DMXL2 (NM_001174116) Human Tagged ORF Clone

CAT#: RG230756

DMXL2 (GFP-tagged) - Human Dmx-like 2 (DMXL2), transcript variant 1

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: TurboGFP
• Symbol: DMXL2
• Synonyms: DFNA71; PEPNS; RC3
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG230756 representing NM_001174116
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGCATCTGCATCAGGTCCTCACCGGAGCTGTCAACCCTGGAGACAACTGCTACTCCGTGGGCAGCGTCG
  GGGATGTCCCCTTCACGGCATATGGATCAGGCTGTGATATTGTTATTTTGGCAAATGACTTTGAATGTGT
  ACAGATCATTCCTGGTGCTAAGCATGGAAACATCCAAGTCAGCTGTGTGGAGTGTTCTAACCAACAAGGA
  AGAATTGCAGCTTCATATGGTAATGCTGTTTGTATATTTGAGCCCTTGGGCATAAATTCTCATAAAAGAA
  ATTGTCAACTCAAGTGCCAGTGGCTTAAAACTGGGCAGTTTTTTTTGAGTTCTGTGACATACAACTTAGC
  ATGGGATCCTCAAGATAATAGATTGTTGACAGCAACTGATTCTATTCAGTTGTGGGCTCCTCCAGGAGAT
  GATATTCTGGAAGAGGAGGAAGAAATTGATAATACAGTTCCTCCTGTTTTAAATGATTGGAAGTGTGTCT
  GGCAGTGCAAAACCTCAGTATCTGTACATTTGATGGAATGGTCTCCTGATGGTGAATATTTTGCTACTGC
  TGGAAAGGATGATTGTCTTTTGAAAGTGTGGTATCCTATGACTGGTTGGAAGTCTTCAATTATACCTCAG
  GATCATCATGAAGTAAAAAGGAGACAGTCCTCTACTCAATTTTCTTTTGTTTACTTGGCACATCCCCGAG
  CTGTGACAGGTTTTTCGTGGCGCAAAACTAGCAAGTATATGCCCAGGGGTTCTGTCTGTAATGTGTTGTT
  AACTTCATGTCATGATGGTGTGTGCCGGCTCTGGGCAGAAACTTTATTACCAGAAGACTGTCTTTTGGGT
  GAGCAGATTTGTGAGACTACCACTTCCAGCATTGCCAGCAGCCTTTCTCATGCTGGAAGACACAAAGACA
  GAATACAGCATGCTCTTGAGACAATACACCATTTGAAAAATTTAAGGAAAGGACAGAGGAGGTCATCTGT
  TCTTGTAACTCATGCTGAATTAATGCCCGACCAGACAGCAATGCATGAAGTTCAAAGACACATTTCCCAC
  CATGCAAATGCACTCTGTCATTTTCATATTGCAGCAAGCATCAACCCTGCCACAGATATTCCAAATGTCT
  TGGTTGGCACTGCATTTAATGTTGATGATGGAAATGGGGGCTTTGTAGTTCATTGGTTAAACAACAAGGA
  ATTTCATTTTACATCATCTACAGAAGTATTTATGCATCAATTACGAAAACTTTCTGATAAGCAGGTAGAT
  CATGAAAATGATGATGCAGATAGAGAAGATGAGGAACATTCACAGGAGGATAGAGAACGGGGTTTACATA
  TGAAATTAGACCATGATTTATCCCTGGATAGAGAATCTGAGGCAGGTACAGGATCATCAGAACATGAAGA
  TGGAGAAAGAGAAGGAAGTCCTAGAACTTACTCACGACTTAGTGTACCAATGCCACTGCCTACGGTTCTG
  CTTGATCGGAAGATTGAAACGCTGCTAACTGAATGGAATAAGAATCCTGATATGCTTTTTACAATACACC
  CTGTAGATGGTACCTTTCTAGTGTGGCATGTGAAGTATTTGGATGAATATAATCCTGGAATATTTAGACA
  AGTTCAGGTTTCTTTTTCTTCTCGGATTCCTGTTGCATTTCCCTCTGGTGATGCAAGCTCTCTTAGTAAA
  AATATCATGATGTATGCCTGTATAAATGCGACAAAAGATTCTCACCACACGCTGTTACACCAGGAGGGGA
  TGTCTGTAGGCAGTCCTCACGGATCACAGCCACACTCTAGATCCCACAGTACACATATGAACATCTTAGC
  TCCCACAGTAATGATGATCTCTAAACACATAGATGGTTCTTTAAATCAGTGGGCAGTCACTTTTGCTGAT
  AAGTCTGCCTTTACCACTGTTCTAACTGTATCTCACAAATTTAGATATTGCGGTCATCGATTTCACCTCA
  ATGACCTGGCATGTCATTCAGTTTTACCACTGTTATTGACATCCTCTCATCATAATGCTCTATTGACTCC
  TGAATTAGATTGTCAGTGGGACTCAGACAATAAATTAAGTAGATTAATGGACCCTGTAAAACATATAAAA
  GGTTCCTCGAAACAACCTCTTAGAAATGCAGCAACTCGTACATTTCATGACCCAAATGCAATCTACAGTG
  AACTTATTCTGTGGCGTGTAGACCCAATAGGACCTTTGTCATACACTGGAGGAGTATCAGAATTGGCTCG
  AATTAACTCTTTACATACCTCAGCGTTCTCTAATGTGGCTTGGCTTCCAACTCTCATTCCCAGTTACTGT
  CTAGGCACATACTGCAATTCTGCAAGTGCTTGCTTTGTTGCTTCTGATGGCAAAAATCTGAGACTCTATC
  AAGCTGTAGTGGATGCAAGGAAATTATTAGATGAATTGTCAGACCCAGAATCTTCAAAACTTATTGGAGA
  AGTGTTTAATATTGTGAGCCAACAGTCTACTGCTCGACCTGGCTGCATTATTGAACTCGACGCAATAACC
  AACCAATGTGGCTCAAATACACAGTTGCTTCATGTGTTTCAAGAAGACTTCATTATAGGATATAAACCAC
  ATAAGGAAGATATGGAGAAAAAGGAAACAGAAATATTTTTTCAGCCATCACAAGGATACCGCCCACCACC
  ATTTTCAGAAAAGTTCTTTCTAGTAGTAATTGAGAAGGACAGCAATAATAACTCTATTCTGCATATGTGG
  CACCTTCATCTTAAATCTGTACAAGCATGTTTAGCTAAAGCTTCAGAAGGGGCTTCCTCTGAGAGTCTAC
  TTTCAGTCCCTGGACAGAAGAACGTAGATTCTTCTCCAGAAACCTCTCCTAGTGTGAGCCCCATGCCACA
  TTCTTCATCAATTGCCAATCTTCAAACTGCCAGTAAACTTATTCTGAGTTCTAGACTGGTGTATAGCCAA
  CCCCTTGATCTCCCAGAATCAGTTGAAGTAATAAGAGCAACGCCTTCAGCAGGCCATCTGAGTTCTTCTT
  CAATTTATCCAGTGTGCCTTGCACCTTATTTAGTGGTTACAACTTGTTCTGACAATAAAGTACGCTTCTG
  GAAATGTTGTATGGAAGCCAACCCAGAGTGTAATAAAAGTGATGAGAAAGAAATTTATCATTGGAAGAGA
  TGGCCTTTGATGAATGATGAAGGAGAAGATAATAGCAGTACAGTGAGCATTGTGGGAAGACCAGTTGCTG
  TTAGCTGTTCATACACAGGTCGCCTTGCAGTGGCTTATAAGCAGCCTATCCACCATAATGGTTTTGTTTC
  TAAAGAATTTTCCATGCATGTTTGTATATTTGAATGTGAATCTACAGGAGGATCAGAGTGGGTTTTAGAA
  CAAACAATTCATCTTGATGATTTGGTTAAGGTTGGGAGTGTACTTGATTCAAGGGTCAGCGTCGACAGTA
  ATCTGTTTGTGTATAGCAAGTCAGATGCACTCTTGAGCAAGGATAGATATCTTATTCCGAATATCAAACA
  TTTAGTACATTTGGACTGGGTATCAAAAGAAGATGGCTCCCACATTCTTACAGTGGGAGTCGGTGCGAAT
  ATCTTCATGTATGGAAGGCTTTCAGGAATTGTGACTGAGCAAACCAACAGTAAGGATGGAGTAGCTGTCA
  TCACTTTACCACTAGGTGGTAGTATCAAGCAAGGAGTTAAGTCAAGATGGGTTCTTCTTAGATCTATAGA
  CTTGGTATCTTCTGTTGATGGTACTCCTTCACTGCCTGTTTCTCTCTCTTGGGTAAGAGATGGGATATTG
  GTGGTAGGAATGGATTGTGAAATGCATGTATATGCACAGTGGAAGCATGCTGTCAAATTTGGAGACACTG
  AAGCTGATAGTTCTAATGCAGAAGAGGCAGCAATGCAAGATCATTCGACCTTTAAATCTAATATGCTGGC
  AAGAAAAAGTGTTGTTGAAGGAACAGCTATTTCTGATGATGTTTTTTGTTCACCAACTGTAATTCAAGAT
  GGTGGCTTATTTGAGGCTGCACATGTACTTTCCCCTACTCTTCCACAATATCATCCAACTCAGCTGTTAG
  AATTGATGGATTTAGGGAAAGTGCGAAGGGCTAAAGCCATTCTCTCTCATTTAGTAAAATGTATTGCAGG
  TGAAGTAGCAATAGTTAGAGATCCTGATGCTGGAGAAGGAACTAAGCGACATCTCTCTCGAACTATTAGT
  GTAAGTGGCAGTACAGCAAAGGAAACAGTCACCGTAGGAAAAGATGGTACTCGAGATTATACTGAGATAG
  ATTCTATCCCTCCACTACCACTATATGCATTACTTGCTGCAGATCAAGATACATCCTACAGAATTTCAGA
  AGAAAGTACAAAGATACCACAGAGCTATGAAGATCAGACAGTAAGTCAACCAGAGGATCAGTATTCAGAG
  CTGTTTCAAATCCAGGATATACCAACGGATGATATTGATTTAGAGCCTGAAAAGAGAGAAAACAAATCAA
  AAGTAATAAATCTTTCTCAATATGGACCAGCTTACTTTGGCCAAGAACATGCAAGGGTACTTTCAAGTCA
  TCTTATGCACTCAAGTCTACCAGGCCTTACCCGTTTGGAGCAGATGTTCCTTGTAGCTTTGGCTGATACA
  GTGGCTACTACTAGTACTGAGCTTGATGAAAGCAGAGATAAGAGTTGCTCAGGAAGAGATACATTAGATG
  AGTGTGGTTTGAGATACTTGTTAGCTATGCGCCTACACACATGCCTTTTGACATCGCTGCCTCCTTTATA
  CCGAGTGCAGCTACTTCATCAAGGTGTCTCTACATGCCATTTTGCCTGGGCTTTTCATTCTGAGGCTGAA
  GAAGAACTGATTAATATGATTCCAGCAATTCAGAGAGGGGACCCCCAGTGGTCTGAATTAAGAGCTATGG
  GCATAGGATGGTGGGTGAGGAACATTAACACGCTTCGAAGATGCATTGAAAAGGTTGCCAAAGCTTCTTT
  TCAAAGGAACAATGATGCCTTAGATGCTGCACTATTCTACCTTTCAATGAAGAAGAAAGCAGTAGTGTGG
  GGTCTGTTTAGGTCACAGCATGATGAAAAAATGACAACATTTTTCAGCCACAACTTTAATGAAGATAGAT
  GGCGAAAAGCTGCTTTGAAAAATGCTTTTTCCTTACTTGGAAAACAACGCTTTGAACAATCGGCTGCTTT
  TTTCTTGCTAGCTGGTTCATTGAAAGATGCCATAGAGGTATGTCTTGAAAAAATGGAAGATATTCAGCTA
  GCCATGGTTATTGCCCGTTTATATGAATCTGAATTTGAGACTTCATCCACTTATATATCCATCCTAAATC
  AGAAGATTTTGGGTTGCCAAAAGGATGGCTCAGGATTCAGTTGCAAAAGATTACATCCTGATCCTTTCCT
  GCGTAGTCTTGCCTATTGGGTAATGAAAGATTACACCCGAGCCTTGGACACATTACTGGAACAAACACCA
  AAGGAGGATGATGAACATCAAGTTATCATCAAGTCTTGTAACCCGGTGGCATTTAGTTTTTATAACTACC
  TTCGAACTCATCCTTTGCTCATTCGAAGAAATCTTGCCTCCCCTGAAGGAACTTTGGCAACCTTAGGTCT
  CAAAACTGAGAAGAACTTTGTTGATAAAATTAACCTCATAGAAAGAAAATTATTCTTTACCACTGCAAAT
  GCTCATTTTAAAGTTGGATGCCCTGTTTTAGCCTTGGAGGTACTCTCCAAAATTCCAAAAGTAACCAAAA
  CATCTGCCTTATCTGCAAAAAAAGATCAGCCTGACTTCATTTCTCACAGGATGGATGATGTACCTTCACA
  TTCAAAAGCTCTGAGTGATGGCAATGGAAGTTCTGGCATTGAATGGTCAAATGTAACTTCATCACAGTAT
  GACTGGAGTCAGCCAATAGTAAAAGTTGATGAGGAACCTCTTAATCTTGATTGGGGTGAAGATCACGACA
  GTGCCTTAGATGAAGAGGAAGACGATGCTGTTGGTTTAGTGATGAAAAGTACAGATGCCAGGGAAAAAGA
  TAAACAATCAGATCAGAAGGCCTCAGACCCTAACATGTTATTAACACCTCAGGAAGAGGATGATCCTGAA
  GGTGATACTGAAGTTGATGTGATTGCTGAACAACTAAAATTCAGAGCTTGTTTAAAGATCCTTATGACTG
  AATTAAGAACATTGGCTACAGGTTATGAAGTAGATGGAGGAAAACTCAGATTTCAACTCTATAACTGGCT
  TGAAAAGGAAATTGCTGCCTTGCATGAGATATGTAATCATGAATCAGTTATTAAAGAGTATTCCAGTAAG
  ACATATTCCAAAGTAGAGAGTGATCTGCTGGATCAGGAAGAAATGGTAGACAAACCAGATATTGGTTCCT
  ATGAGCGCCATCAAATAGAAAGAAGAAGATTGCAGGCCAAACGAGAGCATGCAGAAAGACGAAAGTCGTG
  GTTGCAGAAAAACCAAGATCTCCTGAGAGTATTTCTCAGCTACTGTAGCCTTCATGGGGCCCAAGGTGGT
  GGTTTGGCTTCAGTAAGGATGGAACTCAAATTTTTGCTACAAGAATCACAACAGGAAACTACAGTAAAGC
  AGCTCCAGTCTCCACTACCACTGCCTACCACCCTACCTCTGCTTTCAGCAAGTATTGCGTCAACAAAAAC
  AGTCATAGCTAATCCTGTATTGTACTTAAATAATCACATCCATGATATACTTTATACTATTGTTCAGATG
  AAAACACCACCTCATCCCAGTATTGAAGATGTGAAGGTGCACACACTTCATTCACTAGCAGCATCACTTT
  CTGCATCAATTTACCAAGCATTATGTGACAGTCATAGCTACAGCAGTCAAACAGAAGGAAATCAGTTTAC
  AGGAATGGCTTATCAAGGACTTCTTTTAAGTGATCGTAGAAGACTAAGGACAGAAAGCATTGAAGAACAC
  GCAACACCAAATTCATCTCCTGCTCAATGGCCTGGTGTGAGCTCACTTATTAATCTTTTGAGTTCAGCCC
  AAGATGAAGACCAGCCAAAACTGAACATTTTGCTATGTGAAGCTGTTGTTGCTGTTTACTTAAGTTTATT
  GATACATGCTCTTGCCACAAATTCCTCCAGTGAATTATTTCGGCTTGCAGCCCACCCATTAAATAATCGA
  ATGTGGGCTGCTGTTTTTGGAGGCGGTGTAAAACTTGTTGTGAAACCTCGAAGACAATCAGAAAATATTT
  CAGCACCTCCTGTCCTTTCTGAAGACATAGATAAACACCGTAGGAGATTTAACATGAGAATGCTCGTCCC
  TGGAAGGCCTGTAAAAGATGCTACCCCACCACCGGTGCCTGCAGAAAGACCATCTTACAAAGAAAAATTT
  ATTCCTCCCGAACTTAGTATGTGGGATTATTTTGTTGCAAAGCCATTTCTTCCTTTGTCTGATAGTGGTG
  TTATATATGATTCTGATGAAAGCATTCATAGTGATGAAGAAGATGATGCCTTTTTTTCAGATACACAAAT
  ACAGGAGCACCAAGATCCAAATTCCTATAGCTGGGCTCTTCTACATTTGACAATGGTTAAACTAGCACTT
  CACAATGTCAAGAATTTCTTTCCTATTGCTGGACTGGAATTCTCTGAGCTGCCTGTAACATCACCATTAG
  GTATTGCTGTGATTAAAAACTTGGAGAACTGGGAACAGATCTTGCAAGAGAAAATGGATCAGTTTGAAGG
  TCCACCCCCTAACTATATCAACACATATCCAACTGACCTTTCAGTGGGAGCTGGACCAGCTATTCTTCGA
  AATAAAGCAATGCTAGAACCTGAAAATACCCCATTCAAGTCCCGGGATTCTTCTGCATTTCCAGTCAAAC
  GACTTTGGCATTTCCTTGTTAAACAAGAGGTCCTTCAAGAGACATTTATTAGATATATTTTCACTAAGAA
  AAGAAAGCAGAGTGAGGTTGAAGCTGATCTGGGCTATCCAGGTGGAAAGGCGAAAGTCATCCATAAGGAA
  TCTGATATGATCATGGCATTTTCTGTTAATAAGGCAAATTGTAATGAAATTGTTTTGGCTTCAACACATG
  ATGTTCAAGAACTTGATGTTACTTCTCTACTGGCCTGTCAGTCATACATATGGATCGGAGAAGAATATGA
  CAGAGAATCCAAAAGTTCAGATGATGTTGATTATCGTGGTTCCACTACAACTCTTTATCAACCCAGTGCA
  ACATCCTATTCAGCAAGTCAGGTGCATCCACCTTCATCTCTGCCATGGCTGGGCACTGGACAGACTAGCA
  CTGGAGCTAGTGTGCTTATGAAAAGGAATCTACATAATGTTAAGAGAATGACTTCACACCCAGTCCATCA
  ATACTATCTTACAGGTGCTCAGGACGGCAGTGTACGAATGTTTGAATGGACGCGGCCTCAGCAACTTGTC
  TGCTTTCGTCAAGCTGGCAATGCAAGAGTTACTAGATTATATTTTAATTCACAAGGCAACAAGTGTGGTG
  TTGCGGATGGAGAGGGTTTTCTGAGTATCTGGCAAGTTAACCAAACTGCATCAAATCCTAAACCTTATAT
  GAGTTGGCAGTGCCACAGTAAAGCCACAAGTGACTTTGCATTTATTACCTCTTCAAGTCTAGTTGCCACA
  TCTGGACACTCCAATGACAATAGAAATGTTTGCCTCTGGGACACATTAATATCACCCGGAAACAGCCTCA
  TTCATGGTTTCACGTGCCACGATCATGGTGCCACGGTACTGCAGTATGCACCCAAACAGCAACTCCTAAT
  CTCGGGGGGTAGGAAAGGACACGTCTGCATTTTTGACATCAGGCAAAGGCAGCTCATTCACACGTTCCAG
  GCCCATGACTCAGCTATTAAGGCTCTGGCCTTGGATCCCTATGAGGAATATTTTACCACAGGTTCAGCAG
  AAGGTAACATAAAGGTTTGGAGATTGACAGGCCATGGCCTAATTCATTCATTTAAAAGTGAACATGCTAA
  GCAGTCCATATTTCGAAACATTGGGGCTGGAGTCATGCAGATTGACATCATCCAGGGCAATCGGCTCTTC
  TCCTGTGGTGCAGATGGCACGCTGAAAACCAGGGTTTTGCCCAATGCTTTTAACATCCCTAACAGAATTC
  TTGACATTCTA
  
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
  Protein Sequence

  >RG230756 representing NM_001174116
  Red=Cloning site Green=Tags(s)
  
  MHLHQVLTGAVNPGDNCYSVGSVGDVPFTAYGSGCDIVILANDFECVQIIPGAKHGNIQVSCVECSNQQG
  RIAASYGNAVCIFEPLGINSHKRNCQLKCQWLKTGQFFLSSVTYNLAWDPQDNRLLTATDSIQLWAPPGD
  DILEEEEEIDNTVPPVLNDWKCVWQCKTSVSVHLMEWSPDGEYFATAGKDDCLLKVWYPMTGWKSSIIPQ
  DHHEVKRRQSSTQFSFVYLAHPRAVTGFSWRKTSKYMPRGSVCNVLLTSCHDGVCRLWAETLLPEDCLLG
  EQICETTTSSIASSLSHAGRHKDRIQHALETIHHLKNLRKGQRRSSVLVTHAELMPDQTAMHEVQRHISH
  HANALCHFHIAASINPATDIPNVLVGTAFNVDDGNGGFVVHWLNNKEFHFTSSTEVFMHQLRKLSDKQVD
  HENDDADREDEEHSQEDRERGLHMKLDHDLSLDRESEAGTGSSEHEDGEREGSPRTYSRLSVPMPLPTVL
  LDRKIETLLTEWNKNPDMLFTIHPVDGTFLVWHVKYLDEYNPGIFRQVQVSFSSRIPVAFPSGDASSLSK
  NIMMYACINATKDSHHTLLHQEGMSVGSPHGSQPHSRSHSTHMNILAPTVMMISKHIDGSLNQWAVTFAD
  KSAFTTVLTVSHKFRYCGHRFHLNDLACHSVLPLLLTSSHHNALLTPELDCQWDSDNKLSRLMDPVKHIK
  GSSKQPLRNAATRTFHDPNAIYSELILWRVDPIGPLSYTGGVSELARINSLHTSAFSNVAWLPTLIPSYC
  LGTYCNSASACFVASDGKNLRLYQAVVDARKLLDELSDPESSKLIGEVFNIVSQQSTARPGCIIELDAIT
  NQCGSNTQLLHVFQEDFIIGYKPHKEDMEKKETEIFFQPSQGYRPPPFSEKFFLVVIEKDSNNNSILHMW
  HLHLKSVQACLAKASEGASSESLLSVPGQKNVDSSPETSPSVSPMPHSSSIANLQTASKLILSSRLVYSQ
  PLDLPESVEVIRATPSAGHLSSSSIYPVCLAPYLVVTTCSDNKVRFWKCCMEANPECNKSDEKEIYHWKR
  WPLMNDEGEDNSSTVSIVGRPVAVSCSYTGRLAVAYKQPIHHNGFVSKEFSMHVCIFECESTGGSEWVLE
  QTIHLDDLVKVGSVLDSRVSVDSNLFVYSKSDALLSKDRYLIPNIKHLVHLDWVSKEDGSHILTVGVGAN
  IFMYGRLSGIVTEQTNSKDGVAVITLPLGGSIKQGVKSRWVLLRSIDLVSSVDGTPSLPVSLSWVRDGIL
  VVGMDCEMHVYAQWKHAVKFGDTEADSSNAEEAAMQDHSTFKSNMLARKSVVEGTAISDDVFCSPTVIQD
  GGLFEAAHVLSPTLPQYHPTQLLELMDLGKVRRAKAILSHLVKCIAGEVAIVRDPDAGEGTKRHLSRTIS
  VSGSTAKETVTVGKDGTRDYTEIDSIPPLPLYALLAADQDTSYRISEESTKIPQSYEDQTVSQPEDQYSE
  LFQIQDIPTDDIDLEPEKRENKSKVINLSQYGPAYFGQEHARVLSSHLMHSSLPGLTRLEQMFLVALADT
  VATTSTELDESRDKSCSGRDTLDECGLRYLLAMRLHTCLLTSLPPLYRVQLLHQGVSTCHFAWAFHSEAE
  EELINMIPAIQRGDPQWSELRAMGIGWWVRNINTLRRCIEKVAKASFQRNNDALDAALFYLSMKKKAVVW
  GLFRSQHDEKMTTFFSHNFNEDRWRKAALKNAFSLLGKQRFEQSAAFFLLAGSLKDAIEVCLEKMEDIQL
  AMVIARLYESEFETSSTYISILNQKILGCQKDGSGFSCKRLHPDPFLRSLAYWVMKDYTRALDTLLEQTP
  KEDDEHQVIIKSCNPVAFSFYNYLRTHPLLIRRNLASPEGTLATLGLKTEKNFVDKINLIERKLFFTTAN
  AHFKVGCPVLALEVLSKIPKVTKTSALSAKKDQPDFISHRMDDVPSHSKALSDGNGSSGIEWSNVTSSQY
  DWSQPIVKVDEEPLNLDWGEDHDSALDEEEDDAVGLVMKSTDAREKDKQSDQKASDPNMLLTPQEEDDPE
  GDTEVDVIAEQLKFRACLKILMTELRTLATGYEVDGGKLRFQLYNWLEKEIAALHEICNHESVIKEYSSK
  TYSKVESDLLDQEEMVDKPDIGSYERHQIERRRLQAKREHAERRKSWLQKNQDLLRVFLSYCSLHGAQGG
  GLASVRMELKFLLQESQQETTVKQLQSPLPLPTTLPLLSASIASTKTVIANPVLYLNNHIHDILYTIVQM
  KTPPHPSIEDVKVHTLHSLAASLSASIYQALCDSHSYSSQTEGNQFTGMAYQGLLLSDRRRLRTESIEEH
  ATPNSSPAQWPGVSSLINLLSSAQDEDQPKLNILLCEAVVAVYLSLLIHALATNSSSELFRLAAHPLNNR
  MWAAVFGGGVKLVVKPRRQSENISAPPVLSEDIDKHRRRFNMRMLVPGRPVKDATPPPVPAERPSYKEKF
  IPPELSMWDYFVAKPFLPLSDSGVIYDSDESIHSDEEDDAFFSDTQIQEHQDPNSYSWALLHLTMVKLAL
  HNVKNFFPIAGLEFSELPVTSPLGIAVIKNLENWEQILQEKMDQFEGPPPNYINTYPTDLSVGAGPAILR
  NKAMLEPENTPFKSRDSSAFPVKRLWHFLVKQEVLQETFIRYIFTKKRKQSEVEADLGYPGGKAKVIHKE
  SDMIMAFSVNKANCNEIVLASTHDVQELDVTSLLACQSYIWIGEEYDRESKSSDDVDYRGSTTTLYQPSA
  TSYSASQVHPPSSLPWLGTGQTSTGASVLMKRNLHNVKRMTSHPVHQYYLTGAQDGSVRMFEWTRPQQLV
  CFRQAGNARVTRLYFNSQGNKCGVADGEGFLSIWQVNQTASNPKPYMSWQCHSKATSDFAFITSSSLVAT
  SGHSNDNRNVCLWDTLISPGNSLIHGFTCHDHGATVLQYAPKQQLLISGGRKGHVCIFDIRQRQLIHTFQ
  AHDSAIKALALDPYEEYFTTGSAEGNIKVWRLTGHGLIHSFKSEHAKQSIFRNIGAGVMQIDIIQGNRLF
  SCGADGTLKTRVLPNAFNIPNRILDIL
  
  TRTRRLE - GFP Tag - V
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001174116
• ORF Size: 9111 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.

Reference Data

• RefSeq: NM_001174116.1, NP_001167587.1
• RefSeq Size: 10599
• RefSeq ORF: 9114
• Locus ID: 23312
• MW: 339.7 kDa
• Gene Summary: This gene encodes a protein with 12 WD domains. Proteins with WD domains are involved in many functions including participation in signal transduction pathways. Participation of the encoded protein in regulation of the Notch signaling pathway has been demonstrated in vitro using several human cell lines (PMID:20810660). A gene encoding a similar protein is located on chromosome 5. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Aug 2011]