Reelin (RELN) (NM_173054) Human Tagged ORF Clone
CAT#: RC217446
- TrueORF®
RELN (Myc-DDK-tagged)-Human reelin (RELN), transcript variant 2
ORF Plasmid: tGFP
"NM_173054" in other vectors (2)
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CNY 49,310.00
CNY 300.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | ETL7; LIS2; PRO1598; RL |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RC217446 representing NM_173054
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGAGCGCAGTGGCTGGGCCCGGCAGACTTTCCTCCTAGCGCTGTTGCTGGGGGCGACGCTGAGGGCGC GCGCGGCGGCTGGCTATTACCCCCGCTTTTCGCCCTTCTTTTTCCTGTGCACCCACCACGGGGAGCTGGA AGGGGATGGGGAGCAGGGCGAGGTGCTCATTTCCCTGCATATTGCGGGCAACCCCACCTACTACGTTCCG GGACAAGAATACCATGTGACAATTTCAACAAGCACCTTTTTTGACGGCTTGCTGGTGACAGGACTATACA CATCTACAAGTGTTCAGGCATCACAGAGCATTGGAGGTTCCAGTGCTTTCGGATTTGGGATCATGTCTGA CCACCAGTTTGGTAACCAGTTTATGTGCAGTGTGGTAGCCTCTCACGTGAGTCACCTGCCCACAACCAAC CTCAGTTTCATCTGGATTGCTCCACCTGCGGGCACAGGCTGTGTGAATTTCATGGCTACAGCAACACACC GGGGCCAGGTTATTTTCAAAGATGCTTTAGCCCAGCAGTTGTGTGAACAAGGAGCTCCAACAGATGTCAC TGTGCACCCACATCTAGCTGAAATACATAGTGACAGCATTATCCTGAGAGATGACTTTGACTCCTACCAC CAACTGCAATTAAATCCAAATATATGGGTTGAATGTAACAACTGTGAGACTGGAGAACAGTGTGGCGCGA TTATGCATGGCAATGCCGTCACCTTCTGTGAACCATATGGCCCACGAGAACTGATTACCACAGGCCTTAA TACAACAACAGCTTCTGTCCTCCAATTTTCCATTGGGTCAGGTTCATGTCGCTTTAGTTATTCAGACCCC AGCATCATCGTGTTATATGCCAAGAATAACTCTGCGGACTGGATTCAGCTAGAGAAAATTAGAGCCCCTT CCAATGTCAGCACAATCATCCATATCCTCTACCTTCCTGAGGACGCCAAAGGGGAGAATGTCCAATTTCA GTGGAAGCAGGAAAATCTTCGTGTAGGTGAAGTGTATGAAGCCTGCTGGGCCTTAGATAACATCTTGATC ATCAATTCAGCTCACAGACAAGTCGTTTTAGAAGATAGTCTCGACCCAGTGGACACAGGCAACTGGCTTT TCTTCCCAGGAGCTACAGTTAAGCATAGCTGTCAGTCAGATGGGAACTCCATTTATTTCCATGGAAATGA AGGCAGCGAGTTCAATTTTGCCACCACCAGGGATGTAGATCTTTCCACAGAAGATATTCAAGAGCAATGG TCAGAAGAATTTGAGAGCCAGCCTACAGGATGGGATGTCTTGGGAGCTGTCATTGGTACAGAATGTGGAA CGATAGAATCAGGCTTATCAATGGTCTTCCTCAAAGATGGAGAGAGGAAATTATGCACTCCATCCATGGA CACTACCGGTTATGGGAACCTGAGGTTTTACTTTGTGATGGGAGGAATTTGTGACCCTGGAAATTCTCAT GAAAATGACATAATCCTGTATGCAAAAATTGAAGGAAGAAAAGAGCATATAACACTGGATACCCTTTCCT ATTCCTCATATAAGGTTCCGTCTTTGGTTTCTGTGGTCATCAATCCTGAACTTCAGACTCCTGCTACCAA ATTTTGTCTCAGGCAAAAGAACCATCAAGGACATAATAGGAATGTCTGGGCTGTAGACTTTTTCCATGTC TTGCCTGTTCTCCCTTCTACAATGTCTCACATGATACAGTTTTCCATCAATCTGGGATGTGGAACGCATC AGCCTGGTAACAGTGTCAGCTTGGAATTTTCTACCAACCATGGGCGCTCCTGGTCCCTCCTTCACACTGA ATGCTTACCTGAGATCTGTGCTGGACCCCACCTCCCCCACAGCACTGTCTACTCCTCTGAAAACTACAGT GGGTGGAACCGAATAACAATTCCCCTTCCTAACGCAGCACTAACCCGGAACACCAGGATTCGCTGGAGAC AAACAGGACCAATCCTTGGAAACATGTGGGCAATTGATAATGTTTATATTGGCCCGTCATGTCTCAAATT CTGTTCTGGCAGAGGACAGTGCACTAGACATGGTTGCAAGTGTGACCCTGGATTTTCTGGCCCAGCTTGT GAGATGGCATCCCAGACATTCCCAATGTTTATTTCTGAAAGCTTTGGCAGTTCCAGGCTCTCCTCTTACC ATAACTTTTACTCTATCCGTGGTGCTGAAGTCAGCTTTGGTTGTGGTGTCTTGGCCAGTGGTAAGGCCCT GGTTTTCAACAAAGATGGGCGGCGTCAGCTAATTACATCTTTCCTTGACAGCTCACAATCCAGGTTTCTC CAGTTCACACTGAGACTGGGGAGCAAATCTGTTCTGAGCACGTGCAGAGCCCCTGATCAGCCTGGTGAAG GAGTTTTGTTGCATTATTCTTATGATAATGGGATAACTTGGAAACTCCTGGAGCATTATTCATATCTCAG CTATCATGAGCCCAGAATAATCTCCGTAGAACTACCAGGTGATGCAAAGCAGTTTGGAATTCAGTTCAGA TGGTGGCAACCGTATCATTCTTCCCAGAGAGAAGATGTATGGGCTATTGATGAGATTATCATGACATCTG TGCTTTTCAACAGCATTAGTCTTGACTTTACCAATCTTGTGGAGGTCACTCAGTCTCTGGGATTCTACCT TGGAAATGTTCAGCCATACTGTGGCCACGACTGGACCCTTTGTTTTACAGGAGATTCTAAACTTGCCTCA AGTATGCGCTATGTGGAAACACAATCAATGCAGATAGGAGCATCCTATATGATTCAGTTCAGTTTGGTGA TGGGATGTGGCCAGAAATACACCCCACACATGGACAACCAGGTGAAGCTGGAGTACTCAACCAACCACGG CCTTACCTGGCACCTCGTCCAAGAAGAATGCCTTCCAAGTATGCCAAGTTGTCAGGAATTTACATCAGCA AGTATTTACCATGCCAGTGAGTTTACACAGTGGAGGAGAGTCATAGTGCTTCTTCCCCAGAAAACTTGGT CCAGTGCTACCCGTTTCCGCTGGAGCCAGAGCTATTACACAGCTCAAGACGAGTGGGCTTTGGACAGCAT TTACATTGGGCAGCAGTGCCCCAACATGTGCAGTGGGCATGGCTCATGCGATCATGGCATATGCAGGTGT GACCAGGGGTACCAAGGCACTGAATGCCACCCAGAAGCTGCCCTTCCGTCCACAATTATGTCAGATTTTG AGAACCAGAATGGCTGGGAGTCTGACTGGCAAGAAGTTATTGGGGGAGAAATTGTAAAACCAGAACAAGG GTGTGGTGTCATCTCTTCTGGATCATCTCTGTACTTCAGCAAGGCTGGGAAAAGACAGCTGGTGAGTTGG GACCTGGATACTTCTTGGGTGGACTTTGTCCAGTTCTACATCCAGATAGGCGGAGAGAGTGCTTCATGCA ACAAGCCTGACAGCAGAGAGGAGGGCGTCCTCCTTCAGTACAGCAACAATGGGGGCATCCAGTGGCACCT GCTAGCAGAGATGTACTTTTCAGACTTCAGCAAACCCAGATTTGTCTATCTGGAGCTTCCAGCTGCTGCC AAGACCCCTTGCACCAGGTTCCGCTGGTGGCAGCCCGTGTTCTCAGGGGAGGACTATGACCAGTGGGCAG TCGATGACATCATCATTCTGTCCGAGAAGCAGAAGCAGATCATCCCAGTTATCAATCCAACTTTACCTCA GAACTTTTATGAGAAGCCAGCTTTTGATTACCCTATGAATCAGATGAGTGTGTGGTTGATGTTGGCTAAT GAAGGAATGGTTAAAAATGAAACCTTCTGTGCTGCCACACCATCAGCAATGATATTTGGAAAATCAGATG GAGATCGATTTGCAGTAACTCGAGATTTGACCCTGAAACCTGGATATGTGCTACAGTTCAAGCTAAACAT AGGTTGTGCCAATCAATTCAGCAGTACTGCTCCAGTTCTTCTTCAGTACTCTCATGATGCTGGTATGTCC TGGTTTCTGGTGAAAGAAGGCTGTTACCCGGCTTCTGCAGGCAAAGGATGCGAAGGAAACTCCAGAGAAC TAAGTGAGCCCACCATGTATCACACAGGGGACTTTGAAGAATGGACAAGAATCACCATTGTTATTCCAAG GTCTCTTGCATCCAGCAAGACCAGATTCCGATGGATCCAGGAGAGCAGCTCACAGAAAAACGTGCCTCCA TTTGGTTTAGATGGAGTGTACATATCCGAGCCTTGTCCCAGTTACTGCAGTGGCCATGGGGACTGCATTT CAGGAGTGTGTTTCTGTGACCTGGGATATACTGCTGCACAAGGAACCTGTGTGTCAAATGTCCCCAATCA CAATGAGATGTTCGATAGGTTTGAGGGGAAGCTCAGCCCTCTGTGGTACAAGATAACAGGTGCCCAGGTT GGAACTGGCTGTGGAACACTTAACGATGGCAAATCTCTCTACTTCAATGGCCCTGGGAAAAGGGAAGCCC GGACGGTCCCTCTGGACACCAGGAATATCAGACTTGTTCAATTTTATATACAAATTGGAAGCAAAACTTC AGGCATTACCTGCATCAAACCAAGAACTAGAAATGAAGGGCTTATTGTTCAGTATTCAAATGACAATGGG ATACTCTGGCATTTGCTTCGAGAGTTGGACTTCATGTCCTTCCTGGAACCACAGATCATTTCCATTGACC TGCCACAGGACGCGAAGACACCTGCAACGGCATTTCGATGGTGGCAACCGCAACATGGGAAGCATTCAGC CCAGTGGGCTTTGGATGATGTTCTTATAGGAATGAATGACAGCTCTCAAACTGGATTTCAAGACAAATTT GATGGCTCTATAGATTTGCAAGCCAACTGGTATCGAATCCAAGGAGGTCAAGTTGATATTGACTGTCTCT CTATGGATACTGCTCTGATATTCACTGAAAACATAGGAAAACCTCGTTATGCTGAGACCTGGGATTTTCA TGTGTCAGCATCTACCTTTTTGCAGTTTGAAATGAGCATGGGCTGTAGCAAGCCCTTCAGCAACTCCCAC AGTGTACAGCTCCAGTATTCTCTGAACAATGGCAAGGACTGGCATCTTGTCACCGAAGAGTGTGTTCCTC CAACCATTGGCTGTCTGCATTACACGGAAAGTTCAATTTACACCTCGGAAAGATTCCAGAATTGGAAGCG GATCACTGTCTACCTTCCACTCTCCACCATTTCTCCCAGGACCCGGTTCAGATGGATTCAGGCCAACTAC ACTGTGGGGGCTGATTCCTGGGCGATTGATAATGTTGTACTGGCCTCAGGGTGCCCTTGGATGTGCTCAG GACGAGGGATTTGTGATGCTGGACGCTGTGTGTGTGACCGGGGCTTTGGTGGACCCTATTGTGTTCCTGT TGTTCCTCTGCCCTCGATTCTTAAAGACGATTTCAATGGGAATTTACATCCTGACCTTTGGCCTGAAGTG TATGGTGCAGAGAGGGGGAATCTGAATGGTGAAACCATCAAATCTGGAACATCTCTAATTTTTAAAGGGG AAGGACTAAGGATGCTTATTTCAAGAGATCTAGATTGTACAAATACAATGTATGTCCAGTTTTCACTTAG ATTTATAGCAAAAAGTACCCCAGAGAGATCTCACTCTATTCTGTTACAATTCTCCATCAGTGGAGGAATC ACTTGGCACCTGATGGATGAATTTTACTTTCCTCAAACAACGAATATACTTTTCATCAATGTTCCCTTGC CATACACTGCCCAAACCAATGCTACAAGATTCAGACTCTGGCAACCTTATAATAACGGTAAGAAAGAAGA AATCTGGATTGTTGATGACTTCATTATCGATGGAAATAATGTAAACAACCCTGTGATGCTCTTGGATACA TTTGATTTTGGGCCCAGAGAAGACAATTGGTTTTTCTATCCTGGTGGTAACATCGGTCTTTATTGTCCAT ATTCTTCAAAGGGGGCACCTGAAGAAGATTCAGCTATGGTGTTTGTTTCAAATGAAGTTGGTGAGCATTC CATTACCACCCGTGACCTAAATGTGAATGAGAACACCATCATACAATTTGAGATCAACGTTGGCTGTTCG ACTGATAGCTCATCCGCGGATCCAGTGAGACTGGAATTTTCAAGGGACTTCGGGGCGACCTGGCACCTTC TGCTGCCCCTCTGCTACCACAGCAGCAGCCACGTCAGCTCTTTATGCTCCACCGAGCACCACCCCAGCAG CACCTACTACGCAGGAACCATGCAGGGCTGGAGGAGGGAGGTCGTGCACTTTGGGAAGCTGCACCTTTGT GGATCTGTCCGTTTCAGATGGTACCAGGGATTTTACCCTGCCGGCTCTCAGCCAGTGACATGGGCCATTG ATAATGTCTACATCGGTCCCCAGTGTGAGGAGATGTGTAATGGACAGGGGAGCTGTATCAATGGAACCAA ATGTATATGTGACCCTGGCTACTCAGGTCCAACCTGTAAAATAAGCACCAAAAATCCTGATTTTCTCAAA GATGATTTCGAAGGTCAGCTAGAATCTGATAGATTCTTATTAATGAGTGGTGGGAAACCATCTCGAAAGT GTGGAATCCTTTCTAGTGGAAACAACCTCTTTTTCAATGAAGATGGCTTGCGCATGTTGATGACACGAGA CCTGGATTTATCACATGCTAGATTTGTGCAGTTCTTCATGAGACTGGGATGTGGTAAAGGCGTTCCTGAC CCCAGGAGTCAACCCGTGCTCCTACAGTATTCTCTCAACGGTGGCCTCTCGTGGAGTCTTCTTCAGGAGT TCCTTTTCAGCAATTCCAGCAATGTGGGCAGGTACATTGCCCTGGAGATACCCTTGAAAGCCCGTTCTGG TTCTACTCGCCTTCGCTGGTGGCAACCGTCTGAGAATGGGCACTTCTACAGCCCCTGGGTTATCGATCAG ATTCTTATTGGAGGAAATATTTCTGGTAATACGGTCTTGGAAGATGATTTCACAACCCTTGATAGTAGGA AATGGCTGCTTCACCCAGGAGGCACCAAGATGCCCGTGTGTGGCTCTACTGGTGATGCCCTGGTCTTCAT TGAAAAGGCCAGCACCCGTTACGTGGTCAGCACAGACGTTGCCGTGAATGAGGATTCCTTCCTACAGATA GACTTCGCTGCCTCCTGCTCAGTCACAGACTCTTGTTATGCGATTGAATTGGAATACTCAGTAGATCTTG GATTGTCATGGCACCCATTGGTAAGGGACTGTCTGCCTACCAATGTGGAATGCAGTCGCTATCATCTGCA ACGGATCCTGGTGTCAGACACTTTCAACAAGTGGACTAGAATCACTCTGCCTCTCCCTCCTTATACCAGG TCCCAAGCCACTCGTTTCCGTTGGCATCAACCAGCTCCTTTTGACAAGCAGCAGACATGGGCAATAGATA ATGTCTATATCGGGGATGGCTGCATAGACATGTGCAGTGGCCATGGGAGATGCATCCAGGGAAACTGCGT CTGTGATGAACAGTGGGGTGGCCTGTACTGTGATGACCCCGAGACCTCTCTTCCAACCCAACTCAAAGAC AACTTCAATCGAGCTCCATCCAGTCAGAACTGGCTGACTGTGAACGGAGGGAAATTGAGTACAGTGTGTG GAGCCGTGGCGTCGGGAATGGCTCTCCATTTCAGTGGGGGTTGTAGTCGATTATTAGTCACTGTGGATCT AAACCTCACTAATGCTGAGTTCATCCAATTTTACTTCATGTATGGGTGCCTGATTACACCAAACAACCGT AACCAAGGTGTTCTCTTGGAATATTCTGTCAATGGAGGCATTACCTGGAACCTGCTCATGGAGATTTTCT ATGACCAGTACAGTAAGCCCGGGTTTGTGAATATCCTTCTCCCTCCTGATGCTAAAGAGATTGCCACTCG CTTCCGCTGGTGGCAGCCAAGACATGACGGCCTGGATCAGAACGACTGGGCCATTGACAATGTCCTCATC TCAGGCTCTGCTGACCAAAGGACCGTTATGCTGGACACCTTCAGCAGCGCCCCAGTACCCCAGCATGAGC GCTCCCCTGCAGATGCCGGCCCTGTCGGGAGGATCGCCTTTGACATGTTTATGGAAGACAAAACTTCAGT GAATGAGCACTGGCTATTCCATGATGATTGTACAGTAGAAAGATTCTGTGACTCCCCTGATGGTGTGATG CTCTGTGGCAGTCATGATGGACGGGAGGTGTATGCAGTGACCCATGACCTGACTCCCACTGAAGGCTGGA TTATGCAATTCAAGATCTCAGTTGGATGTAAGGTGTCTGAAAAAATTGCCCAGAATCAAATTCATGTGCA GTATTCTACTGACTTCGGTGTGAGTTGGAATTATCTGGTCCCTCAGTGCTTGCCTGCTGACCCAAAATGC TCTGGAAGTGTTTCTCAGCCATCTGTATTCTTTCCAACTAAAGGGTGGAAAAGGATCACCTACCCACTTC CTGAAAGCTTAGTGGGAAATCCGGTAAGGTTTAGGTTCTATCAGAAGTACTCAGACATGCAGTGGGCAAT CGATAATTTCTACCTGGGCCCTGGATGCTTGGACAACTGCAGGGGCCATGGAGATTGCTTAAGGGAACAG TGCATCTGTGATCCGGGATACTCAGGGCCAAACTGCTACTTGACCCACACTCTGAAGACTTTCCTGAAGG AACGCTTTGACAGTGAAGAAATCAAACCTGACTTATGGATGTCCTTAGAAGGTGGAAGTACTTGCACTGA GTGTGGAATTCTTGCCGAGGACACTGCACTCTATTTTGGGGGATCCACTGTGAGACAAGCGGTTACACAA GATTTGGATCTTCGAGGTGCAAAGTTCCTGCAATACTGGGGGCGCATCGGTAGTGAGAACAACATGACCT CTTGCCATCGTCCCATCTGCCGGAAGGAAGGCGTGCTGTTGGACTACTCTACCGATGGAGGAATTACCTG GACTTTGCTCCATGAGATGGATTACCAGAAATACATTTCTGTTAGACACGACTACATACTTCTTCCTGAA GATGCCCTCACCAACACAACTCGACTTCGCTGGTGGCAGCCTTTTGTGATCAGCAATGGAATTGTGGTCT CTGGGGTGGAGCGTGCTCAGTGGGCACTGGACAACATTTTGATTGGTGGAGCAGAAATCAATCCCAGCCA ATTGGTGGACACTTTTGATGATGAAGGCACTTCCCATGAAGAAAACTGGAGTTTTTACCCTAATGCTGTA AGGACAGCAGGATTTTGTGGCAATCCATCCTTTCACCTCTATTGGCCAAATAAAAAGAAGGACAAGACTC ACAATGCTCTCTCCTCCCGAGAACTCATTATACAGCCAGGATACATGATGCAGTTTAAAATTGTGGTGGG TTGTGAAGCCACTTCTTGTGGTGACCTTCATTCCGTAATGCTGGAATACACTAAGGATGCAAGATCGGAT TCCTGGCAGCTCGTACAGACCCAGTGCCTTCCTTCCTCTTCTAACAGCATTGGCTGCTCCCCTTTCCAGT TCCATGAAGCCACCATCTACAACTCTGTCAACAGCTCAAGCTGGAAAAGAATCACCATCCAGCTGCCTGA CCATGTCTCCTCTAGTGCAACACAGTTCCGCTGGATCCAGAAGGGAGAAGAAACTGAGAAGCAAAGCTGG GCAATTGACCACGTGTACATTGGAGAGGCTTGCCCCAAGCTCTGCAGCGGGCACGGATACTGCACGACCG GTGCCATCTGCATCTGCGACGAGAGCTTCCAAGGTGATGACTGCTCTGTTTTCAGTCACGACCTTCCCAG TTATATTAAAGATAATTTTGAGTCCGCAAGAGTCACCGAGGCAAACTGGGAGACCATTCAAGGTGGAGTC ATAGGAAGTGGCTGTGGGCAGCTGGCCCCCTACGCCCATGGAGACTCACTGTACTTTAATGGCTGTCAGA TCAGGCAAGCAGCTACCAAGCCTCTGGATCTCACTCGAGCAAGCAAAATCATGTTTGTTTTGCAAATTGG GAGCATGTCGCAGACGGACAGCTGCAACAGTGACCTGAGTGGCCCCCACGCTGTGGACAAGGCAGTGCTG CTGCAATACAGCGTCAACAACGGGATCACCTGGCATGTCATCGCCCAGCACCAGCCAAAGGACTTCACAC AAGCTCAGAGAGTGTCTTACAATGTCCCCCTGGAGGCACGGATGAAAGGAGTCTTACTGCGCTGGTGGCA ACCACGCCACAATGGAACAGGTCATGATCAATGGGCTTTGGACCATGTGGAGGTCGTCCTCACTCGCAAA CAAAATTACATGATGAATTTTTCACGACAACATGGGCTCAGACATTTCTACAACAGAAGACGAAGGTCAC TTAGGCGATACCCA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RC217446 representing NM_173054
Red=Cloning site Green=Tags(s) MERSGWARQTFLLALLLGATLRARAAAGYYPRFSPFFFLCTHHGELEGDGEQGEVLISLHIAGNPTYYVP GQEYHVTISTSTFFDGLLVTGLYTSTSVQASQSIGGSSAFGFGIMSDHQFGNQFMCSVVASHVSHLPTTN LSFIWIAPPAGTGCVNFMATATHRGQVIFKDALAQQLCEQGAPTDVTVHPHLAEIHSDSIILRDDFDSYH QLQLNPNIWVECNNCETGEQCGAIMHGNAVTFCEPYGPRELITTGLNTTTASVLQFSIGSGSCRFSYSDP SIIVLYAKNNSADWIQLEKIRAPSNVSTIIHILYLPEDAKGENVQFQWKQENLRVGEVYEACWALDNILI INSAHRQVVLEDSLDPVDTGNWLFFPGATVKHSCQSDGNSIYFHGNEGSEFNFATTRDVDLSTEDIQEQW SEEFESQPTGWDVLGAVIGTECGTIESGLSMVFLKDGERKLCTPSMDTTGYGNLRFYFVMGGICDPGNSH ENDIILYAKIEGRKEHITLDTLSYSSYKVPSLVSVVINPELQTPATKFCLRQKNHQGHNRNVWAVDFFHV LPVLPSTMSHMIQFSINLGCGTHQPGNSVSLEFSTNHGRSWSLLHTECLPEICAGPHLPHSTVYSSENYS GWNRITIPLPNAALTRNTRIRWRQTGPILGNMWAIDNVYIGPSCLKFCSGRGQCTRHGCKCDPGFSGPAC EMASQTFPMFISESFGSSRLSSYHNFYSIRGAEVSFGCGVLASGKALVFNKDGRRQLITSFLDSSQSRFL QFTLRLGSKSVLSTCRAPDQPGEGVLLHYSYDNGITWKLLEHYSYLSYHEPRIISVELPGDAKQFGIQFR WWQPYHSSQREDVWAIDEIIMTSVLFNSISLDFTNLVEVTQSLGFYLGNVQPYCGHDWTLCFTGDSKLAS SMRYVETQSMQIGASYMIQFSLVMGCGQKYTPHMDNQVKLEYSTNHGLTWHLVQEECLPSMPSCQEFTSA SIYHASEFTQWRRVIVLLPQKTWSSATRFRWSQSYYTAQDEWALDSIYIGQQCPNMCSGHGSCDHGICRC DQGYQGTECHPEAALPSTIMSDFENQNGWESDWQEVIGGEIVKPEQGCGVISSGSSLYFSKAGKRQLVSW DLDTSWVDFVQFYIQIGGESASCNKPDSREEGVLLQYSNNGGIQWHLLAEMYFSDFSKPRFVYLELPAAA KTPCTRFRWWQPVFSGEDYDQWAVDDIIILSEKQKQIIPVINPTLPQNFYEKPAFDYPMNQMSVWLMLAN EGMVKNETFCAATPSAMIFGKSDGDRFAVTRDLTLKPGYVLQFKLNIGCANQFSSTAPVLLQYSHDAGMS WFLVKEGCYPASAGKGCEGNSRELSEPTMYHTGDFEEWTRITIVIPRSLASSKTRFRWIQESSSQKNVPP FGLDGVYISEPCPSYCSGHGDCISGVCFCDLGYTAAQGTCVSNVPNHNEMFDRFEGKLSPLWYKITGAQV GTGCGTLNDGKSLYFNGPGKREARTVPLDTRNIRLVQFYIQIGSKTSGITCIKPRTRNEGLIVQYSNDNG ILWHLLRELDFMSFLEPQIISIDLPQDAKTPATAFRWWQPQHGKHSAQWALDDVLIGMNDSSQTGFQDKF DGSIDLQANWYRIQGGQVDIDCLSMDTALIFTENIGKPRYAETWDFHVSASTFLQFEMSMGCSKPFSNSH SVQLQYSLNNGKDWHLVTEECVPPTIGCLHYTESSIYTSERFQNWKRITVYLPLSTISPRTRFRWIQANY TVGADSWAIDNVVLASGCPWMCSGRGICDAGRCVCDRGFGGPYCVPVVPLPSILKDDFNGNLHPDLWPEV YGAERGNLNGETIKSGTSLIFKGEGLRMLISRDLDCTNTMYVQFSLRFIAKSTPERSHSILLQFSISGGI TWHLMDEFYFPQTTNILFINVPLPYTAQTNATRFRLWQPYNNGKKEEIWIVDDFIIDGNNVNNPVMLLDT FDFGPREDNWFFYPGGNIGLYCPYSSKGAPEEDSAMVFVSNEVGEHSITTRDLNVNENTIIQFEINVGCS TDSSSADPVRLEFSRDFGATWHLLLPLCYHSSSHVSSLCSTEHHPSSTYYAGTMQGWRREVVHFGKLHLC GSVRFRWYQGFYPAGSQPVTWAIDNVYIGPQCEEMCNGQGSCINGTKCICDPGYSGPTCKISTKNPDFLK DDFEGQLESDRFLLMSGGKPSRKCGILSSGNNLFFNEDGLRMLMTRDLDLSHARFVQFFMRLGCGKGVPD PRSQPVLLQYSLNGGLSWSLLQEFLFSNSSNVGRYIALEIPLKARSGSTRLRWWQPSENGHFYSPWVIDQ ILIGGNISGNTVLEDDFTTLDSRKWLLHPGGTKMPVCGSTGDALVFIEKASTRYVVSTDVAVNEDSFLQI DFAASCSVTDSCYAIELEYSVDLGLSWHPLVRDCLPTNVECSRYHLQRILVSDTFNKWTRITLPLPPYTR SQATRFRWHQPAPFDKQQTWAIDNVYIGDGCIDMCSGHGRCIQGNCVCDEQWGGLYCDDPETSLPTQLKD NFNRAPSSQNWLTVNGGKLSTVCGAVASGMALHFSGGCSRLLVTVDLNLTNAEFIQFYFMYGCLITPNNR NQGVLLEYSVNGGITWNLLMEIFYDQYSKPGFVNILLPPDAKEIATRFRWWQPRHDGLDQNDWAIDNVLI SGSADQRTVMLDTFSSAPVPQHERSPADAGPVGRIAFDMFMEDKTSVNEHWLFHDDCTVERFCDSPDGVM LCGSHDGREVYAVTHDLTPTEGWIMQFKISVGCKVSEKIAQNQIHVQYSTDFGVSWNYLVPQCLPADPKC SGSVSQPSVFFPTKGWKRITYPLPESLVGNPVRFRFYQKYSDMQWAIDNFYLGPGCLDNCRGHGDCLREQ CICDPGYSGPNCYLTHTLKTFLKERFDSEEIKPDLWMSLEGGSTCTECGILAEDTALYFGGSTVRQAVTQ DLDLRGAKFLQYWGRIGSENNMTSCHRPICRKEGVLLDYSTDGGITWTLLHEMDYQKYISVRHDYILLPE DALTNTTRLRWWQPFVISNGIVVSGVERAQWALDNILIGGAEINPSQLVDTFDDEGTSHEENWSFYPNAV RTAGFCGNPSFHLYWPNKKKDKTHNALSSRELIIQPGYMMQFKIVVGCEATSCGDLHSVMLEYTKDARSD SWQLVQTQCLPSSSNSIGCSPFQFHEATIYNSVNSSSWKRITIQLPDHVSSSATQFRWIQKGEETEKQSW AIDHVYIGEACPKLCSGHGYCTTGAICICDESFQGDDCSVFSHDLPSYIKDNFESARVTEANWETIQGGV IGSGCGQLAPYAHGDSLYFNGCQIRQAATKPLDLTRASKIMFVLQIGSMSQTDSCNSDLSGPHAVDKAVL LQYSVNNGITWHVIAQHQPKDFTQAQRVSYNVPLEARMKGVLLRWWQPRHNGTGHDQWALDHVEVVLTRK QNYMMNFSRQHGLRHFYNRRRRSLRRYP TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_173054 |
ORF Size | 10374 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. |
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_173054.1, NP_774959.1 |
RefSeq Size | 11558 bp |
RefSeq ORF | 10377 bp |
Locus ID | 5649 |
UniProt ID | P78509 |
Protein Families | Druggable Genome |
Protein Pathways | ECM-receptor interaction, Focal adhesion |
MW | 388 kDa |
Gene Summary | This gene encodes a large secreted extracellular matrix protein thought to control cell-cell interactions critical for cell positioning and neuronal migration during brain development. This protein may be involved in schizophrenia, autism, bipolar disorder, major depression and in migration defects associated with temporal lobe epilepsy. Mutations of this gene are associated with autosomal recessive lissencephaly with cerebellar hypoplasia. Two transcript variants encoding distinct isoforms have been identified for this gene. Other transcript variants have been described but their full length nature has not been determined. [provided by RefSeq, Jul 2008] |
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Product Manuals |
FAQs |
SDS |