTGAACCACAGAGTACATGTGAATTAGAAGTGGAT GCTGTAGCTGCTGATATCTTAAATCGTCTGGACATTGAAGCTCAAATTGGTGGAAACCCTGGTCTACAG GCCATATGGGAAGATGAAAAGCAACGGCGAAGAAACAGAAATGAAACTTCTCAAATGAGCCAACCTGAG TCACAAGATCACAGGTTTGTGCCAGCAACAGAAAGTGAAAAAAAATTTCAGAAGAGACTTCAGGAAATT CTCAAACAGAATGATTTCTCTGTAACATTATCAGGATCTGTGGACTACAGCGATGGATCCCAGGAGTTC TCTGCTGAGTTAACATTGCACTCTGAGGTTCTGTCTCCTGAAATGCTTCAGTGTACACCAGCCAATATG GTAGAAGTTCACAAAGACAAAGAGTCAAGCAAAGGTCACACTAGACACAAAGTGGAAGAAGCTCTTATT AATGAAGAAGCAATTTTGAACCTTATGGAAAATAGTCAGACTTTTCAGCCTTTGACCCAAAGACTGAGT GAGTCACCTGTTTTCATGGACAGTAGTCCTGATGAGGCTCTGGTACATCTTCTTGCTGGTTTGGAAAGT GATGGATATCGGGGGGAAAGAAATAGGATGCCATCACCATGTCGCTCCTTTGGAAATAATAAATATCCA CAAAATAGTGATGATGAAGAAAATGAACCACAGATTGAAAAAGAGGAAATGGAGCTTAGTTTGGTGATG TCCCAGAGATGGGACAGCAATATTGAAGAACATTGTGCCAAAAAGAGATCACTGTGCAGAAATACCCAC AGAAGTTCAACTGAAGATGATGACTCATCTTCAGGAGAAGAAATGGAATGGAGTGATAACAGTTTGCTT CTAGCCAGTCTTTCTATACCTCAGTTAGATGGAACTGCAGATGAAAATAGTGACAATCCATTGAACAAT GAAAATTCTAGAACCCACTCTTCTGTAATTGCAACAAGCAAGCTTTCAGTTAAACCCTCCATCTTTCAC AAAGATGCTGCTACATTAGAACCCTCATCTTCTGCTAAGATTACCTTTCAGTGTAAACACACAAGTGCC CTTTCTTCCCATGTTTTGAACAAGGAAGATTTAATTGAAGACCTTTCACAGACAAACAAAAATACAGAA AAAGGTCTAGATAACTCAGTCACTTCTTTTACAAACGAAAGCACTTATTCTATGAAATACCCTGGATCT TTAAGCAGTACTGTTCATTCAGAAAATTCTCATAAAGAGAATAGTAAGAAAGAGATCCTCCCAGTATCT TCCTGTGAAAGTAGTATTTTTGATTATGAAGAAGATATTCCATCTGTTACAAGACAAGTACCAAGTAGA AAATATACAAACATTAGAAAAATCGAAAAGGATTCCCCTTTTATACATATGCACCGTCACCCTAACGAG AATACATTGGGCAAAAATTCTTTCAACTTTTCTGACTTAAATCATTCAAAAAATAAAGTATCCTCTGAA GGAAATGAAAAAGGAAACAGCACAGCTCTGAGTAGTTTATTCCCTTCATCATTTACTGAAAATTGTGAA TTACTGTCATGCTCAGGGGAGAATAGAACTATGGTGCATTCTCTTAATAGCACTGCTGATGAAAGTGGA CTAAATAAACTTAAAATTAGGTATGAAGAATTTCAAGAACATAAAACAGAAAAGCCAAGCCTCAGCCAG CAAGCAGCACACTATATGTTTTTTCCCAGTGTTGTTCTTTCTAACTGTCTTACTAGACCACAGAAACTA TCTCCTGTCACATATAAATTACAACCTGGCAATAAACCATCCCGGTTAAAATTGAATAAAAGGAAACTT GCAGGTCATCAGGAGACTTCTACCAAAAGTAGTGAGACTGGATCCACAAAAGATAATTTTATACAAAAT AATCCTTGTAATAGTAATCCTGAGAAGGATAATGCATTGGCTAGTGATTTAACTAAAACCACTCGTGGA GCTTTTGAAAATAAAACACCCACAGATGGTTTTATAGACTGTCACTTTGGAGATGGAACGTTAGAAACT GAGCAGTCCTTTGGACTATATGGAAATAAATACACACTTAGAGCCAAACGCAAGGTAAATTATGAGACT GAAGACAGTGAGTCAAGTTTTGTAACTCACAACTCAAAAATTAGTCTACCTCATCCCATGGAAATTGGT GAAAGTTTAGATGGAACTCTCAAATCCCGAAAACGAAGAAAAATGTCTAAAAAGCTGCCCCCTGTCATC ATAAAGTATATTATTATTAATAGATTTAGAGGGAGAAAAAATATGCTTGTGAAGCTAGGAAAAATAGAC TCTAAAGAAAAACAAGTAATATTAACAGAAGAAAAAATGGAACTATATAAAAAGCTTGCACCTTTGAAG GACTTTTGGCCAAAAGTTCCCGACTCCCCTGCAACCAAATATCCCATTTATCCACTAACACCAAAGAAA AGTCACAGAAGAAAGTCAAAACATAAATCTGCTAAGAAAAAAACTGGTAAACAACAAAGGACAAATAAT GAAAATATTAAAAGAACTTTGTCTTTCAGGAAAAAACGGTCACATGCTATTCTTTCTCCTCCCTCACCA TCTTACAATGCTGAAACCGAAGATTGTGACCTGAATTATAGTGATGTTATGTCTAAACTAGGTTTTCTT TCTGAGAGAAGCACAAGTCCCATAAATTCTTCTCCACCTCGCTGCTGGTCTCCCACAGATCCAAGAGCT GAAGAAATCATGGCTGCTGCAGAAAAAGAGGCAATGCTTTTTAAGGGTCCTAATGTATATAAGAAGACT GTTAATTCTCGTATAGGAAAAACTAGTCGCGCAAGAGCACAGATTAAGAAATCAAAAGCAAAGCTTGCT AATCCCTCTATAGTTACTAAGAAAAGGAACAAACGAAATCAGACAAATAAACTAGTAGATGATGGAAAA AAGAAACCAAGAGCAAAACAAAAAACAAATGAGAAAGGTACATCGAGAAAGCATACAACACTTAAGGAT GAAAAAATAAAATCTCAGTCTGGTGCTGAGGTTAAGTTTGTACTGAAACACCAGAATGTGTCTGAATTT GCAAGTAGTTCTGGAGGCTCTCAACTACTTTTTAAACAGAAAGATATGCCACTAATGGGCTCTGCTGTA GATCATCCCCTTTCTGCTTCCCTACCCACTGGAATTAATGCACAACAGAAGTTATCTGGCTGCTTTTCT TCTTTCTTAGAAAGCAAGAAGTCTGTAGATTTGCAGACATTCCCCAGTTCACGAGATGATTTGCATCCA TCAGTTGTTTGTAATTCTATAGGACCTGGAGTCTCAAAAATTAATGTTCAAAGGCCTCATAATCAAAGT GCTATGTTTACTCTAAAGGAATCAACGTTAATTCAAAAAAATATATTTGACCTTTCCAATCATTTATCT CAGGTAGCACAGAATACACAGATATCTTCTGGTATGTCCTCAAAGATAGAAGATAATGCAAATAATATA CAAAGAAACTATTTGTCATCAATCGGAAAGTTAAGTGAATATCGCAATTCCCTAGAATCAAAGCTGGAC CAAGCATATACCCCTAATTTTTTGCATTGCAAAGACAGTCAGCAGCAGATTGTGTGCATAGCGGAACAG TCAAAGCACAGTGAAACTTGTTCTCCGGGAAATACAGCTTCAGAGGAAAGCCAAATGCCTAATAATTGC TTTGTAACTTCCTTGAGAAGTCCAATCAAACAAATAGCATGGGAGCAAAAGCAAAGGGGCTTTATTTTA GATATGTCAAATTTTAAACCTGAAAGAGTAAAACCGAGGTCGTTATCAGAAGCAATTTCACAAACCAAA GCACTTTCTCAGTGTAAAAATCGAAATGTGTCAACACCTTCAGCATTTGGTGAAGGACAGTCTGGACTG GCAGTTCTAAAAGAATTGTTACAAAAAAGACAGCAGAAAGCACAAAATGCAAATACTACACAAGACCCA TTATCCAATAAACATCAACCAAATAAAAATATTTCTGGTTCCCTTGAGCATAACAAAGCAAATAAACGG ACACGATCGGTAACGTCCCCAAGAAAACCTCGAACTCCCAGAAGTACAAAACAAAAAGAAAAAATCCCC AAACTTCTCAAAGTAGACTCTTTAAATTTACAAAACTCTAGCCAGTTGGATAACTCTGTATCAGATGAT AGTCCCATCTTTTTTTCAGATCCAGGCTTTGAAAGTTGTTACTCACTTGAAGATAGTTTATCTCCTGAA CATAATTATAATTTTGATATTAACACAATAGGTCAGACTGGATTTTGTAGCTTTTATTCTGGAAGTCAG TTTGTCCCAGCTGATCAGAATTTGCCTCAGAAGTTCCTAAGTGATGCTGTTCAGGATCTTTTTCCAGGA CAAGCTATAGAAAAAAATGAGTTTTTAAGTCATGACAACCAGAAATGTGATGAAGACAAGCATCATACC ACAGACTCAGCCTCATGGATTAGATCTGGTACTTTAAGTCCTGAAATTTTTGAGAAGTCAACCATAGAT AGCAATGAGAATCGTCGCCACAACCAGTGGAAAAATAGCTTTCATCCTCTAACAACTCGGTCTAACTCA ATAATGGATTCTTTCTGTGTTCAGCAGGCAGAAGACTGTCTAAGTGAAAAATCTAGATTGAATAGGAGT TCAGTAAGCAAAGAAGTGTTTCTTAGCCTCCCACAGCCAAACAATTCAGACTGGATTCAAGGTCACACC AGAAAAGAAATGGGACAGTCTCTTGACTCAGCCAATACCTCTTTTACTGCAATACTCTCCTCCCCTGAT GGTGAACTTGTAGACGTGGCCTGTGAAGATTTAGAACTGTATGTTTCAAGAAACAATGATATGTTGACA CCAACTCCTGATAGTTCACCAAGATCTACTAGCTCTCCTTCACAATCTAAAAATGGCAGCTTCACCCCT CGAACTGCTAACATTCTGAAACCACTTATGTCCCCCCCAAGTAGGGAAGAAATTATGGCAACTTTGTTG GATCATGACCTGTCTGAGACTATTTACCAGGAACCATTTTGCAGTAATCCTTCTGATGTACCAGAAAAG CCCAGGGAGATTGGTGGACGGCTCCTCATGGTAGAAACTCGACTTGCAAATGATCTGGCTGAGTTTGAG GGAGACTTTTCCTTGGAAGGACTTCGTCTTTGGAAAACAGCATTCTCAGCAATGACTCAGAATCCAAGG CCAGGGTCACCCCTTCGCAGTGGCCAAGGAGTTGTCAATAAAGGGTCAAGTAATAGCCCTAAGATGGTT GAAGATAAAAAAATTGTGATTATGCCTTGCAAATGTGCCCCAAGTCGACAACTGGTTCAAGTGTGGCTT CAAGCCAAAGAAGAATACGAACGTTCCAAGAAACTGCCTAAAACCAAGCCAACTGGAGTTGTAAAATCT GCTGAGAACTTTAGCTCTTCAGTTAACCCAGATGACAAACCTGTAGTGCCTCCAAAAATGGATGTAAGT CCATGTATACTCCCCACTACAGCACATACCAAGGAGGATGTTGATAATTCTCAGATTGCTTTACAAGCA CCAACCACGGGATGTAGTCAAACTGCAAGTGAAAGTCAGATGCTGCCACCAGTTGCCTCTGCAAGTGAT CCCGAAAAAGATGAAGATGATGATGATAACTATTACATTAGTTATAGCTCCCCTGATTCTCCAGTAATT CCCCCTTGGCAACAACCAATATCCCCAGATTCCAAAGCATTAAATGGAGATGATAGACCCTCATCACCA GTAGAGGAGCTGCCTTCATTGGCTTTTGAGAACTTCTTAAAGCCAATAAAAGATGGTATACAAAAAAGC CCCTGCAGTGAGCCTCAAGAGCCTCTAGTGATATCTCCAATTAATACTAGGGCAAGAACTGGGAAATGT GAATCACTTTGCTTTCATAGTACACCAATCATACAGAGAAAACTTCTGGAAAGGCTTCCTGAAGCACCT GGCCTTAGCCCATTATCAACAGAACCAAAAACACAGAAGTTGAGTAATAAGAAAGGAAGTAATACTGAC ACTCTTAGAAGAGTACTGTTAACACAAGCAAAGAATCAATTTGCAGCAGTAAATACCCCACAGAAAGAA ACTTCTCAGATTGATGGACCATCTTTAAACAATACTTACGGTTTCAAAGTCAGCATACAAAACTTACAG GAGGCAAAAGCTTTACATGAGATACAAAATCTTACCCTAATCAGTGTGGAGTTGCATGCTCGAACTAGA CGAGACTTAGAACCGGATCCTGAATTTGACCCAATCTGTGCTCTGTTCTACTGCATCTCATCTGACACT CCACTGCCAGATACAGAAAAAACAGAACTCACAGGTGTAATAGTGATTGATAAAGACAAGACAGTTTTC AGTCAAGATATCAGATATCAGACTCCATTACTTATTAGATCTGGAATTACAGGACTCGAAGTCACCTAT GCTGCTGATGAGAAGGCACTTTTTCATGAAATTGCAAATATAATAAAGAGGTATGATCCTGATATTCTG CTAGGATATGAGATTCAGATGCATTCCTGGGGTTACCTCTTACAAAGGGCTGCCGCTTTAAGTATTGAC TTATGTCGGATGATCTCTCGGGTGCCAGATGACAAAATTGAGAACAGATTTGCAGCTGAAAGAGATGAG TATGGATCATATACAATGAGTGAGATAAATATTGTTGGCCGAATTACACTAAATCTTTGGAGAATCATG AGAAATGAGGTGGCTCTAACTAACTACACCTTTGAAAATGTGAGCTTTCATGTTCTTCATCAGCGTTTT CCCCTCTTTACCTTTCGAGTCTTGTCAGACTGGTTTGATAACAAGACAGATCTATACAGATGGAAAATG GTTGATCATTATGTTAGCCGTGTCCGTGGAAATCTCCAAATGTTAGAACAGCTGGACCTGATTGGGAAA ACCAGTGAGATGGCTAGACTTTTTGGCATTCAGTTTTTACATGTACTGACAAGGGGTTCACAGTACCGT GTGGAATCAATGATGTTGCGTATTGCTAAACCAATGAACTATATTCCTGTGACACCTAGTGTTCAGCAA AGATCCCAGATGAGAGCCCCACAGTGTGTTCCTCTAATTATGGAGCCTGAATCCCGCTTCTATAGCAAC TCTGTTCTCGTTTTGGATTTCCAATCACTTTATCCTTCTATTGTGATTGCATATAACTACTGCTTTTCC ACCTGCCTTGGCCATGTGGAGAACTTGGGAAAGTATGATGAGTTCAAATTTGGCTGTACCTCTCTGAGA GTACCTCCAGATTTACTTTACCAAGTTAGGCATGATATCACAGTGTCCCCCAATGGAGTAGCTTTTGTC AAGCCTTCAGTAAGAAAAGGTGTACTACCAAGAATGCTTGAAGAAATTTTGAAGACTAGATTTATGGTG AAGCAGTCAATGAAGGCTTACAAGCAAGACAGAGCCCTGTCACGAATGCTTGATGCGCGTCAGTTGGGA CTTAAGCTGATAGCAAATGTCACATTTGGCTATACATCTGCTAATTTTTCTGGGAGAATGCCATGCATT GAGGTTGGCGATAGTATTGTTCACAAAGCCAGAGAGACCTTGGAACGAGCTATTAAACTGGTGAATGAT ACCAAGAAATGGGGGGCTAGGGTTGTATATGGCGATACTGACAGTATGTTTGTGCTACTGAAAGGAGCC ACTAAGGAGCAGTCTTTTAAGATTGGTCAGGAAATTGCCGAAGCTGTAACTGCTACCAATCCTAAACCA GTGAAATTGAAGTTTGAAAAGGTATATTTGCCCTGTGTTTTACAAACAAAAAAGAGGTATGTGGGTTAC ATGTATGAAACACTGGATCAGAAGGACCCAGTATTTGATGCAAAAGGAATAGAAACAGTCAGAAGAGAT TCCTGCCCTGCTGTTTCTAAGATACTTGAGCGTTCTCTAAAGCTGCTATTTGAAACGAGAGATATAAGT CTAATTAAACAGTATGTTCAGCGACAATGTATGAAGCTTCTGGAAGGAAAGGCCAGCATACAAGACTTT ATCTTTGCCAAGGAATACAGAGGAAGTTTTTCTTATAAACCAGGAGCTTGTGTGCCAGCCCTTGAACTT ACAAGGAAAATGCTGACTTATGACCGGCGCTCTGAGCCTCAGGTTGGGGAGCGAGTGCCATACGTCATC ATTTATGGGACCCCCGGAGTACCACTTATCCAGCTTGTAAGGCGCCCAGTGGAAGTCCTGCAGGACCCA ACTCTGAGACTGAATGCTACTTACTATATTACCAAGCAAATCCTTCCACCCTTGGCAAGAATCTTCTCA CTTATTGGTATTGATGTCTTCAGCTGGTATCATGAATTACCAAGGATCCATAAAGCTACCAGCTCCTCG CGAAGTGAACCTGAAGGGCGGAAAGGCACTATTTCACAATATTTTACTACCTTACACTGTCCTGTGTGT GATGACCTAACTCAGCATGGCATCTGTAGTAAATGTCGGAGCCAACCTCAGCATGTTGCAGTCATCCTC AACCAAGAAATCCGGGAGTTGGAACGTCAACAGGAGCAACTTGTAAAGATATGCAAGAACTGTACAGGT TGCTTTGATCGACACATCCCATGTGTTTCTCTGAACTGCCCAGTACTTTTCAAACTCTCCCGAGTAAAT AGAGAATTGTCCAAGGCACCATATCTCCGGCAGTTATTAGACCAGTTT ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC >Peptide sequence encoded by RG240264
Blue=ORF Red=Cloning site Green=Tag(s) MAFSIDRALNVALGNPSSTAQHVFKVSLVSGMPFYGYHEKERHFMKIYLYNPTMVKRICELLQSGAIMN KFYQPHEAHIPYLLQLFIDYNLYGMNLINLAAVKFRKARRKSNTLHATGSCKNHLSGNSLADTLFRWEQ DEIPSSLILEGVEPQSTCELEVDAVAADILNRLDIEAQIGGNPGLQAIWEDEKQRRRNRNETSQMSQPE SQDHRFVPATESEKKFQKRLQEILKQNDFSVTLSGSVDYSDGSQEFSAELTLHSEVLSPEMLQCTPANM VEVHKDKESSKGHTRHKVEEALINEEAILNLMENSQTFQPLTQRLSESPVFMDSSPDEALVHLLAGLES DGYRGERNRMPSPCRSFGNNKYPQNSDDEENEPQIEKEEMELSLVMSQRWDSNIEEHCAKKRSLCRNTH RSSTEDDDSSSGEEMEWSDNSLLLASLSIPQLDGTADENSDNPLNNENSRTHSSVIATSKLSVKPSIFH KDAATLEPSSSAKITFQCKHTSALSSHVLNKEDLIEDLSQTNKNTEKGLDNSVTSFTNESTYSMKYPGS LSSTVHSENSHKENSKKEILPVSSCESSIFDYEEDIPSVTRQVPSRKYTNIRKIEKDSPFIHMHRHPNE NTLGKNSFNFSDLNHSKNKVSSEGNEKGNSTALSSLFPSSFTENCELLSCSGENRTMVHSLNSTADESG LNKLKIRYEEFQEHKTEKPSLSQQAAHYMFFPSVVLSNCLTRPQKLSPVTYKLQPGNKPSRLKLNKRKL AGHQETSTKSSETGSTKDNFIQNNPCNSNPEKDNALASDLTKTTRGAFENKTPTDGFIDCHFGDGTLET EQSFGLYGNKYTLRAKRKVNYETEDSESSFVTHNSKISLPHPMEIGESLDGTLKSRKRRKMSKKLPPVI IKYIIINRFRGRKNMLVKLGKIDSKEKQVILTEEKMELYKKLAPLKDFWPKVPDSPATKYPIYPLTPKK SHRRKSKHKSAKKKTGKQQRTNNENIKRTLSFRKKRSHAILSPPSPSYNAETEDCDLNYSDVMSKLGFL SERSTSPINSSPPRCWSPTDPRAEEIMAAAEKEAMLFKGPNVYKKTVNSRIGKTSRARAQIKKSKAKLA NPSIVTKKRNKRNQTNKLVDDGKKKPRAKQKTNEKGTSRKHTTLKDEKIKSQSGAEVKFVLKHQNVSEF ASSSGGSQLLFKQKDMPLMGSAVDHPLSASLPTGINAQQKLSGCFSSFLESKKSVDLQTFPSSRDDLHP SVVCNSIGPGVSKINVQRPHNQSAMFTLKESTLIQKNIFDLSNHLSQVAQNTQISSGMSSKIEDNANNI QRNYLSSIGKLSEYRNSLESKLDQAYTPNFLHCKDSQQQIVCIAEQSKHSETCSPGNTASEESQMPNNC FVTSLRSPIKQIAWEQKQRGFILDMSNFKPERVKPRSLSEAISQTKALSQCKNRNVSTPSAFGEGQSGL AVLKELLQKRQQKAQNANTTQDPLSNKHQPNKNISGSLEHNKANKRTRSVTSPRKPRTPRSTKQKEKIP KLLKVDSLNLQNSSQLDNSVSDDSPIFFSDPGFESCYSLEDSLSPEHNYNFDINTIGQTGFCSFYSGSQ FVPADQNLPQKFLSDAVQDLFPGQAIEKNEFLSHDNQKCDEDKHHTTDSASWIRSGTLSPEIFEKSTID SNENRRHNQWKNSFHPLTTRSNSIMDSFCVQQAEDCLSEKSRLNRSSVSKEVFLSLPQPNNSDWIQGHT RKEMGQSLDSANTSFTAILSSPDGELVDVACEDLELYVSRNNDMLTPTPDSSPRSTSSPSQSKNGSFTP RTANILKPLMSPPSREEIMATLLDHDLSETIYQEPFCSNPSDVPEKPREIGGRLLMVETRLANDLAEFE GDFSLEGLRLWKTAFSAMTQNPRPGSPLRSGQGVVNKGSSNSPKMVEDKKIVIMPCKCAPSRQLVQVWL QAKEEYERSKKLPKTKPTGVVKSAENFSSSVNPDDKPVVPPKMDVSPCILPTTAHTKEDVDNSQIALQA PTTGCSQTASESQMLPPVASASDPEKDEDDDDNYYISYSSPDSPVIPPWQQPISPDSKALNGDDRPSSP VEELPSLAFENFLKPIKDGIQKSPCSEPQEPLVISPINTRARTGKCESLCFHSTPIIQRKLLERLPEAP GLSPLSTEPKTQKLSNKKGSNTDTLRRVLLTQAKNQFAAVNTPQKETSQIDGPSLNNTYGFKVSIQNLQ EAKALHEIQNLTLISVELHARTRRDLEPDPEFDPICALFYCISSDTPLPDTEKTELTGVIVIDKDKTVF SQDIRYQTPLLIRSGITGLEVTYAADEKALFHEIANIIKRYDPDILLGYEIQMHSWGYLLQRAAALSID LCRMISRVPDDKIENRFAAERDEYGSYTMSEINIVGRITLNLWRIMRNEVALTNYTFENVSFHVLHQRF PLFTFRVLSDWFDNKTDLYRWKMVDHYVSRVRGNLQMLEQLDLIGKTSEMARLFGIQFLHVLTRGSQYR VESMMLRIAKPMNYIPVTPSVQQRSQMRAPQCVPLIMEPESRFYSNSVLVLDFQSLYPSIVIAYNYCFS TCLGHVENLGKYDEFKFGCTSLRVPPDLLYQVRHDITVSPNGVAFVKPSVRKGVLPRMLEEILKTRFMV KQSMKAYKQDRALSRMLDARQLGLKLIANVTFGYTSANFSGRMPCIEVGDSIVHKARETLERAIKLVND TKKWGARVVYGDTDSMFVLLKGATKEQSFKIGQEIAEAVTATNPKPVKLKFEKVYLPCVLQTKKRYVGY MYETLDQKDPVFDAKGIETVRRDSCPAVSKILERSLKLLFETRDISLIKQYVQRQCMKLLEGKASIQDF IFAKEYRGSFSYKPGACVPALELTRKMLTYDRRSEPQVGERVPYVIIYGTPGVPLIQLVRRPVEVLQDP TLRLNATYYITKQILPPLARIFSLIGIDVFSWYHELPRIHKATSSSRSEPEGRKGTISQYFTTLHCPVC DDLTQHGICSKCRSQPQHVAVILNQEIRELERQQEQLVKICKNCTGCFDRHIPCVSLNCPVLFKLSRVN RELSKAPYLRQLLDQF TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV |
| Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
|
| ACCN | NM_001286431 |
| ORF Size | 9156 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. |
| Product 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). |
| Reference Data | |
| RefSeq | NM_001286431.2 |
| RefSeq Size | 11089 bp |
| RefSeq ORF | 9159 bp |
| Locus ID | 5980 |
| UniProt ID | O60673 |
| Protein Families | Druggable Genome |
| Protein Pathways | Metabolic pathways |
| MW | 344.6 kDa |
| Gene Summary | The protein encoded by this gene represents the catalytic subunit of DNA polymerase zeta, which functions in translesion DNA synthesis. The encoded protein can be found in mitochondria, where it protects DNA from damage. Defects in this gene are a cause of Mobius syndrome. [provided by RefSeq, Jan 2017] |
Documents
| Product Manuals |
| FAQs |
| SDS |
Resources
Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC240264 | REV3L (myc-DDK-tagged) - Human REV3-like, polymerase (DNA directed), zeta, catalytic subunit (REV3L), transcript variant 2 |
CNY 34,770.00 |
|
| SC338158 | REV3L (untagged) - Human REV3-like, polymerase (DNA directed), zeta, catalytic subunit (REV3L), transcript variant 2 |
CNY 29,360.00 |
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