AKAP9 (NM_005751) Human Tagged ORF Clone
CAT#: RC221158
- TrueORF®
AKAP9 (Myc-DDK-tagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 2
ORF Plasmid: tGFP
"NM_005751" in other vectors (2)
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CNY 55,670.00
CNY 300.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | AKAP-9; AKAP350; AKAP450; CG-NAP; HYPERION; LQT11; MU-RMS-40.16A; PPP1R45; PRKA9; YOTIAO |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RC221158 representing NM_005751
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGAGGACGAGGAGAGACAGAAGAAGCTGGAGGCCGGCAAAGCCAAGCTTGCCCAGTTTCGACAAAGAA AAGCTCAGTCGGATGGGCAGAGTCCTTCCAAGAAGCAGAAAAAAAAGAGAAAAACGTCAAGCAGTAAACA TGATGTGTCAGCACACCATGATTTGAATATTGATCAATCACAGTGTAATGAAATGTACATAAATAGTTCT CAGAGAGTAGAATCAACTGTGATTCCTGAATCTACAATAATGAGAACTCTACATAGTGGAGAAATAACCA GTCATGAGCAGGGCTTCTCTGTGGAACTGGAAAGTGAAATTTCAACCACAGCAGATGACTGCAGTTCAGA GGTAAATGGTTGCAGTTTTGTGATGAGAACAGGAAAGCCTACAAATTTATTAAGGGAAGAAGAATTTGGT GTTGATGATTCTTATTCTGAACAAGGAGCACAAGACAGTCCGACTCATCTAGAGATGATGGAAAGTGAGT TGGCTGGGAAGCAGCATGAGATTGAAGAGCTAAACAGAGAGCTGGAAGAAATGAGGGTTACCTATGGGAC TGAAGGACTGCAGCAGTTACAAGAATTTGAAGCTGCCATTAAACAAAGAGATGGCATTATAACCCAGCTC ACTGCTAATTTACAACAAGCAAGAAGAGAAAAGGATGAGACAATGAGAGAATTTTTAGAGTTGACAGAAC AGAGTCAAAAATTACAGATTCAATTTCAGCAATTACAGGCTAGTGAAACTCTGAGAAACAGCACTCATAG TAGCACAGCTGCAGACTTACTACAAGCCAAACAACAGATCCTCACTCATCAACAGCAGCTTGAAGAACAA GACCACTTATTAGAAGATTATCAGAAAAAGAAAGAAGACTTCACAATGCAAATTAGTTTCTTGCAAGAGA AAATTAAAGTATATGAAATGGAACAAGATAAAAAAGTAGAAAACTCAAATAAAGAAGAAATACAGGAAAA GGAGACAATCATTGAAGAATTAAACACAAAAATAATAGAAGAAGAAAAGAAAACTCTTGAGCTAAAGGAT AAATTAACAACTGCTGATAAATTACTAGGAGAATTACAAGAACAGATTGTGCAAAAGAACCAAGAAATAA AAAACATGAAATTAGAGCTGACTAATTCTAAGCAAAAAGAAAGACAGTCTTCTGAAGAAATAAAACAGTT AATGGGGACAGTCGAAGAACTTCAGAAGAGAAATCATAAAGACAGCCAGTTCGAAACTGATATAGTACAA CGAATGGAACAAGAAACACAAAGAAAGTTAGAACAACTCCGGGCAGAGCTGGATGAGATGTATGGGCAGC AGATAGTGCAAATGAAACAAGAATTAATAAGACAACACATGGCACAGATGGAGGAAATGAAAACACGGCA TAAGGGAGAAATGGAGAATGCTTTAAGGTCATATTCAAATATTACAGTTAATGAAGATCAGATAAAGTTA ATGAATGTGGCAATAAATGAACTGAATATAAAATTGCAAGATACTAACTCTCAAAAGGAAAAACTCAAGG AAGAACTAGGACTAATTTTAGAAGAAAAGTGTGCTCTACAGAGACAGCTTGAAGACCTTGTTGAAGAATT GAGCTTTTCAAGGGAACAGATTCAGAGAGCTAGACAGACAATAGCTGAACAAGAAAGTAAACTTAATGAA GCACATAAGTCCCTTAGTACAGTGGAAGATTTGAAAGCTGAGATTGTTTCTGCATCTGAATCCAGAAAGG AACTAGAATTAAAACATGAAGCAGAAGTTACAAATTACAAGATAAAACTTGAAATGTTAGAAAAAGAAAA GAATGCTGTGTTAGACAGAATGGCTGAATCACAAGAAGCTGAATTAGAGAGGCTGAGAACACAGCTTCTA TTTAGTCACGAAGAAGAGCTTTCCAAACTGAAGGAAGATTTAGAAATTGAACATCGAATAAATATTGAAA AACTTAAAGATAATTTAGGCATTCACTATAAACAGCAGATAGATGGTTTACAGAATGAAATGAGTCAAAA GATAGAAACCATGCAGTTTGAAAAGGACAATTTGATAACTAAGCAGAATCAATTAATTTTGGAAATTTCA AAGCTAAAAGATTTACAGCAGTCTCTTGTAAATTCAAAGTCAGAAGAAATGACTCTTCAAATCAATGAAC TTCAAAAAGAAATTGAAATACTCAGACAAGAAGAAAAAGAAAAGGGTACACTTGAACAAGAAGTTCAAGA ATTACAACTTAAAACAGAATTGTTAGAAAAACAGATGAAGGAAAAAGAGAATGATCTTCAAGAAAAATTT GCACAACTTGAAGCAGAGAATAGCATTCTTAAAGATGAAAAGAAAACCCTTGAAGACATGTTGAAAATAC ATACTCCTGTTAGCCAAGAAGAAAGATTGATTTTCTTAGACTCCATTAAGTCCAAATCCAAAGACTCTGT GTGGGAAAAAGAAATAGAAATACTTATAGAGGAAAATGAGGACCTCAAACAACAATGTATTCAGCTAAAT GAAGAGATTGAAAAGCAAAGGAACACTTTTTCATTTGCTGAAAAAAACTTTGAAGTTAACTATCAAGAGT TACAAGAGGAGTATGCTTGCCTTCTCAAAGTAAAAGATGATTTAGAAGACAGTAAAAATAAACAGGAATT AGAGTATAAAAGTAAACTTAAAGCACTTAATGAAGAGCTTCATTTGCAAAGAATAAATCCAACTACAGTG AAAATGAAAAGTTCTGTCTTTGATGAAGACAAAACTTTTGTAGCAGAAACATTGGAAATGGGTGAGGTTG TTGAAAAGGATACAACAGAACTCATGGAAAAACTTGAGGTAACCAAGCGAGAGAAATTAGAGCTGTCACA GAGACTGTCTGATCTTTCTGAACAATTGAAACAGAAACATGGTGAGATTAGTTTTCTAAATGAAGAAGTT AAATCTTTAAAGCAAGAGAAAGAACAAGTTTCATTGAGATGTAGAGAGCTAGAAATCATTATTAACCACA ACAGGGCAGAAAATGTACAGTCATGTGATACTCAAGTAAGCTCTTTATTAGATGGAGTTGTGACCATGAC AAGCAGGGGTGCTGAAGGATCAGTTTCTAAAGTAAATAAAAGTTTTGGTGAAGAATCAAAAATAATGGTG GAAGATAAAGTTTCTTTTGAAAATATGACTGTTGGAGAAGAAAGTAAGCAAGAACAGTTGATTTTGGATC ACTTACCATCTGTAACAAAGGAATCATCACTTAGAGCAACTCAACCAAGTGAAAATGATAAACTTCAGAA AGAACTCAATGTACTTAAATCAGAACAGAATGATTTAAGGCTACAGATGGAAGCCCAACGCATTTGCCTC TCTCTGGTTTATTCAACTCATGTGGATCAGGTTCGTGAATATATGGAAAATGAAAAAGATAAAGCTCTTT GCAGTCTTAAAGAAGAGCTTATTTTTGCTCAAGAGGAAAAGATCAAGGAACTTCAGAAAATACACCAGTT AGAACTACAGACTATGAAAACACAAGAAACAGGTGATGAAGGAAAGCCTTTACATCTGCTCATTGGAAAA CTTCAAAAGGCAGTGTCTGAAGAATGTTCTTATTTTTTACAGACTTTATGCAGTGTCCTTGGTGAATATT ATACTCCTGCTTTAAAATGTGAAGTAAATGCAGAAGACAAAGAGAATTCTGGTGATTACATTTCTGAAAA TGAAGATCCAGAATTACAAGATTATAGATATGAAGTTCAAGACTTTCAAGAAAATATGCACACTCTTCTC AACAAAGTAACAGAAGAATACAACAAACTCTTGGTACTTCAAACACGACTAAGCAAGATCTGGGGACAGC AGACAGATGGTATGAAACTTGAATTTGGAGAAGAAAACCTTCCAAAAGAGGAAACAGAGTTTTTATCAAT CCATTCTCAGATGACCAATTTGGAAGACATTGATGTCAATCATAAAAGCAAGTTATCTTCTCTGCAAGAT CTTGAAAAAACTAAACTTGAAGAACAAGTTCAAGAATTAGAAAGCCTCATATCCTCTTTGCAGCAACAGT TGAAAGAAACTGAACAAAACTATGAGGCAGAGATCCACTGTTTACAGAAGAGGCTTCAAGCTGTTAGTGA GTCCACGGTTCCGCCAAGCTTACCTGTTGATTCGGTGGTAATTACAGAATCTGATGCACAGAGAACAATG TACCCTGGAAGTTGTGTGAAAAAGAATATTGATGGTACAATAGAGTTTTCTGGTGAATTTGGAGTGAAAG AGGAAACAAATATCGTTAAGTTGCTTGAAAAACAATACCAAGAACAATTAGAAGAAGAAGTAGCTAAGGT TATTGTGTCAATGAGTATAGCATTTGCTCAACAAACTGAACTGTCTAGAATATCTGGGGGAAAAGAAAAT ACTGCATCATCAAAGCAAGCACATGCTGTGTGTCAGCAAGAACAACATTATTTTAATGAAATGAAATTAT CACAGGATCAAATTGGTTTTCAGACTTTTGAGACAGTGGATGTGAAATTTAAAGAAGAATTTAAACCACT TAGTAAAGAGTTAGGAGAACATGGAAAGGAAATTTTATTATCAAATAGTGATCCCCATGATATACCAGAA TCAAAGGACTGTGTGCTGACTATTTCAGAAGAAATGTTCTCCAAAGATAAAACATTTATAGTTAGACAGT CTATTCATGATGAGATTTCAGTGTCAAGCATGGATGCTTCTAGACAACTAATGTTGAATGAAGAACAGTT GGAAGATATGAGACAGGAACTTGTACGACAATACCAAGAACATCAACAGGCAACGGAATTGTTAAGGCAA GCACATATGCGGCAAATGGAGAGACAGCGAGAAGACCAGGAACAGCTACAAGAAGAGATTAAGAGACTTA ATAGACAATTAGCCCAGAGATCCTCCATAGATAATGAAAACCTGGTTTCAGAGAGAGAGAGGGTGCTTTT AGAGGAGCTGGAAGCACTAAAGCAGCTGTCTTTAGCTGGAAGAGAGAAGCTGTGTTGTGAGCTGCGCAAC AGCAGTACGCAAACACAGAATGGAAATGAAAACCAAGGAGAAGTTGAAGAACAAACATTTAAAGAAAAGG AATTAGACAGAAAACCTGAAGATGTGCCTCCTGAGATTTTGTCTAATGAAAGGTATGCACTCCAGAAAGC TAATAATAGACTTTTGAAGATCCTCTTAGAAGTTGTAAAGACAACAGCAGCTGTTGAAGAAACAATTGGT CGCCATGTCCTTGGGATTCTAGATAGATCTAGTAAAAGCCAGTCATCTGCCAGCCTAATTTGGAGGTCAG AAGCAGAGGCATCTGTAAAGTCATGTGTCCATGAGGAACATACAAGAGTTACAGATGAATCCATTCCCTC TTATTCTGGAAGTGATATGCCAAGAAATGACATTAACATGTGGTCAAAAGTAACTGAGGAAGGAACAGAG CTGTCACAACGACTTGTGAGGAGTGGTTTTGCTGGAACTGAAATAGACCCTGAAAATGAAGAACTTATGC TGAACATTAGCTCTCGACTACAAGCAGCAGTTGAAAAACTCCTAGAAGCCATAAGTGAAACTAGCAGTCA GCTTGAACATGCGAAAGTGACACAGACAGAGTTGATGCGTGAGTCATTTAGACAGAAACAAGAAGCAACA GAGTCCCTTAAGTGCCAAGAGGAACTTCGAGAGCGCCTTCATGAGGAGTCCAGGGCCAGAGAACAGCTAG CTGTGGAGCTCAGTAAGGCTGAGGGCGTCATTGATGGCTATGCAGATGAAAAAACTCTTTTTGAAAGGCA AATTCAGGAAAAAACTGATATAATAGATCGTCTTGAGCAGGAGTTGTTATGTGCAAGTAACAGGTTGCAA GAATTGGAGGCAGAGCAACAGCAGATCCAAGAAGAAAGAGAATTACTGTCCAGACAAAAGGAAGCTATGA AAGCAGAGGCAGGCCCAGTTGAACAACAATTACTACAGGAGACAGAAAAATTAATGAAGGAAAAACTAGA AGTACAATGTCAAGCTGAAAAAGTACGTGATGACCTTCAAAAACAAGTGAAAGCTCTAGAAATAGATGTG GAAGAACAAGTCAGTAGGTTTATAGAGCTGGAACAAGAAAAAAATACTGAACTAATGGATTTAAGACAGC AAAACCAAGCATTGGAAAAGCAGTTAGAAAAAATGAGAAAATTTTTAGATGAGCAAGCCATTGACAGAGA ACATGAGAGAGATGTATTCCAACAGGAAATACAGAAACTAGAACAGCAACTTAAGGTTGTTCCTCGATTC CAGCCTATCAGTGAACATCAAACTAGAGAGGTTGAACAGTTAGCAAATCATCTGAAAGAAAAAACAGACA AATGCAGTGAGCTTTTGCTCTCTAAAGAGCAGCTTCAAAGGGATATACAAGAAAGGAATGAAGAAATAGA GAAACTGGAGTTCAGAGTAAGAGAACTGGAGCAGGCGCTTCTTGTGAGTGCAGATACTTTTCAAAAGGTA GAGGACCGAAAACACTTTGGAGCTGTAGAAGCTAAACCAGAATTGTCCCTAGAAGTACAATTGCAGGCTG AACGAGATGCCATAGACAGAAAGGAAAAAGAGATTACAAACTTAGAAGAGCAATTAGAACAGTTTAGAGA AGAACTGGAAAATAAGAATGAAGAAGTTCAACAATTACATATGCAATTAGAAATACAGAAAAAGGAATCT ACTACCCGCCTACAAGAACTTGAACAGGAAAACAAATTATTTAAGGATGACATGGAGAAACTGGGACTTG CCATAAAGGAATCTGATGCCATGTCTACTCAAGACCAACATGTGCTATTTGGGAAATTTGCTCAAATAAT ACAGGAAAAAGAGGTAGAAATTGACCAATTAAATGAACAAGTTACGAAACTCCAGCAGCAACTTAAAATT ACAACAGATAACAAGGTTATTGAAGAAAAAAATGAACTGATAAGGGATCTTGAAACCCAAATAGAATGTT TGATGAGTGATCAAGAATGTGTGAAGAGAAATAGAGAAGAAGAAATAGAGCAGCTCAATGAAGTGATTGA AAAACTTCAACAGGAATTGGCAAATATTGGACAGAAGACATCAATGAATGCTCATTCCCTCTCAGAAGAA GCAGACAGTTTAAAACATCAATTGGATGTGGTTATAGCTGAAAAGCTGGCCTTGGAACAGCAAGTAGAAA CCGCTAATGAAGAAATGACCTTCATGAAAAATGTACTTAAAGAAACCAATTTTAAAATGAATCAGCTAAC ACAGGAATTATTCAGCTTAAAGAGAGAACGTGAAAGTGTGGAAAAGATTCAAAGCATACCAGAGAATAGT GTTAACGTGGCTATAGATCATCTGAGCAAAGACAAACCTGAACTAGAAGTAGTCCTTACAGAGGATGCTC TTAAATCCCTAGAAAATCAGACATACTTCAAATCTTTTGAAGAAAATGGCAAAGGTTCCATAATTAATTT GGAAACAAGGTTGCTACAACTTGAGAGCACTGTTAGTGCAAAGGACTTAGAACTTACCCAGTGTTATAAA CAAATAAAAGACATGCAAGAACAAGGCCAGTTTGAAACAGAAATGCTTCAAAAGAAGATTGTAAACCTAC AGAAAATAGTTGAAGAAAAAGTGGCTGCTGCTCTTGTCAGTCAAATCCAACTTGAGGCAGTTCAGGAATA TGCAAAATTCTGTCAAGATAATCAAACAATTTCATCAGAACCTGAAAGAACAAATATTCAGAATTTAAAT CAACTAAGAGAAGATGAGTTGGGGTCAGATATATCAGCATTAACCTTGAGAATATCAGAATTAGAAAGCC AGGTTGTTGAAATGCATACTAGTTTGATTTTAGAAAAAGAACAAGTAGAAATTGCAGAAAAAAATGTTTT AGAAAAAGAAAAGAAGCTGCTAGAACTACAGAAGCTATTGGAGGGCAATGAGAAAAAACAGAGAGAGAAA GAAAAGAAAAGAAGCCCTCAAGATGTTGAAGTTCTCAAGACAACTACTGAGCTATTTCATAGCAATGAAG AAAGTGGATTTTTTAATGAACTCGAGGCTCTTAGAGCTGAATCAGTGGCTACCAAAGCAGAACTTGCCAG TTATAAAGAAAAGGCTGAAAAACTTCAAGAAGAGCTTTTGGTAAAAGAAACAAATATGACATCTCTTCAG AAAGACTTAAGCCAAGTTAGGGATCACCTCGCAGAGGCAAAAGAGAAATTGTCCATTTTAGAAAAAGAAG ATGAGACTGAGGTACAAGAAAGCAAAAAGGCCTGCATGTTTGAGCCACTTCCTATAAAACTGAGTAAGAG CATTGCATCCCAGACAGATGGGACTCTGAAGATCAGTAGCAGCAATCAGACTCCACAAATTCTTGTTAAA AATGCAGGAATACAAATTAATTTACAGAGTGAATGTTCCTCAGAAGAAGTTACTGAAATAATCAGTCAGT TTACTGAAAAAATTGAGAAGATGCAAGAACTACATGCTGCTGAAATTTTGGACATGGAATCCAGACATAT TTCAGAAACTGAAACCTTAAAGAGGGAACACTATGTTGCCGTTCAGTTACTGAAAGAGGAATGTGGTACC TTGAAGGCAGTGATACAGTGTCTGAGAAGTAAAGAGGGATCCTCAATTCCTGAGCTAGCACATTCTGATG CTTACCAGACTAGAGAAATATGCTCCAGTGATTCTGGATCAGACTGGGGTCAGGGAATTTATCTTACACA CAGTCAGGGATTTGACATAGCATCAGAAGGCCGAGGAGAAGAAAGTGAAAGTGCAACAGATTCCTTTCCA AAGAAAATAAAGGGATTACTGAGAGCTGTCCATAATGAAGGCATGCAGGTGCTTTCTCTCACTGAGTCTC CCTATAGTGATGGAGAGGACCATTCTATTCAGCAGGTTTCAGAACCTTGGCTAGAAGAGAGAAAAGCTTA CATCAATACAATCTCATCTCTAAAGGATTTAATTACAAAGATGCAACTGCAAAGAGAAGCCGAGGTTTAT GATAGTTCTCAATCTCATGAGAGCTTCTCAGACTGGCGAGGTGAACTACTGCTTGCCCTTCAACAAGTTT TCTTAGAAGAGCGTAGTGTTTTACTAGCAGCATTTCGGACGGAGCTGACAGCTCTAGGTACTACAGATGC AGTTGGTTTACTAAACTGTTTGGAACAGAGAATACAAGAACAGGGTGTTGAATATCAAGCAGCTATGGAA TGCCTCCAGAAAGCAGATAGAAGGAGTTTGTTATCTGAAATTCAGGCACTGCATGCACAAATGAATGGTA GGAAAATTACTCTGAAAAGAGAACAAGAGAGTGAGAAACCAAGCCAAGAACTCTTGGAATATAATATACA GCAGAAGCAGTCTCAAATGCTGGAGATGCAAGTGGAGCTCAGCAGTATGAAAGACAGAGCAACGGAACTG CAGGAGCAGCTGAGTTCTGAGAAAATGGTGGTTGCTGAACTGAAGAGTGAGCTTGCACAAACTAAATTGG AACTAGAAACAACACTCAAGGCACAGCATAAACACCTAAAAGAATTGGAGGCTTTCAGGTTGGAAGTTAA AGATAAGACAGATGAAGTACATTTGCTTAATGACACATTAGCAAGTGAACAGAAAAAATCAAGAGAGCTC CAGTGGGCTTTGGAGAAAGAGAAAGCCAAGTTGGGACGCAGTGAAGAACGGGATAAAGAAGAACTTGAGG ATCTGAAGTTTTCACTTGAGAGTCAGAAACAAAGGAATCTTCAGCTAAATCTACTTTTGGAACAACAGAA ACAACTACTGAACGAATCCCAGCAAAAAATAGAATCACAGAGAATGCTATATGATGCCCAGTTGTCAGAA GAACAAGGTCGAAACTTAGAGCTTCAGGTACTTCTTGAATCTGAGAAAGTTCGAATTCGGGAAATGAGTA GTACCCTAGATAGGGAGCGGGAATTGCACGCACAGCTGCAGAGCAGTGATGGTACTGGACAGTCTCGGCC ACCCTTGCCCTCAGAGGACCTACTGAAAGAGCTGCAGAAACAGCTAGAGGAAAAACACAGTCGCATAGTA GAATTGTTAAATGAGACTGAAAAATATAAACTGGATTCTTTGCAAACACGACAGCAAATGGAAAAAGATA GGCAGGTTCACAGGAAAACACTGCAGACAGAACAGGAGGCCAACACTGAGGGACAGAAAAAAATGCATGA GCTCCAGTCCAAAGTGGAAGATCTTCAGCGCCAGCTGGAAGAGAAAAGACAACAAGTTTATAAGTTAGAC CTTGAAGGACAGCGACTACAAGGAATCATGCAGGAATTCCAGAAGCAAGAACTAGAACGAGAAGAAAAAC GAGAAAGTAGAAGAATTCTGTATCAGAACCTTAATGAGCCAACCACGTGGAGCTTAACCAGTGATAGAAC TAGAAATTGGGTTCTTCAACAGAAAATAGAAGGAGAAACAAAAGAATCAAACTACGCTAAATTGATTGAA ATGAATGGAGGAGGAACCGGCTGTAATCATGAATTAGAAATGATCAGACAAAAGCTTCAATGTGTAGCTT CAAAACTACAGGTTCTACCCCAGAAAGCCTCTGAGAGACTACAGTTTGAAACAGCAGATGATGAAGATTT CATTTGGGTTCAGGAAAATATTGATGAAATTATTTTACAACTACAGAAATTAACTGGCCAGCAAGGTGAA GAGCCCAGCTTGGTGTCCCCAAGTACTTCTTGTGGCTCATTGACTGAAAGACTACTGAGACAAAATGCTG AGCTGACAGGGCATATCAGTCAACTGACTGAAGAGAAGAATGACTTAAGGAACATGGTTATGAAGCTGGA AGAGCAGATCAGGTGGTATCGACAGACAGGAGCTGGTAGAGATAATTCTTCCAGGTTTTCATTGAATGGT GGTGCCAACATTGAAGCCATCATTGCCTCTGAAAAAGAAGTATGGAACAGAGAAAAATTGACTCTCCAGA AATCTTTGAAAAGGGCAGAGGCTGAAGTATACAAACTGAAAGCTGAACTAAGAAATGACTCTTTACTTCA AACTCTGAGCCCTGATTCTGAACATGTCACTTTAAAGAGAATTTATGGTAAATACTTGAGGGCAGAAAGT TTTCGAAAGGCTCTCATTTACCAGAAGAAATACCTGCTGCTGTTACTGGGTGGGTTCCAGGAATGTGAAG ATGCCACCTTGGCCCTGCTTGCCCGGATGGGGGGGCAGCCAGCTTTCACGGATCTAGAGGTGATCACCAA TCGCCCAAAGGGCTTCACCAGGTTTCGGTCGGCCGTCAGAGTATCCATTGCAATTTCCAGAATGAAATTT TTGGTTCGACGGTGGCATCGAGTCACAGGTTCTGTTTCCATCAATATTAACAGAGATGGCTTTGGACTGA ATCAAGGTGCAGAAAAGACTGACTCATTTTATCATTCTTCTGGTGGGCTGGAGTTATATGGAGAACCAAG ACATACTACGTATCGCTCAAGATCAGATCTGGACTATATTAGGTCCCCTTTACCATTTCAGAATAGGTAC CCAGGCACTCCAGCTGATTTCAATCCTGGTTCTTTAGCATGTTCTCAGCTTCAGAATTACGATCCTGACA GAGCCCTAACAGATTATATCACTCGGCTAGAGGCACTGCAAAGACGACTTGGAACTATACAGTCAGGTTC AACTACTCAATTTCATGCTGGCATGAGAAGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RC221158 representing NM_005751
Red=Cloning site Green=Tags(s) MEDEERQKKLEAGKAKLAQFRQRKAQSDGQSPSKKQKKKRKTSSSKHDVSAHHDLNIDQSQCNEMYINSS QRVESTVIPESTIMRTLHSGEITSHEQGFSVELESEISTTADDCSSEVNGCSFVMRTGKPTNLLREEEFG VDDSYSEQGAQDSPTHLEMMESELAGKQHEIEELNRELEEMRVTYGTEGLQQLQEFEAAIKQRDGIITQL TANLQQARREKDETMREFLELTEQSQKLQIQFQQLQASETLRNSTHSSTAADLLQAKQQILTHQQQLEEQ DHLLEDYQKKKEDFTMQISFLQEKIKVYEMEQDKKVENSNKEEIQEKETIIEELNTKIIEEEKKTLELKD KLTTADKLLGELQEQIVQKNQEIKNMKLELTNSKQKERQSSEEIKQLMGTVEELQKRNHKDSQFETDIVQ RMEQETQRKLEQLRAELDEMYGQQIVQMKQELIRQHMAQMEEMKTRHKGEMENALRSYSNITVNEDQIKL MNVAINELNIKLQDTNSQKEKLKEELGLILEEKCALQRQLEDLVEELSFSREQIQRARQTIAEQESKLNE AHKSLSTVEDLKAEIVSASESRKELELKHEAEVTNYKIKLEMLEKEKNAVLDRMAESQEAELERLRTQLL FSHEEELSKLKEDLEIEHRINIEKLKDNLGIHYKQQIDGLQNEMSQKIETMQFEKDNLITKQNQLILEIS KLKDLQQSLVNSKSEEMTLQINELQKEIEILRQEEKEKGTLEQEVQELQLKTELLEKQMKEKENDLQEKF AQLEAENSILKDEKKTLEDMLKIHTPVSQEERLIFLDSIKSKSKDSVWEKEIEILIEENEDLKQQCIQLN EEIEKQRNTFSFAEKNFEVNYQELQEEYACLLKVKDDLEDSKNKQELEYKSKLKALNEELHLQRINPTTV KMKSSVFDEDKTFVAETLEMGEVVEKDTTELMEKLEVTKREKLELSQRLSDLSEQLKQKHGEISFLNEEV KSLKQEKEQVSLRCRELEIIINHNRAENVQSCDTQVSSLLDGVVTMTSRGAEGSVSKVNKSFGEESKIMV EDKVSFENMTVGEESKQEQLILDHLPSVTKESSLRATQPSENDKLQKELNVLKSEQNDLRLQMEAQRICL SLVYSTHVDQVREYMENEKDKALCSLKEELIFAQEEKIKELQKIHQLELQTMKTQETGDEGKPLHLLIGK LQKAVSEECSYFLQTLCSVLGEYYTPALKCEVNAEDKENSGDYISENEDPELQDYRYEVQDFQENMHTLL NKVTEEYNKLLVLQTRLSKIWGQQTDGMKLEFGEENLPKEETEFLSIHSQMTNLEDIDVNHKSKLSSLQD LEKTKLEEQVQELESLISSLQQQLKETEQNYEAEIHCLQKRLQAVSESTVPPSLPVDSVVITESDAQRTM YPGSCVKKNIDGTIEFSGEFGVKEETNIVKLLEKQYQEQLEEEVAKVIVSMSIAFAQQTELSRISGGKEN TASSKQAHAVCQQEQHYFNEMKLSQDQIGFQTFETVDVKFKEEFKPLSKELGEHGKEILLSNSDPHDIPE SKDCVLTISEEMFSKDKTFIVRQSIHDEISVSSMDASRQLMLNEEQLEDMRQELVRQYQEHQQATELLRQ AHMRQMERQREDQEQLQEEIKRLNRQLAQRSSIDNENLVSERERVLLEELEALKQLSLAGREKLCCELRN SSTQTQNGNENQGEVEEQTFKEKELDRKPEDVPPEILSNERYALQKANNRLLKILLEVVKTTAAVEETIG RHVLGILDRSSKSQSSASLIWRSEAEASVKSCVHEEHTRVTDESIPSYSGSDMPRNDINMWSKVTEEGTE LSQRLVRSGFAGTEIDPENEELMLNISSRLQAAVEKLLEAISETSSQLEHAKVTQTELMRESFRQKQEAT ESLKCQEELRERLHEESRAREQLAVELSKAEGVIDGYADEKTLFERQIQEKTDIIDRLEQELLCASNRLQ ELEAEQQQIQEERELLSRQKEAMKAEAGPVEQQLLQETEKLMKEKLEVQCQAEKVRDDLQKQVKALEIDV EEQVSRFIELEQEKNTELMDLRQQNQALEKQLEKMRKFLDEQAIDREHERDVFQQEIQKLEQQLKVVPRF QPISEHQTREVEQLANHLKEKTDKCSELLLSKEQLQRDIQERNEEIEKLEFRVRELEQALLVSADTFQKV EDRKHFGAVEAKPELSLEVQLQAERDAIDRKEKEITNLEEQLEQFREELENKNEEVQQLHMQLEIQKKES TTRLQELEQENKLFKDDMEKLGLAIKESDAMSTQDQHVLFGKFAQIIQEKEVEIDQLNEQVTKLQQQLKI TTDNKVIEEKNELIRDLETQIECLMSDQECVKRNREEEIEQLNEVIEKLQQELANIGQKTSMNAHSLSEE ADSLKHQLDVVIAEKLALEQQVETANEEMTFMKNVLKETNFKMNQLTQELFSLKRERESVEKIQSIPENS VNVAIDHLSKDKPELEVVLTEDALKSLENQTYFKSFEENGKGSIINLETRLLQLESTVSAKDLELTQCYK QIKDMQEQGQFETEMLQKKIVNLQKIVEEKVAAALVSQIQLEAVQEYAKFCQDNQTISSEPERTNIQNLN QLREDELGSDISALTLRISELESQVVEMHTSLILEKEQVEIAEKNVLEKEKKLLELQKLLEGNEKKQREK EKKRSPQDVEVLKTTTELFHSNEESGFFNELEALRAESVATKAELASYKEKAEKLQEELLVKETNMTSLQ KDLSQVRDHLAEAKEKLSILEKEDETEVQESKKACMFEPLPIKLSKSIASQTDGTLKISSSNQTPQILVK NAGIQINLQSECSSEEVTEIISQFTEKIEKMQELHAAEILDMESRHISETETLKREHYVAVQLLKEECGT LKAVIQCLRSKEGSSIPELAHSDAYQTREICSSDSGSDWGQGIYLTHSQGFDIASEGRGEESESATDSFP KKIKGLLRAVHNEGMQVLSLTESPYSDGEDHSIQQVSEPWLEERKAYINTISSLKDLITKMQLQREAEVY DSSQSHESFSDWRGELLLALQQVFLEERSVLLAAFRTELTALGTTDAVGLLNCLEQRIQEQGVEYQAAME CLQKADRRSLLSEIQALHAQMNGRKITLKREQESEKPSQELLEYNIQQKQSQMLEMQVELSSMKDRATEL QEQLSSEKMVVAELKSELAQTKLELETTLKAQHKHLKELEAFRLEVKDKTDEVHLLNDTLASEQKKSREL QWALEKEKAKLGRSEERDKEELEDLKFSLESQKQRNLQLNLLLEQQKQLLNESQQKIESQRMLYDAQLSE EQGRNLELQVLLESEKVRIREMSSTLDRERELHAQLQSSDGTGQSRPPLPSEDLLKELQKQLEEKHSRIV ELLNETEKYKLDSLQTRQQMEKDRQVHRKTLQTEQEANTEGQKKMHELQSKVEDLQRQLEEKRQQVYKLD LEGQRLQGIMQEFQKQELEREEKRESRRILYQNLNEPTTWSLTSDRTRNWVLQQKIEGETKESNYAKLIE MNGGGTGCNHELEMIRQKLQCVASKLQVLPQKASERLQFETADDEDFIWVQENIDEIILQLQKLTGQQGE EPSLVSPSTSCGSLTERLLRQNAELTGHISQLTEEKNDLRNMVMKLEEQIRWYRQTGAGRDNSSRFSLNG GANIEAIIASEKEVWNREKLTLQKSLKRAEAEVYKLKAELRNDSLLQTLSPDSEHVTLKRIYGKYLRAES FRKALIYQKKYLLLLLGGFQECEDATLALLARMGGQPAFTDLEVITNRPKGFTRFRSAVRVSIAISRMKF LVRRWHRVTGSVSININRDGFGLNQGAEKTDSFYHSSGGLELYGEPRHTTYRSRSDLDYIRSPLPFQNRY PGTPADFNPGSLACSQLQNYDPDRALTDYITRLEALQRRLGTIQSGSTTQFHAGMRR TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_005751 |
ORF Size | 11721 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_005751.5 |
RefSeq Size | 12463 bp |
RefSeq ORF | 11724 bp |
Locus ID | 10142 |
UniProt ID | Q99996 |
Protein Families | Druggable Genome |
MW | 452.99 kDa |
Gene Summary | The A-kinase anchor proteins (AKAPs) are a group of structurally diverse proteins which have the common function of binding to the regulatory subunit of protein kinase A (PKA) and confining the holoenzyme to discrete locations within the cell. This gene encodes a member of the AKAP family. Alternate splicing of this gene results in at least two isoforms that localize to the centrosome and the Golgi apparatus, and interact with numerous signaling proteins from multiple signal transduction pathways. These signaling proteins include type II protein kinase A, serine/threonine kinase protein kinase N, protein phosphatase 1, protein phosphatase 2a, protein kinase C-epsilon and phosphodiesterase 4D3. [provided by RefSeq, Aug 2008] |
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