DMXL2 (NM_015263) Human Tagged ORF Clone
CAT#: RC215775
- TrueORF®
DMXL2 (Myc-DDK-tagged)-Human Dmx-like 2 (DMXL2), transcript variant 2. Note: ORF is codon optimized
ORF Plasmid: tGFP
"NM_015263" in other vectors (2)
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | Myc-DDK |
Symbol | DMXL2 |
Synonyms | DEE81; DFNA71; EIEE81; PEPNS; RC3 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RC215775 ORF sequence, codon optimized.
Due to the complexity of NM_015263, the ORF clone is codon optimized for mammalian Expression. The nucleotide sequence differs from the reference sequence, yet the amino acid sequence remains identical. Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCACCTCCATCAGGTCCTCACCGGCGCTGTGAACCCAGGCGATAATTGCTACAGCGTTGGCTCTGTCG GAGATGTGCCTTTTACTGCTTATGGCTCTGGATGTGATATTGTGATCTTGGCAAATGATTTCGAGTGTGT TCAAATTATTCCCGGCGCTAAGCATGGAAATATTCAGGTGAGTTGTGTGGAGTGCAGTAATCAGCAAGGC CGCATCGCAGCCTCATATGGTAACGCGGTGTGCATCTTCGAGCCTTTGGGAATCAATTCTCATAAGCGGA ATTGTCAACTTAAGTGTCAGTGGCTGAAAACTGGCCAATTTTTCCTGAGCTCCGTGACTTACAACCTCGC TTGGGACCCACAGGACAACAGACTGCTCACAGCGACCGACAGTATACAGCTCTGGGCTCCACCCGGAGAT GACATTCTCGAGGAAGAGGAGGAGATTGACAACACCGTCCCACCGGTTCTGAATGACTGGAAGTGTGTGT GGCAGTGTAAGACTAGCGTGTCCGTGCACCTGATGGAATGGTCTCCCGATGGCGAGTACTTTGCTACTGC CGGCAAAGACGACTGTCTGCTCAAGGTGTGGTATCCAATGACTGGATGGAAGTCCTCCATTATCCCGCAG GACCATCATGAAGTCAAGCGGCGACAGAGTAGTACCCAGTTTTCATTCGTCTACCTTGCTCACCCACGGG CTGTGACTGGGTTTTCCTGGCGCAAGACCTCTAAGTATATGCCGCGCGGGTCCGTTTGTAATGTACTCCT GACTTCTTGTCATGACGGAGTGTGCCGCCTGTGGGCGGAGACCCTCCTGCCGGAGGATTGCCTTCTGGGC GAACAAATTTGCGAGACAACAACCAGCTCAATTGCCAGTAGCTTGTCTCACGCAGGCCGCCACAAAGACA GAATCCAGCATGCTCTCGAGACCATTCACCATCTGAAGAATCTTCGGAAAGGGCAGCGAAGATCCTCTGT TCTGGTGACCCATGCTGAGCTGATGCCGGACCAAACCGCAATGCACGAGGTACAGCGGCACATCAGTCAC CACGCAAATGCTCTTTGTCATTTTCACATCGCAGCTAGTATCAATCCGGCGACCGATATTCCAAACGTGC TGGTGGGAACTGCTTTCAATGTTGACGATGGCAACGGCGGCTTCGTCGTTCACTGGCTTAATAATAAGGA GTTTCATTTTACATCTTCTACTGAAGTGTTTATGCATCAACTGAGAAAGCTGAGCGATAAGCAGGTCGAC CATGAAAACGACGATGCAGACCGCGAAGACGAGGAGCATAGCCAGGAGGATAGGGAGCGGGGGCTCCATA TGAAGCTGGACCATGACCTTTCTCTGGACAGGGAAAGCGAAGCCGGTACGGGGTCTAGCGAACATGAGGA TGGTGAAAGGGAGGGGTCACCTCGGACATACTCAAGACTCTCCGTGCCAATGCCACTCCCAACCGTCTTG CTGGACCGCAAGATTGAGACCCTTTTGACAGAGTGGAACAAGAACCCTGACATGCTTTTCACCATTCATC CCGTCGACGGGACCTTTCTGGTGTGGCATGTGAAGTATCTCGATGAATACAATCCCGGCATCTTCAGACA AGTCCAGGTTAGCTTCTCTTCAAGGATACCAGTTGCTTTCCCAAGCGGTGATGCCAGCAGTCTGTCTAAA AATATAATGATGTATGCATGCATCAATGCCACGAAGGATAGTCATCACACGCTGCTTCATCAGGAGGGCA TGTCTGTCGGCAGTCCTCACGGATCCCAGCCTCATAGCCGGTCCCACTCCACACACATGAACATCCTGGC ACCTACGGTCATGATGATAAGCAAGCATATCGATGGCAGTTTGAACCAGTGGGCTGTCACATTCGCGGAC AAGAGTGCTTTCACGACCGTGTTGACGGTGTCTCATAAGTTCCGGTACTGTGGCCACCGCTTCCACCTTA ACGACCTGGCTTGCCACAGTGTACTGCCGCTCCTGCTTACAAGCAGCCACCATAACGCTCTGCTGACGCC CGAGTTGGATTGCCAGTGGGACAGCGACAATAAGCTCTCAAGACTCATGGATCCAGTCAAGCACATCAAA GGCAGCTCAAAGCAGCCTCTCCGGAACGCAGCCACACGGACGTTCCACGACCCAAATGCAATCTATAGCG AGCTTATCTTGTGGAGGGTGGACCCTATAGGTCCACTGTCCTACACAGGCGGCGTCAGTGAACTGGCGCG CATCAACAGCCTGCACACCTCTGCCTTCTCTAACGTTGCTTGGCTGCCAACACTGATCCCATCCTATTGT TTGGGAACGTATTGCAACTCCGCAAGCGCCTGCTTCGTGGCCTCCGATGGGAAGAACCTGAGACTGTACC AGGCTGTAGTGGATGCACGCAAATTGCTTGATGAACTCTCTGATCCAGAGTCTAGTAAACTCATAGGCGA GGTTTTTAATATAGTTTCTCAGCAGTCCACAGCCCGACCTGGATGTATTATCGAACTCGACGCCATCACT AATCAGTGCGGAAGCAATACTCAACTGTTGCATGTGTTCCAGGAGGACTTTATTATTGGGTACAAGCCTC ACAAAGAGGATATGGAGAAGAAGGAGACAGAAATCTTCTTCCAGCCAAGTCAGGGCTATCGACCCCCACC TTTCAGTGAAAAATTTTTCTTGGTGGTCATTGAGAAAGACAGTAATAATAATAGTATACTCCACATGTGG CATCTGCACTTGAAATCCGTCCAGGCTTGCCTGGCAAAAGCTAGCGAAGGAGCCAGCTCTGAGTCTTTGC TGTCCGTTCCGGGACAGAAGAACGTGGACTCCAGTCCGGAAACCTCACCATCCGTGAGCCCCATGCCTCA TAGCTCTTCTATCGCCAATCTCCAGACCGCATCTAAGTTGATTTTGTCCAGCCGGCTGGTCTACTCTCAG CCACTGGATCTGCCTGAATCAGTGGAAGTGATAAGAGCTACCCCAAGTGCCGGCCATCTGTCCAGTAGTT CCATTTACCCTGTTTGCCTGGCACCCTATCTCGTTGTGACTACTTGTAGTGATAATAAAGTGCGATTTTG GAAGTGTTGTATGGAGGCCAACCCTGAGTGCAACAAATCAGATGAAAAGGAGATCTACCACTGGAAAAGA TGGCCACTGATGAATGATGAGGGGGAGGACAACTCTTCAACAGTGTCTATTGTGGGGCGGCCTGTGGCTG TGAGCTGTTCCTACACCGGCAGGCTTGCTGTAGCGTACAAACAGCCTATTCATCACAACGGGTTTGTTTC TAAGGAGTTCAGTATGCACGTCTGCATTTTCGAATGCGAAAGTACCGGAGGCAGCGAGTGGGTGCTGGAG CAAACTATACACCTGGACGACCTCGTTAAAGTCGGATCTGTTCTGGACAGTCGAGTGAGCGTCGACAGCA ATTTGTTCGTTTACAGTAAGAGTGATGCACTGCTGTCAAAGGACAGGTACCTCATCCCTAATATCAAGCA CCTTGTTCACCTGGACTGGGTGTCCAAAGAGGACGGCAGCCACATTCTGACTGTCGGCGTCGGCGCCAAT ATTTTTATGTACGGCCGCCTTTCTGGGATTGTTACCGAACAGACTAACAGCAAAGATGGTGTAGCTGTGA TAACTTTGCCCTTGGGCGGCTCCATCAAACAGGGCGTCAAGTCCCGATGGGTGCTCCTGAGGTCAATCGA CCTGGTCAGCTCTGTGGATGGCACGCCGTCCTTGCCTGTCTCATTGTCCTGGGTCCGCGACGGCATCCTG GTTGTGGGTATGGACTGTGAAATGCATGTATACGCACAATGGAAACACGCTGTGAAGTTCGGCGATACTG AGGCAGACAGTAGTAACGCTGAGGAGGCAGCCATGCAAGATCACTCTACATTCAAGTCCAACATGCTCGC CAGAAAGAGTGTGGTGGAGGGAACTGCTATTAGCGACGATGTCTTCTGCTCTCCAACGGTGATCCAAGAC GGTGGACTTTTCGAGGCTGCACATGTCCTTTCTCCCACATTGCCTCAGTACCACCCTACCCAGTTGCTTG AGCTCATGGATCTTGGTAAGGTGAGGCGCGCTAAGGCTATCCTTAGTCATCTCGTAAAGTGCATTGCCGG GGAAGTGGCTATCGTCAGAGATCCGGACGCTGGGGAGGGAACTAAACGCCACCTGAGCCGGACGATATCA GTATCTGGTTCAACAGCTAAGGAGACCGTGACCGTAGGGAAGGACGGAACCCGCGACTACACAGAGATCG ATTCCATCCCCCCACTGCCCCTCTATGCGCTCCTGGCTGCTGACCAAGATACATCATACCGGATTTCCGA AGAAAGCACCAAAATCCCACAGTCTTACGAAGATCAGACGGTATCTCAGCCAGAGGATCAGTACTCCGAG CTGTTCCAGATCCAAGACATCCCCACAGATGACATCGATCTCGAACCTGAGAAGCGGGAGAATAAAAGTA AAGTGATCAATCTGTCACAGTATGGGCCTGCCTACTTCGGGCAGGAACATGCCCGGGTCCTGTCTTCACA 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 CTGCATCAATTTACCAAGCATTATGTGACAGTCATAGCTACAGTCAAACAGAAGGAAATCAGTTTACAGG AATGGCTTATCAAGGACTTCTTTTAAGTGATCGTAGAAGACTAAGGACAGAAAGCATTGAAGAACACGCA ACACCAAATTCATCTCCTGCTCAATGGCCTGGTGTGAGCTCACTTATTAATCTTTTGAGTTCAGCCCAAG ATGAAGACCAGCCAAAACTGAACATTTTGCTATGTGAAGCTGTTGTTGCTGTTTACTTAAGTTTATTGAT ACATGCTCTTGCCACAAATTCCTCCAGTGAATTATTTCGGCTTGCAGCCCACCCATTAAATAATCGAATG TGGGCTGCTGTTTTTGGAGGCGGTGTAAAACTTGTTGTGAAACCTCGAAGACAATCAGAAAATATTTCAG CACCTCCTGTCCTTTCTGAAGACATAGATAAACACCGTAGGAGATTTAACATGAGAATGCTCGTCCCTGG AAGGCCTGTAAAAGATGCTACCCCACCACCGGTGCCTGCAGAAAGACCATCTTACAAAGAAAAATTTATT CCTCCCGAACTTAGTATGTGGGATTATTTTGTTGCAAAGCCATTTCTTCCTTTGTCTGATAGTGGTGTTA TATATGATTCTGATGAAAGCATTCATAGTGATGAAGAAGATGATGCCTTTTTTTCAGATACACAAATACA GGAGCACCAAGATCCAAATTCCTATAGCTGGGCTCTTCTACATTTGACAATGGTTAAACTAGCACTTCAC AATGTCAAGAATTTCTTTCCTATTGCTGGACTGGAATTCTCTGAGCTGCCTGTAACATCACCATTAGGTA TTGCTGTGATTAAAAACTTGGAGAACTGGGAACAGATCTTGCAAGAGAAAATGGATCAGTTTGAAGGTCC ACCCCCTAACTATATCAACACATATCCAACTGACCTTTCAGTGGGAGCTGGACCAGCTATTCTTCGAAAT AAAGCAATGCTAGAACCTGAAAATACCCCATTCAAGTCCCGGGATTCTTCTGCATTTCCAGTCAAACGAC TTTGGCATTTCCTTGTTAAACAAGAGGTCCTTCAAGAGACATTTATTAGATATATTTTCACTAAGAAAAG AAAGCAGAGTGAGGTTGAAGCTGATCTGGGCTATCCAGGTGGAAAGGCGAAAGTCATCCATAAGGAATCT GATATGATCATGGCATTTTCTGTTAATAAGGCAAATTGTAATGAAATTGTTTTGGCTTCAACACATGATG TTCAAGAACTTGATGTTACTTCTCTACTGGCCTGTCAGTCATACATATGGATCGGAGAAGAATATGACAG AGAATCCAAAAGTTCAGATGATGTTGATTATCGTGGTTCCACTACAACTCTTTATCAACCCAGTGCAACA TCCTATTCAGCAAGTCAGGTGCATCCACCTTCATCTCTGCCATGGCTGGGCACTGGACAGACTAGCACTG GAGCTAGTGTGCTTATGAAAAGGAATCTACATAATGTTAAGAGAATGACTTCACACCCAGTCCATCAATA CTATCTTACAGGTGCTCAGGACGGCAGTGTACGAATGTTTGAATGGACGCGGCCTCAGCAACTTGTCTGC TTTCGTCAAGCTGGCAATGCAAGAGTTACTAGATTATATTTTAATTCACAAGGCAACAAGTGTGGTGTTG CGGATGGAGAGGGTTTTCTGAGTATCTGGCAAGTTAACCAAACTGCATCAAATCCTAAACCTTATATGAG TTGGCAGTGCCACAGTAAAGCCACAAGTGACTTTGCATTTATTACCTCTTCAAGTCTAGTTGCCACATCT GGACACTCCAATGACAATAGAAATGTTTGCCTCTGGGACACATTAATATCACCCGGAAACAGCCTCATTC ATGGTTTCACGTGCCACGATCATGGTGCCACGGTACTGCAGTATGCACCCAAACAGCAACTCCTAATCTC GGGGGGTAGGAAAGGACACGTCTGCATTTTTGACATCAGGCAAAGGCAGCTCATTCACACGTTCCAGGCC CATGACTCAGCTATTAAGGCTCTGGCCTTGGATCCCTATGAGGAATATTTTACCACAGGTTCAGCAGAAG GTAACATAAAGGTTTGGAGATTGACAGGCCATGGCCTAATTCATTCATTTAAAAGTGAACATGCTAAGCA GTCCATATTTCGAAACATTGGGGCTGGAGTCATGCAGATTGACATCATCCAGGGCAATCGGCTCTTCTCC TGTGGTGCAGATGGCACGCTGAAAACCAGGGTTTTGCCCAATGCTTTTAACATCCCTAACAGAATTCTTG ACATTCTA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RC215775 representing NM_015263
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 KTPPHPSIEDVKVHTLHSLAASLSASIYQALCDSHSYSQTEGNQFTGMAYQGLLLSDRRRLRTESIEEHA TPNSSPAQWPGVSSLINLLSSAQDEDQPKLNILLCEAVVAVYLSLLIHALATNSSSELFRLAAHPLNNRM WAAVFGGGVKLVVKPRRQSENISAPPVLSEDIDKHRRRFNMRMLVPGRPVKDATPPPVPAERPSYKEKFI PPELSMWDYFVAKPFLPLSDSGVIYDSDESIHSDEEDDAFFSDTQIQEHQDPNSYSWALLHLTMVKLALH NVKNFFPIAGLEFSELPVTSPLGIAVIKNLENWEQILQEKMDQFEGPPPNYINTYPTDLSVGAGPAILRN KAMLEPENTPFKSRDSSAFPVKRLWHFLVKQEVLQETFIRYIFTKKRKQSEVEADLGYPGGKAKVIHKES DMIMAFSVNKANCNEIVLASTHDVQELDVTSLLACQSYIWIGEEYDRESKSSDDVDYRGSTTTLYQPSAT SYSASQVHPPSSLPWLGTGQTSTGASVLMKRNLHNVKRMTSHPVHQYYLTGAQDGSVRMFEWTRPQQLVC FRQAGNARVTRLYFNSQGNKCGVADGEGFLSIWQVNQTASNPKPYMSWQCHSKATSDFAFITSSSLVATS GHSNDNRNVCLWDTLISPGNSLIHGFTCHDHGATVLQYAPKQQLLISGGRKGHVCIFDIRQRQLIHTFQA HDSAIKALALDPYEEYFTTGSAEGNIKVWRLTGHGLIHSFKSEHAKQSIFRNIGAGVMQIDIIQGNRLFS CGADGTLKTRVLPNAFNIPNRILDIL TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_015263 |
ORF Size | 9108 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). |
Reconstitution | 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. |
Reference Data | |
RefSeq | NM_015263.1, NM_015263.2, NM_015263.3, NP_056078.1 |
RefSeq Size | 10596 bp |
RefSeq ORF | 9111 bp |
Locus ID | 23312 |
UniProt ID | Q8TDJ6 |
Cytogenetics | 15q21.2 |
MW | 339.6 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] |
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