Trio (NM_001081302) Mouse Tagged ORF Clone
CAT#: MR215640
- TrueORF®
Trio (Myc-DDK-tagged) - Mouse triple functional domain (PTPRF interacting) (Trio)
ORF Plasmid: tGFP
"NM_001081302" in other vectors (2)
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CNY 30,970.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 6720464I07Rik; AA408740; Solo |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR215640 representing NM_001081302
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAGCGGCAGCAGCGGCGGTGCCACCGCCCCGGCCGCGTCCTCCGGCCCCGCGGCAGCGGCCAGCGCGG CGGGCTCCGGCTGCGGGGGCGGCGCCGGCGAGGGCGCCGAGGAGGCCGCCAAGGACCTAGCCGACATCGC GGCCTTCTTCCGATCCGGGTTTCGGAAAAATGATGAAATGAAAGCTATGGATGTTTTGCCAATTCTGAAG GAAAAAGTCGCCTATCTTTCAGGTGGTAGAGATAAGCGTGGAGGTCCCATTTTAACATTTCCAGCCCGCA GCAATCATGACAGAATACGGCAGGAGGACCTCAGGAGGCTCATTTCCTATTTAGCCTGCATTCCCAGTGA GGAAGTCTGCAAGCGAGGGTTCACAGTGATTGTGGACATGCGCGGCTCCAAGTGGGACTCCATCAAGCCG CTGCTGAAGATCCTGCAGGAGTCCTTTCCGTGCTGCATCCACATAGCCCTGATAATCAAGCCCGACAACT TCTGGCAGAAACAGAGGACGAATTTTGGCAGCTCCAAATTTGAATTTGAGACAAATATGGTCTCCTTAGA AGGCCTTACCAAAGTAGTTGATCCTTCCCAGCTAACTCCCGAGTTTGACGGCTGCCTGGAATACAACCAT GAGGAGTGGATAGAAATCCGAGTAGCTTTCGAGGAGTACATTAGCAATGCAGCCCATATGCTGTCACGGC TAGAGGAACTTCAGGATGTTCTCGCCAAAAAGGAGTTGCCTCAGGACCTAGAGGGGGCTCGGAACATGAT CGACGAGCACTCCCAGTTGAAGAAGAAGGTGATCAAGGCCCCCATTGAGGACTTGGACTTAGAAGGGCAG AAGCTGCTTCAGCGGATACAGAGCAGCGACAGTTTCCCCAAAAAGAACTCAGGCTCGGGCAATGCAGACC TGCAGAACCTCCTGCCCAAGGTGTCCACCATGCTAGACAGGCTGCACTCCACCCGGCAGCACCTCCACCA GATGTGGCACGTGAGGAAACTGAAGCTGGACCAGTGCTTCCAGCTGCGGCTGTTCGAACAGGATGCTGAG AAGATGTTTGACTGGATCACTCACAACAAAGGCCTGTTTCTGAACAGCTACACGGAGATCGGGACCAGCC ACCCGCATGCCATGGAACTTCAGACGCAGCACAATCATTTTGCCATGAACTGTATGAACGTATATGTAAA TATAAACCGCATAATGTCAGTGGCCAATCGCCTGGTGGAGTCGGGCCACTACGCCTCTCAGCAGATTAAG CAGATTGCAAATCAGCTGGAACAAGAGTGGAAGGCGTTTGCAGCAGCCTTGGACGAGCGCAGCACCTTGT TGGACATGTCCTCCATCTTTCACCAGAAGGCTGAGAAGTACATGAGCAACGTGGACTCGTGGTGTAAGGC CTGTGGTGAAGTAGACCTTCCCTCGGAGCTGCAGGACCTGGAAGACGCCATTCATCATCACCAGGGCATC TACGAGCACATCACCCTCGCCTACTCAGAGGTGAGCCAGGATGGGAAGTCCCTCCTTGATAAGCTCCAGC GCCCCCTGACCCCCGGCAGCTCCGACTCCCTCACCGCCTCCGCCAACTACTCCAAGGCTGTGCACCACGT CTTGGATGTCATCCACGAGGTCCTGCACCACCAGCGCCAGCTGGAGAACATCTGGCAGCACCGCAAGGTT CGGCTCCACCAGAGGCTGCAGCTCTGCGTCTTCCAGCAGGACGTTCAGCAGGTGCTGGACTGGATAGAGA ACCACGGAGAAGCGTTTCTGAGCAAACACACGGGCGTGGGCAAATCCCTTCACCGGGCCAGAGCTTTGCA GAAACGCCACGAGGACTTCGAGGAAGTCGCACAGAACACGTACACAAACGCAGATAAACTGCTAGAAGCA GCAGAGCAGCTGGCTCAGACGGGGGAATGTGACCCCGAAGAGATTTATCAGGCTGCCCATCAGCTTGAAG ACCGGATACAAGATTTTGTTCGGCGAGTTGAACAACGAAAGATCCTGCTGGACATGTCTGTGTCATTTCA CACGCACGTAAAAGAGCTCTGGACATGGCTGGAGGAGTTACAGAAGGAACTGCTGGACGACGTGTACGCC GAGTCGGTGGAGGCCGTGCAGGACCTCATCAAGCGATTCGGCCAGCAGCAGCAGACCACCCTGCAGGTGA CTGTCAACGTGATCAAGGAAGGAGAAGACCTCATCCAGCAGCTGAGGGACTCCGCCATCTCCAGTAACAA AACTCCGCACAACAGTTCCATCAACCACATCGAGACGGTGCTACAGCAGCTGGACGAGGCTCAGTCCCAG ATGGAGGAGCTCTTCCAGGAGCGCAAGATCAAGCTGGAGCTCTTCCTGCAGCTGCGCATCTTCGAGCGGG ATGCCATCGATATCATCTCGGACCTTGAGTCGTGGAATGATGAGCTTTCCCAGCAAATGAATGACTTCGA TACGGAGGACCTGACGATCGCAGAGCAGCGCCTACAGCACCATGCAGACAAAGCCCTGACCATGAATAAC TTGACTTTCGATGTCATCCACCAAGGACAGGATCTTCTGCAGTATGTCAATGAGGTCCAGGCCTCTGGTG TGGAGCTGCTTTGTGACAGAGATGTGGACATGGCCACTCGGGTTCAGGACCTCCTGGAGTTTCTTCATGA GAAGCAGCAGGAGTTGGATTTGGCAGCTGAGCAGCATCGGAAACACTTGGAGCAGTGTGTGCAGTTGCGC CACCTGCAGGCGGAAGTGAAGCAGGTGCTGGGCTGGATCCGAAATGGAGAGTCCATGCTAAATGCTGGGC TCATCACGGCCAGCTCGCTGCAGGAAGCCGAGCAGCTGCAGCGAGAACACGAGCAGTTCCAGCATGCGAT TGAGAAAACGCACCAGAGCGCGCTGCAGGTACAGCAGAAGGCGGAGGCCATGCTGCAGGCCAACCACTAT GACATGGACATGATCCGGGACTGTGCAGAGAAGGTCGCCTCGCACTGGCAGCAGCTCATGCTGAAGATGG AAGACCGCCTCAAGCTTGTCAATGCCTCTGTCGCCTTCTACAAGACTTCTGAGCAGGTCTGCAGTGTCCT GGAAAGTCTGGAACAGGAGTACAAGAGAGAAGAGGACTGGTGTGGCGGGGCCGACAAGCTGGGCCCCAAT TCTGAGACTGACCACGTCACCCCCATGATTAGCAAGCACCTCGAACAAAAGGAAGCCTTCCTGAAGGCTT GCACACTGGCCAGGAGGAACGCAGACGTCTTCCTAAAGTACCTGCACAGGAACAGCGTGAGCATGCCGGG GATGGTGACGCACATCAAAGCTCCGGAACAGCAAGTAAAAAATATCTTGAATGAACTCTTCCAGCGGGAA AACAGGGTATTGCATTATTGGACCATGAGGAAAAGGCGGCTGGACCAGTGTCAGCAGTACGTGGTCTTCG AGAGGAGCGCCAAGCAGGCATTAGAGTGGATCCACGACAATGGGGAGTTCTACCTTTCCACACATACCTC AACAGGGTCCAGCATTCAGCACACACAGGAGCTGTTGAAAGAACACGAGGAGTTTCAGATAACTGCCAAG CAAACCAAAGAGAGGGTGAAGCTATTGATACAGCTGGCCGATGGCTTTTGTGAAAAAGGGCATGCCCATG CAGCAGAAATTAAAAAATGTGTGACCGCAGTGGATAAGAGGTACAGAGATTTCTCTCTGCGCATGGAGAA GTACCGGACCTCTTTGGAGAAAGCCCTGGGGATTTCTTCAGATTCCAACAAATCGAGTAAAAGCCTGCAG TTGGACATCATCCCTGCCAGTATCCCCGGGTCAGAGGTGAAGCTTCGGGATGCTGCCCACGAGCTTAATG AAGAGAAGCGGAAGTCTGCCCGCAGGAAAGAGTTCATCATGGCTGAACTAATTCAAACGGAAAAGGCTTA TGTCAGAGACCTCCGAGAGTGTATGGATACCTACCTGTGGGAAATGACCAGCGGCGTGGAGGAGATCCCG CCAGGCATTGTCAACAAGGAGCTCATCATCTTCGGGAACATGCAGGAGATCTACGAGTTCCACAACAACA TCTTCCTGAAGGAGCTGGAGAAGTACGAGCAGCTCCCAGAGGACGTGGGACACTGCTTCGTCACCTGGGC AGACAAGTTTCAGATGTATGTCACATACTGCAAAAATAAACCTGATTCTACACAGCTGATACTAGAGCAC GCAGGGTCCTACTTTGATGAGATCCAGCAGCGGCATGGCTTAGCCAATTCCATCTCTTCCTACCTGATCA AACCAGTTCAGCGGATAACAAAGTATCAGCTCCTTTTAAAGGAGCTGCTCACATGCTGTGAGGAAGGAAA GGGGGAGATCAAAGATGGCCTGGAGGTGATGCTCAGCGTGCCCAAGCGAGCCAATGATGCCATGCACCTC AGCATGCTGGAAGGGTTTGACGAAAACATTGAGTCTCAGGGAGAGCTCATCCTGCAGGAGTCCTTCCAAG TGTGGGACCCGAAAACCTTAATTCGGAAGGGTCGAGAACGGCATCTCTTCCTTTTTGAAATGTCCTTGGT GTTTAGTAAAGAAGTGAAAGACTCCAGCGGGAGAAGCAAGTACCTGTACAAAAGCAAGCTGTTTACCTCA GAGTTGGGTGTCACAGAACACGTTGAAGGAGATCCTTGCAAATTTGCACTGTGGGTGGGGAGGACGCCAA CTTCAGATAATAAAATTGTCCTTAAGGCATCCAGTATCGAGAACAAGCAGGACTGGATCAAGCACATCCG TGAGGTGATCCAGGAGAGGACGGTGCACCTGAGAGGAGCCCTGAAGGAGCCCATTCACATCCCCAAAACA GCTCCGGCAGCAAGGCAGAAGGGGAGGAGGGATGGAGAAGACCTGGACAGCCAAGGGGATGGCAGCAGCC AGCCCGACACCATTTCCATCGCCTCCAGGACATCTCAGAACACACTGGACAGTGATAAGCTTTCTGGTGG CTGCGAGCTGACGGTCGTGATTCATGACTTCACAGCCTGCAACAGCAATGAGCTGACCATCCGGCGTGGC CAGACAGTGGAGGTCCTGGAACGGCCTCACGACAAGCCCGACTGGTGTCTGGTGCGCACCACTGACAGGT CCCCTGCAGCAGAAGGCCTCGTGCCCTGTGGCTCACTGTGCATCGCCCACTCCCGAAGTAGCATGGAGAT GGAGGGCATCTTCAACCACAAAGACTCACTGTCGGTCTCCAGTAATGACGCCAGCCCACCGGCCTCTGTG GCTTCCCTTCAGCCCCACATGATCGGAGCACAGAGTTCACCAGGTCCCAAGCGGCCCGGCAACACCCTGC GCAAGTGGCTCACGAGCCCCGTGCGGCGGCTCAGCAGCGGTAAGGCCGATGGGCATGCGAAGAAGCTGGC CCACAAGCACAAGAAGAGCCGGGAGGTCCGTAAGAGCGCGGATGCTGGATCGCAGAAGGATTCGGATGAC AGCGCTGCCACCCCGCAGGATGAAACCATCGAAGAGAGAGGACGGAACGAGGGTCTCAGCAGTGGTACGC TGTCCAAGTCCTCGTCCTCGGGCATGCAGAGCTGCGGAGAAGAAGAAGGCGAGGAGGGCGCCGACGCTGT ACCACTGCCTCCCCCCATGGCCATTCAGCAGCACAGCCTCCTTCAGCCGGACTCGCAGGATGACAAGGCC TCTTCAAGGTTATTGGTCCGCCCCACCAGTTCTGAGACTCCCAGCGCAGCTGAGCTCGTCAGTGCTATTG AAGAACTCGTGAAAAGCAAAATGGCACTGGAGGATCGTCCCAGCTCGCTGCTCGTCGACCAGGGAGACAG TAGCAGCCCATCCTTCAATCCCTCAGACAATTCCCTCCTCTCATCCTCCTCACCCATTGATGAGATGGAA GAAAGAAAATGCAGCTCTCTGAAGAGAAGGCACTATGTTTTGCAAGAGTTAGTGGAGACAGAGCGAGACT ATGTACGGGACCTTGGCTGTGTGGTTGAGGGCTACATGGCACTTATGAAGGAAGACGGCGTTCCTGATGA CATGAAGGGAAAAGACAAGATCGTGTTTGGCAACATCCATCAGATTTATGACTGGCACAGAGACTTTTTT TTAGGAGAGTTGGAGAAGTGCCTTGAAGATCCAGAAAAACTCGGATCCCTTTTTGTAAAGCACGAGAGAC GGTTGCACATGTACATAGTTTATTGTCAAAATAAGCCAAAGTCTGAGCACATTGTGTCCGAGTACATCGA CACCTTTTTTGAGGACTTAAAGCAGCGCCTGGGCCACAGACTGCAGCTCACTGATCTGTTGATCAAACCG GTGCAGAGAATCATGAAGTACCAGCTGCTCCTGAAGGACTTCCTCAAGTACTCAAAAAAAGCTAGCCTGG ACACATCCGAATTAGAGAAAGCTGTAGAAGTCATGTGCATCGTGCCGAAGCGCTGTAATGACATGATGAA CGTCGGGCGGCTGCAGGGATTTGACGGTAAAATTGTTGCCCAGGGTAAACTGCTCTTACAGGACACATTC CTGGTCACAGATCAAGACGCAGGACTTCTGCCTCGATGCAAAGAGAGGCGGGTTTTCCTCTTTGAACAGA TCGTCATATTCAGCGAACCACTTGATAAAAAAAAGGGCTTTTCCATGCCAGGATTTCTGTTCAAGAACAG TATCAAGGTGAGTTGCCTCTGCTTGGAGGAAAATGTGGAGAGCGATCCCTGTAAGTTCGCCCTGACGTCC AGGACGGGCGATGCCGTGGAGACTTTCGTTTTGCATTCATCCAGTCCAAGCGTCCGGCAAACGTGGATCC ATGAGATCAACCAAATCTTAGAAAACCAGCGCAACTTTTTAAACGCCTTGACATCACCCATCGAGTACCA GAGGAACCATAGTGGGGGCGGCGGCAGTGGCAGCGGGGGCAGCAGCGGCGGGGGCGGGGGCAGCGGCGGC AGCGGGGCCTCCAGCGGAGGCAGCAGCAGCCATGGCAGTGGCCCCAGCAGCTGTAGCAGTGGCCCCAGCT CGAGCAGGAGCAGGCCCTCCAGGATCCCACAGCCTGTCAGACACCACCCCCCCATGCTGGTCTCCTCTGC AGCCTCAAGCCAGGCAGAGGCAGACAAGATGTCAGGTATGTCTGCTCCCAGCCCCTCACTGCCTACCCCC AGCAGCAGCCTGGCCCTTGAGGCCAGCCTTGGCCAGCCCAGCAGGCTCCCCCTGAGTGGAGACTCCGAAG GTCATGAGCGAGAAACAGAACCCATTCCCAAGATGAAGGTGATGGAGAGCCCCCGGAAGGCCCCGGGGAG TACTTCCGGTACAAGCCAAGACGGAAACACCAAGGATGCCCGGGGAAACCTGGGCTCACTGCCTCTGGGC AAGACTAGACCTGGGGCCGTCTCACCGCTGAACTCTCCTCTCTCCACTACGTTCCCTTCTCCTTTTGGCA AGGAGGCCTTTCCTCCCAGCAGCCCCTTGCAGAAGGGGGGCTCCTTCTGGAGCTCCATTCCTGCTTCCCC TGCCAGCCGGCCAAGCTCCTTCACCTTCCCGGGGGACAGTGACTCCCTCCAGCGACAGACGCACCGCCAT GCAGCCCCCAGCAAGGACACAGACCGCATGAGCACGTGCTCCTCGGCCAGCGAGCAGTCCGTGCAGTCCA CTCAGAGCAACGGGAGTGAAGGCAGCAGCAGTAGCAACATCTCCACCATGCTGGTGACACACGAGTACAC GGCAGTGAAGGAGGATGAGATAAACGTCTATCAAGGAGAGGTCGTTCAAATTCTGGCCAGCAACCAGCAG AACATGTTTCTGGTGTTCCGAGCCGCCACTGACCAGTGCCCCGCAGCCGAGGGCTGGATTCCGGGCTTCG TCTTGGGCCATACGAGTGCAGTTATCATGGAGAACCCCGACGGGACTCTCAAGAAATCAACATCTTGGCA CACAGCACTCCGTTTAAGGAAGAAGTCTGAGAAGAAAGATAAAGACGGCAAAAGGGATGGCAAGTTGGAG AATGGGTACAGGAAGCCACGAGAAGGGCTCAGTAACAAGGTATCTGTGAAGCTTCTTAACCCCAACTACA TTTATGACGTTCCCCCAGAATTTGTTATCCCATTGAGTGAGGTCACGTGCGAGACAGGGGAGACCGTTGT TTTTAGATGTCGTGTCTGTGGCCGCCCCAAGGCCTCAATCACCTGGAAGGGCCCCGAACACAACACTTTG AACAACGATGACCACTACAGCATCTCCTACAGTGACATTGGGGAGGCCACTCTGAAGATCATTGGTGTAA GCACAGAAGATGATGGCATCTACACCTGCATCGCTGTGAATGACATGGGTTCAGCCTCATCTTCTGCCAG CCTGAGGGTTCTAGGTCCAGGGAGTGATGGGATCGTGGTGACTTGGAAGGACAACTTCGACGCCTTCTAC AGTGAAGTGGCTGAGCTTGGCAGGGGCAGGTTTGCTGTAGTTAAGAAATGTGACCAGAAGGGAACCAAAC GAGCAGTGGCCACAAAGTTTGTGAACAAGAAGTTGATGAAGCGTGACCAGGTCACTCATGAGCTCGGCAT CCTGCAGAACCTGCAGCACCCCCTCCTCGTGAGCCTTCTTGACACCTTCGAGACCCCCACCAGTTACGTC CTGGTTCTGGAAATGGCTGACCAAGGTCGCCTCCTTGACTGTGTGGTCCGGTGGGGAAGCCTCACCGAAG GGAAGGTCAGAGCGCACCTGGGGGAAGTTCTGGAAGCCGTCCGATACCTTCACAACTGCAGGATAGCACA CCTGGACCTAAAGCCTGAGAATATCTTGGTGGATCAGAGTTTGGCCAAGCCAACCATTAAACTGGCTGAC TTTGGAGACGCTGTCCAGCTCAACACCACCTACTACATCCACCAGTTGCTGGGGAACCCCGAGTTTGCAG CCCCGGAAATCATTCTTGGGAACCCTGTCTCCCTGACCGCGGACACATGGAGTGTTGGGGTGCTCACCTA CGTGCTGCTCAGCGGCGTGTCCCCCTTCCTGGATGACAGCGTGGAAGAGACCTGCCTGAATATTTGCCGG CTGGACTTTAGCTTCCCAGAGGACTACTTTCAAGGAGTTAGCCAGAAGGCCAAAGAATTCGTGTGCTTCC TCCTACAGGAGGACCCCGCCAAGCGTCCCTCGGCTGCACTGGCCCTGCAGGAACAGTGGCTGCAGGCAGG CAACGGCAGCGGCAAAGGCACGGGCGTCCTCGACACGTCCAGACTGACCTCCTTCATTGAGCGGCGCAAA CACCAGAATGATGTTCGACCTATCCGTAGCATTAAAAACTTCTTACAGAGCAGGCTTCTGCCTAGAGTT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR215640 representing NM_001081302
Red=Cloning site Green=Tags(s) MSGSSGGATAPAASSGPAAAASAAGSGCGGGAGEGAEEAAKDLADIAAFFRSGFRKNDEMKAMDVLPILK EKVAYLSGGRDKRGGPILTFPARSNHDRIRQEDLRRLISYLACIPSEEVCKRGFTVIVDMRGSKWDSIKP LLKILQESFPCCIHIALIIKPDNFWQKQRTNFGSSKFEFETNMVSLEGLTKVVDPSQLTPEFDGCLEYNH EEWIEIRVAFEEYISNAAHMLSRLEELQDVLAKKELPQDLEGARNMIDEHSQLKKKVIKAPIEDLDLEGQ KLLQRIQSSDSFPKKNSGSGNADLQNLLPKVSTMLDRLHSTRQHLHQMWHVRKLKLDQCFQLRLFEQDAE KMFDWITHNKGLFLNSYTEIGTSHPHAMELQTQHNHFAMNCMNVYVNINRIMSVANRLVESGHYASQQIK QIANQLEQEWKAFAAALDERSTLLDMSSIFHQKAEKYMSNVDSWCKACGEVDLPSELQDLEDAIHHHQGI YEHITLAYSEVSQDGKSLLDKLQRPLTPGSSDSLTASANYSKAVHHVLDVIHEVLHHQRQLENIWQHRKV RLHQRLQLCVFQQDVQQVLDWIENHGEAFLSKHTGVGKSLHRARALQKRHEDFEEVAQNTYTNADKLLEA AEQLAQTGECDPEEIYQAAHQLEDRIQDFVRRVEQRKILLDMSVSFHTHVKELWTWLEELQKELLDDVYA ESVEAVQDLIKRFGQQQQTTLQVTVNVIKEGEDLIQQLRDSAISSNKTPHNSSINHIETVLQQLDEAQSQ MEELFQERKIKLELFLQLRIFERDAIDIISDLESWNDELSQQMNDFDTEDLTIAEQRLQHHADKALTMNN LTFDVIHQGQDLLQYVNEVQASGVELLCDRDVDMATRVQDLLEFLHEKQQELDLAAEQHRKHLEQCVQLR HLQAEVKQVLGWIRNGESMLNAGLITASSLQEAEQLQREHEQFQHAIEKTHQSALQVQQKAEAMLQANHY DMDMIRDCAEKVASHWQQLMLKMEDRLKLVNASVAFYKTSEQVCSVLESLEQEYKREEDWCGGADKLGPN SETDHVTPMISKHLEQKEAFLKACTLARRNADVFLKYLHRNSVSMPGMVTHIKAPEQQVKNILNELFQRE NRVLHYWTMRKRRLDQCQQYVVFERSAKQALEWIHDNGEFYLSTHTSTGSSIQHTQELLKEHEEFQITAK QTKERVKLLIQLADGFCEKGHAHAAEIKKCVTAVDKRYRDFSLRMEKYRTSLEKALGISSDSNKSSKSLQ LDIIPASIPGSEVKLRDAAHELNEEKRKSARRKEFIMAELIQTEKAYVRDLRECMDTYLWEMTSGVEEIP PGIVNKELIIFGNMQEIYEFHNNIFLKELEKYEQLPEDVGHCFVTWADKFQMYVTYCKNKPDSTQLILEH AGSYFDEIQQRHGLANSISSYLIKPVQRITKYQLLLKELLTCCEEGKGEIKDGLEVMLSVPKRANDAMHL SMLEGFDENIESQGELILQESFQVWDPKTLIRKGRERHLFLFEMSLVFSKEVKDSSGRSKYLYKSKLFTS ELGVTEHVEGDPCKFALWVGRTPTSDNKIVLKASSIENKQDWIKHIREVIQERTVHLRGALKEPIHIPKT APAARQKGRRDGEDLDSQGDGSSQPDTISIASRTSQNTLDSDKLSGGCELTVVIHDFTACNSNELTIRRG QTVEVLERPHDKPDWCLVRTTDRSPAAEGLVPCGSLCIAHSRSSMEMEGIFNHKDSLSVSSNDASPPASV ASLQPHMIGAQSSPGPKRPGNTLRKWLTSPVRRLSSGKADGHAKKLAHKHKKSREVRKSADAGSQKDSDD SAATPQDETIEERGRNEGLSSGTLSKSSSSGMQSCGEEEGEEGADAVPLPPPMAIQQHSLLQPDSQDDKA SSRLLVRPTSSETPSAAELVSAIEELVKSKMALEDRPSSLLVDQGDSSSPSFNPSDNSLLSSSSPIDEME ERKCSSLKRRHYVLQELVETERDYVRDLGCVVEGYMALMKEDGVPDDMKGKDKIVFGNIHQIYDWHRDFF LGELEKCLEDPEKLGSLFVKHERRLHMYIVYCQNKPKSEHIVSEYIDTFFEDLKQRLGHRLQLTDLLIKP VQRIMKYQLLLKDFLKYSKKASLDTSELEKAVEVMCIVPKRCNDMMNVGRLQGFDGKIVAQGKLLLQDTF LVTDQDAGLLPRCKERRVFLFEQIVIFSEPLDKKKGFSMPGFLFKNSIKVSCLCLEENVESDPCKFALTS RTGDAVETFVLHSSSPSVRQTWIHEINQILENQRNFLNALTSPIEYQRNHSGGGGSGSGGSSGGGGGSGG SGASSGGSSSHGSGPSSCSSGPSSSRSRPSRIPQPVRHHPPMLVSSAASSQAEADKMSGMSAPSPSLPTP SSSLALEASLGQPSRLPLSGDSEGHERETEPIPKMKVMESPRKAPGSTSGTSQDGNTKDARGNLGSLPLG KTRPGAVSPLNSPLSTTFPSPFGKEAFPPSSPLQKGGSFWSSIPASPASRPSSFTFPGDSDSLQRQTHRH AAPSKDTDRMSTCSSASEQSVQSTQSNGSEGSSSSNISTMLVTHEYTAVKEDEINVYQGEVVQILASNQQ NMFLVFRAATDQCPAAEGWIPGFVLGHTSAVIMENPDGTLKKSTSWHTALRLRKKSEKKDKDGKRDGKLE NGYRKPREGLSNKVSVKLLNPNYIYDVPPEFVIPLSEVTCETGETVVFRCRVCGRPKASITWKGPEHNTL NNDDHYSISYSDIGEATLKIIGVSTEDDGIYTCIAVNDMGSASSSASLRVLGPGSDGIVVTWKDNFDAFY SEVAELGRGRFAVVKKCDQKGTKRAVATKFVNKKLMKRDQVTHELGILQNLQHPLLVSLLDTFETPTSYV LVLEMADQGRLLDCVVRWGSLTEGKVRAHLGEVLEAVRYLHNCRIAHLDLKPENILVDQSLAKPTIKLAD FGDAVQLNTTYYIHQLLGNPEFAAPEIILGNPVSLTADTWSVGVLTYVLLSGVSPFLDDSVEETCLNICR LDFSFPEDYFQGVSQKAKEFVCFLLQEDPAKRPSAALALQEQWLQAGNGSGKGTGVLDTSRLTSFIERRK HQNDVRPIRSIKNFLQSRLLPRV TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites |
SgfI-MluI
Cloning Scheme for this gene
Plasmid Map
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ACCN | NM_001081302 |
ORF Size | 9309 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_001081302.1, NP_001074771.1 |
RefSeq Size | 11521 bp |
RefSeq ORF | 9312 bp |
Locus ID | 223435 |
UniProt ID | Q0KL02 |
MW | 348.4 kDa |
Gene Summary | Guanine nucleotide exchange factor (GEF) for RHOA and RAC1 GTPases. Involved in coordinating actin remodeling, which is necessary for cell migration and growth (By similarity). In developing hippocampal neurons, limits dendrite formation, without affecting the establishment of axon polarity. Once dendrites are formed, involved in the control of synaptic function by regulating the endocytosis of AMPA-selective glutamate receptors (AMPARs) at CA1 excitatory synapses (By similarity). May act as a regulator of adipogenesis (PubMed:22666460).[UniProtKB/Swiss-Prot Function] |
Documents
Product Manuals |
FAQs |
SDS |