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AKAP9 (NM_147185) Human Tagged ORF Clone

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SKU
RG219690
AKAP9 (tGFP-tagged) - Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_147185 in other vectors (2)
Reconstitution Protocol
$3,610.00
Please Inquire*
Size
Bulk Requests & Clone Modifications

Other products for "AKAP9"

Frequently Bought Together (4)

TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
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CC100003 DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA) 5 x 200 ul
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PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
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PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug 10 ug
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Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol AKAP9
Synonyms AKAP-9; AKAP350; AKAP450; CG-NAP; HYPERION; LQT11; MU-RMS-40.16A; PPP1R45; PRKA9; YOTIAO
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG219690 representing NM_147185
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
GAAACTGGAGTTCAGAGTAAGAGAACTGGAGCAGGCGCTTCTTGTAGAGGACCGAAAACACTTTGGAGCT
GTAGAAGCTAAACCAGAATTGTCCCTAGAAGTACAATTGCAGGCTGAACGAGATGCCATAGACAGAAAGG
AAAAAGAGATTACAAACTTAGAAGAGCAATTAGAACAGTTTAGAGAAGAACTGGAAAATAAGAATGAAGA
AGTTCAACAATTACATATGCAATTAGAAATACAGAAAAAGGAATCTACTACCCGCCTACAAGAACTTGAA
CAGGAAAACAAATTATTTAAGGATGACATGGAGAAACTGGGACTTGCCATAAAGGAATCTGATGCCATGT
CTACTCAAGACCAACATGTGCTATTTGGGAAATTTGCTCAAATAATACAGGAAAAAGAGGTAGAAATTGA
CCAATTAAATGAACAAGTTACGAAACTCCAGCAGCAACTTAAAATTACAACAGATAACAAGGTTATTGAA
GAAAAAAATGAACTGATAAGGGATCTTGAAACCCAAATAGAATGTTTGATGAGTGATCAAGAATGTGTGA
AGAGAAATAGAGAAGAAGAAATAGAGCAGCTCAATGAAGTGATTGAAAAACTTCAACAGGAATTGGCAAA
TATTGGACAGAAGACATCAATGAATGCTCATTCCCTCTCAGAAGAAGCAGACAGTTTAAAACATCAATTG
GATGTGGTTATAGCTGAAAAGCTGGCCTTGGAACAGCAAGTAGAAACCGCTAATGAAGAAATGACCTTCA
TGAAAAATGTACTTAAAGAAACCAATTTTAAAATGAATCAGCTAACACAGGAATTATTCAGCTTAAAGAG
AGAACGTGAAAGTGTGGAAAAGATTCAAAGCATACCAGAGAATAGTGTTAACGTGGCTATAGATCATCTG
AGCAAAGACAAACCTGAACTAGAAGTAGTCCTTACAGAGGATGCTCTTAAATCCCTAGAAAATCAGACAT
ACTTCAAATCTTTTGAAGAAAATGGCAAAGGTTCCATAATTAATTTGGAAACAAGGTTGCTACAACTTGA
GAGCACTGTTAGTGCAAAGGACTTAGAACTTACCCAGTGTTATAAACAAATAAAAGACATGCAAGAACAA
GGCCAGTTTGAAACAGAAATGCTTCAAAAGAAGATTGTAAACCTACAGAAAATAGTTGAAGAAAAAGTGG
CTGCTGCTCTTGTCAGTCAAATCCAACTTGAGGCAGTTCAGGAATATGCAAAATTCTGTCAAGATAATCA
AACAATTTCATCAGAACCTGAAAGAACAAATATTCAGAATTTAAATCAACTAAGAGAAGATGAGTTGGGG
TCAGATATATCAGCATTAACCTTGAGAATATCAGAATTAGAAAGCCAGGTTGTTGAAATGCATACTAGTT
TGATTTTAGAAAAAGAACAAGTAGAAATTGCAGAAAAAAATGTTTTAGAAAAAGAAAAGAAGCTGCTAGA
ACTACAGAAGCTATTGGAGGGCAATGAGAAAAAACAGAGAGAGAAAGAAAAGAAAAGAAGCCCTCAAGAT
GTTGAAGTTCTCAAGACAACTACTGAGCTATTTCATAGCAATGAAGAAAGTGGATTTTTTAATGAACTCG
AGGCTCTTAGAGCTGAATCAGTGGCTACCAAAGCAGAACTTGCCAGTTATAAAGAAAAGGCTGAAAAACT
TCAAGAAGAGCTTTTGGTAAAAGAAACAAATATGACATCTCTTCAGAAAGACTTAAGCCAAGTTAGGGAT
CACCTCGCAGAGGCAAAAGAGAAATTGTCCATTTTAGAAAAAGAAGATGAGACTGAGGTACAAGAAAGCA
AAAAGGCCTGCATGTTTGAGCCACTTCCTATAAAACTGAGTAAGAGCATTGCATCCCAGACAGATGGGAC
TCTGAAGATCAGTAGCAGCAATCAGACTCCACAAATTCTTGTTAAAAATGCAGGAATACAAATTAATTTA
CAGAGTGAATGTTCCTCAGAAGAAGTTACTGAAATAATCAGTCAGTTTACTGAAAAAATTGAGAAGATGC
AAGAACTACATGCTGCTGAAATTTTGGACATGGAATCCAGACATATTTCAGAAACTGAAACCTTAAAGAG
GGAACACTATGTTGCCGTTCAGTTACTGAAAGAGGAATGTGGTACCTTGAAGGCAGTGATACAGTGTCTG
AGAAGTAAAGAGGGATCCTCAATTCCTGAGCTAGCACATTCTGATGCTTACCAGACTAGAGAAATATGCT
CCAGTGATTCTGGATCAGACTGGGGTCAGGGAATTTATCTTACACACAGTCAGGGATTTGACATAGCATC
AGAAGGCCGAGGAGAAGAAAGTGAAAGTGCAACAGATTCCTTTCCAAAGAAAATAAAGGGATTACTGAGA
GCTGTCCATAATGAAGGCATGCAGGTGCTTTCTCTCACTGAGTCTCCCTATAGTGATGGAGAGGACCATT
CTATTCAGCAGGTTTCAGAACCTTGGCTAGAAGAGAGAAAAGCTTACATCAATACAATCTCATCTCTAAA
GGATTTAATTACAAAGATGCAACTGCAAAGAGAAGCCGAGGTTTATGATAGTTCTCAATCTCATGAGAGC
TTCTCAGACTGGCGAGGTGAACTACTGCTTGCCCTTCAACAAGTTTTCTTAGAAGAGCGTAGTGTTTTAC
TAGCAGCATTTCGGACGGAGCTGACAGCTCTAGGTACTACAGATGCAGTTGGTTTACTAAACTGTTTGGA
ACAGAGAATACAAGAACAGGGTGTTGAATATCAAGCAGCTATGGAATGCCTCCAGAAAGCAGATAGAAGG
AGTTTGTTATCTGAAATTCAGGCACTGCATGCACAAATGAATGGTAGGAAAATTACTCTGAAAAGAGAAC
AAGAGAGTGAGAAACCAAGCCAAGAACTCTTGGAATATAATATACAGCAGAAGCAGTCTCAAATGCTGGA
GATGCAAGTGGAGCTCAGCAGTATGAAAGACAGAGCAACGGAACTGCAGGAGCAGCTGAGTTCTGAGAAA
ATGGTGGTTGCTGAACTGAAGAGTGAGCTTGCACAAACTAAATTGGAACTAGAAACAACACTCAAGGCAC
AGCATAAACACCTAAAAGAATTGGAGGCTTTCAGGTTGGAAGTTAAAGATAAGACAGATGAAGTACATTT
GCTTAATGACACATTAGCAAGTGAACAGAAAAAATCAAGAGAGCTCCAGTGGGCTTTGGAGAAAGAGAAA
GCCAAGTTGGGACGCAGTGAAGAACGGGATAAAGAAGAACTTGAGGATCTGAAGTTTTCACTTGAGAGTC
AGAAACAAAGGAATCTTCAGCTAAATCTACTTTTGGAACAACAGAAACAACTACTGAACGAATCCCAGCA
AAAAATAGAATCACAGAGAATGCTATATGATGCCCAGTTGTCAGAAGAACAAGGTCGAAACTTAGAGCTT
CAGGTACTTCTTGAATCTGAGAAAGTTCGAATTCGGGAAATGAGTAGTACCCTAGATAGGGAGCGGGAAT
TGCACGCACAGCTGCAGAGCAGTGATGGTACTGGACAGTCTCGGCCACCCTTGCCCTCAGAGGACCTACT
GAAAGAGCTGCAGAAACAGCTAGAGGAAAAACACAGTCGCATAGTAGAATTGTTAAATGAGACTGAAAAA
TATAAACTGGATTCTTTGCAAACACGACAGCAAATGGAAAAAGATAGGCAGGTTCACAGGAAAACACTGC
AGACAGAACAGGAGGCCAACACTGAGGGACAGAAAAAAATGCATGAGCTCCAGTCCAAAGTGGAAGATCT
TCAGCGCCAGCTGGAAGAGAAAAGACAACAAGTTTATAAGTTAGACCTTGAAGGACAGCGACTACAAGGA
ATCATGCAGGAATTCCAGAAGCAAGAACTAGAACGAGAAGAAAAACGAGAAAGTAGAAGAATTCTGTATC
AGAACCTTAATGAGCCAACCACGTGGAGCTTAACCAGTGATAGAACTAGAAATTGGGTTCTTCAACAGAA
AATAGAAGGAGAAACAAAAGAATCAAACTACGCTAAATTGATTGAAATGAATGGAGGAGGAACCGGCTGT
AATCATGAATTAGAAATGATCAGACAAAAGCTTCAATGTGTAGCTTCAAAACTACAGGTTCTACCCCAGA
AAGCCTCTGAGAGACTACAGTTTGAAACAGCAGATGATGAAGATTTCATTTGGGTTCAGGAAAATATTGA
TGAAATTATTTTACAACTACAGAAATTAACTGGCCAGCAAGGTGAAGAGCCCAGCTTGGTGTCCCCAAGT
ACTTCTTGTGGCTCATTGACTGAAAGACTACTGAGACAAAATGCTGAGCTGACAGGGCATATCAGTCAAC
TGACTGAAGAGAAGAATGACTTAAGGAACATGGTTATGAAGCTGGAAGAGCAGATCAGGTGGTATCGACA
GACAGGAGCTGGTAGAGATAATTCTTCCAGGTTTTCATTGAATGGTGGTGCCAACATTGAAGCCATCATT
GCCTCTGAAAAAGAAGTATGGAACAGAGAAAAATTGACTCTCCAGAAATCTTTGAAAAGGGCAGAGGCTG
AAGTATACAAACTGAAAGCTGAACTAAGAAATGACTCTTTACTTCAAACTCTGAGCCCTGATTCTGAACA
TGTCACTTTAAAGAGAATTTATGGTAAATACTTGAGGGCAGAAAGTTTTCGAAAGGCTCTCATTTACCAG
AAGAAATACCTGCTGCTGTTACTGGGTGGGTTCCAGGAATGTGAAGATGCCACCTTGGCCCTGCTTGCCC
GGATGGGGGGGCAGCCAGCTTTCACGGATCTAGAGGTGATCACCAATCGCCCAAAGGGCTTCACCAGGTT
TCGGTCGGCCGTCAGAGTATCCATTGCAATTTCCAGAATGAAATTTTTGGTTCGACGGTGGCATCGAGTC
ACAGGTTCTGTTTCCATCAATATTAACAGAGATGGCTTTGGACTGAATCAAGGTGCAGAAAAGACTGACT
CATTTTATCATTCTTCTGGTGGGCTGGAGTTATATGGAGAACCAAGACATACTACGTATCGCTCAAGATC
AGATCTGGACTATATTAGGTCCCCTTTACCATTTCAGAATAGGTACCCAGGCACTCCAGCTGATTTCAAT
CCTGGTTCTTTAGCATGTTCTCAGCTTCAGAATTACGATCCTGACAGAGCCCTAACAGATTATATCACTC
GGCTAGAGGCACTGCAAAGACGACTTGGAACTATACAGTCAGGTTCAACTACTCAATTTCATGCTGGCAT
GAGAAGA

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG219690 representing NM_147185
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
QPISEHQTREVEQLANHLKEKTDKCSELLLSKEQLQRDIQERNEEIEKLEFRVRELEQALLVEDRKHFGA
VEAKPELSLEVQLQAERDAIDRKEKEITNLEEQLEQFREELENKNEEVQQLHMQLEIQKKESTTRLQELE
QENKLFKDDMEKLGLAIKESDAMSTQDQHVLFGKFAQIIQEKEVEIDQLNEQVTKLQQQLKITTDNKVIE
EKNELIRDLETQIECLMSDQECVKRNREEEIEQLNEVIEKLQQELANIGQKTSMNAHSLSEEADSLKHQL
DVVIAEKLALEQQVETANEEMTFMKNVLKETNFKMNQLTQELFSLKRERESVEKIQSIPENSVNVAIDHL
SKDKPELEVVLTEDALKSLENQTYFKSFEENGKGSIINLETRLLQLESTVSAKDLELTQCYKQIKDMQEQ
GQFETEMLQKKIVNLQKIVEEKVAAALVSQIQLEAVQEYAKFCQDNQTISSEPERTNIQNLNQLREDELG
SDISALTLRISELESQVVEMHTSLILEKEQVEIAEKNVLEKEKKLLELQKLLEGNEKKQREKEKKRSPQD
VEVLKTTTELFHSNEESGFFNELEALRAESVATKAELASYKEKAEKLQEELLVKETNMTSLQKDLSQVRD
HLAEAKEKLSILEKEDETEVQESKKACMFEPLPIKLSKSIASQTDGTLKISSSNQTPQILVKNAGIQINL
QSECSSEEVTEIISQFTEKIEKMQELHAAEILDMESRHISETETLKREHYVAVQLLKEECGTLKAVIQCL
RSKEGSSIPELAHSDAYQTREICSSDSGSDWGQGIYLTHSQGFDIASEGRGEESESATDSFPKKIKGLLR
AVHNEGMQVLSLTESPYSDGEDHSIQQVSEPWLEERKAYINTISSLKDLITKMQLQREAEVYDSSQSHES
FSDWRGELLLALQQVFLEERSVLLAAFRTELTALGTTDAVGLLNCLEQRIQEQGVEYQAAMECLQKADRR
SLLSEIQALHAQMNGRKITLKREQESEKPSQELLEYNIQQKQSQMLEMQVELSSMKDRATELQEQLSSEK
MVVAELKSELAQTKLELETTLKAQHKHLKELEAFRLEVKDKTDEVHLLNDTLASEQKKSRELQWALEKEK
AKLGRSEERDKEELEDLKFSLESQKQRNLQLNLLLEQQKQLLNESQQKIESQRMLYDAQLSEEQGRNLEL
QVLLESEKVRIREMSSTLDRERELHAQLQSSDGTGQSRPPLPSEDLLKELQKQLEEKHSRIVELLNETEK
YKLDSLQTRQQMEKDRQVHRKTLQTEQEANTEGQKKMHELQSKVEDLQRQLEEKRQQVYKLDLEGQRLQG
IMQEFQKQELEREEKRESRRILYQNLNEPTTWSLTSDRTRNWVLQQKIEGETKESNYAKLIEMNGGGTGC
NHELEMIRQKLQCVASKLQVLPQKASERLQFETADDEDFIWVQENIDEIILQLQKLTGQQGEEPSLVSPS
TSCGSLTERLLRQNAELTGHISQLTEEKNDLRNMVMKLEEQIRWYRQTGAGRDNSSRFSLNGGANIEAII
ASEKEVWNREKLTLQKSLKRAEAEVYKLKAELRNDSLLQTLSPDSEHVTLKRIYGKYLRAESFRKALIYQ
KKYLLLLLGGFQECEDATLALLARMGGQPAFTDLEVITNRPKGFTRFRSAVRVSIAISRMKFLVRRWHRV
TGSVSININRDGFGLNQGAEKTDSFYHSSGGLELYGEPRHTTYRSRSDLDYIRSPLPFQNRYPGTPADFN
PGSLACSQLQNYDPDRALTDYITRLEALQRRLGTIQSGSTTQFHAGMRR

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_147185
ORF Size 11697 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.
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 Method 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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_147185.3
RefSeq Size 12439 bp
RefSeq ORF 11700 bp
Locus ID 10142
UniProt ID Q99996
Cytogenetics 7q21.2
Protein Families Druggable Genome
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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You're reviewing:AKAP9 (NM_147185) Human Tagged ORF Clone
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"NM_147185" in other vectors (2)
SKU Description Size Price
RC219690 AKAP9 (Myc-DDK-tagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3 10 ug
$3,410.00
SC306304 AKAP9 (untagged)-Human A kinase (PRKA) anchor protein (yotiao) 9 (AKAP9), transcript variant 3 10 ug
$3,411.00

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*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.