Ankyrin brain (ANK2) (NM_001148) Human Tagged ORF Clone

CAT#: RC224256

ANK2 (Myc-DDK-tagged)-Human ankyrin 2, neuronal (ANK2), transcript variant 1

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: Myc-DDK
• Symbol: ANK2
• Synonyms: ANK-2; brank-2; LQT4
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RC224256 representing NM_001148
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGATGAACGAAGATGCAGCTCAGAAAAGCGACAGTGGAGAGAAGTTCAACGGCAGTAGTCAGAGGAGAA
  AAAGACCCAAGAAGTCTGACAGCAATGCAAGCTTCCTCCGTGCTGCCAGAGCAGGCAACCTGGACAAAGT
  TGTGGAATATCTGAAGGGGGGCATAGACATCAATACCTGCAATCAGAATGGACTCAACGCTCTCCATCTG
  GCTGCCAAGGAAGGCCACGTGGGGCTGGTGCAGGAGCTGCTGGGAAGAGGGTCCTCTGTGGATTCTGCCA
  CTAAGAAGGGAAATACCGCTCTTCACATTGCATCTTTGGCTGGACAAGCAGAAGTTGTCAAAGTTCTTGT
  TAAGGAAGGAGCCAATATTAATGCACAGTCTCAGAATGGCTTTACTCCTTTATACATGGCTGCCCAAGAG
  AATCACATTGATGTTGTAAAATATTTGCTGGAAAATGGAGCTAATCAGAGCACTGCTACAGAGGATGGCT
  TTACTCCTCTAGCTGTGGCACTCCAGCAAGGACACAACCAGGCGGTGGCCATCCTCTTGGAGAATGACAC
  CAAAGGGAAAGTGAGGCTGCCAGCTCTGCATATTGCCGCTAGGAAAGACGACACCAAATCTGCCGCACTT
  CTGCTTCAGAATGACCACAATGCTGACGTACAATCCAAGATGATGGTGAATAGGACAACTGAGAGTGGTT
  TTACCCCTTTGCACATAGCTGCACATTACGGAAATGTCAACGTGGCAACTCTTCTTCTAAACCGGGGAGC
  TGCTGTGGACTTCACAGCCAGGAATGGAATCACTCCTCTGCATGTGGCTTCCAAAAGAGGAAATACAAAC
  ATGGTGAAGCTCTTACTGGATCGAGGCGGTCAGATCGATGCCAAAACTAGGGATGGGTTGACACCACTTC
  ACTGTGCTGCACGAAGTGGGCATGACCAAGTGGTGGAACTTCTGTTGGAACGGGGTGCCCCCTTGCTGGC
  AAGGACTAAGAATGGGCTGTCTCCACTACACATGGCTGCCCAGGGAGACCACGTGGAATGTGTGAAGCAC
  CTGTTACAGCACAAGGCACCTGTTGATGATGTCACCCTAGACTACCTGACAGCCCTCCACGTTGCTGCGC
  ACTGTGGCCACTACCGTGTAACCAAACTCCTTTTAGACAAGAGAGCCAATCCGAACGCCAGAGCCCTGAA
  TGGTTTTACTCCACTGCACATTGCCTGCAAGAAAAACCGCATCAAAGTCATGGAACTGCTGGTGAAATAT
  GGGGCTTCAATCCAAGCTATAACAGAGTCTGGCCTCACACCAATACATGTGGCTGCCTTCATGGGCCACT
  TGAACATTGTCCTCCTTCTGCTGCAGAACGGAGCCTCTCCAGATGTCACTAACATTCGTGGTGAGACGGC
  ACTACACATGGCAGCCCGAGCCGGGCAGGTGGAAGTGGTCCGATGCCTCCTGAGAAATGGTGCCCTTGTT
  GATGCCAGAGCCAGGGAGGAACAGACACCTTTACATATTGCCTCCCGCCTGGGTAAGACAGAAATTGTCC
  AGCTGCTTCTACAACATATGGCTCATCCAGATGCGGCCACTACAAATGGGTACACACCACTGCACATCTC
  TGCCCGGGAGGGCCAGGTGGATGTGGCATCAGTCCTATTGGAAGCAGGAGCAGCCCACTCCTTAGCTACC
  AAGAAGGGTTTTACTCCCCTGCATGTAGCAGCCAAGTATGGAAGCCTGGATGTGGCAAAACTTCTCTTGC
  AACGCCGTGCTGCCGCAGATTCTGCAGGGAAGAACGGCCTTACCCCGCTCCATGTTGCTGCTCATTATGA
  CAACCAGAAGGTGGCGCTGCTGTTACTGGAGAAGGGTGCTTCCCCTCATGCCACTGCCAAGAATGGCTAT
  ACTCCGTTACATATTGCTGCCAAGAAGAATCAAATGCAGATAGCTTCCACACTCCTGAACTATGGAGCAG
  AGACAAACATTGTGACAAAGCAAGGAGTAACTCCACTCCATCTGGCCTCGCAGGAGGGGCACACAGATAT
  GGTTACCTTGCTTCTGGATAAGGGAGCCAATATCCACATGTCAACTAAGAGTGGACTCACATCCTTACAC
  CTTGCAGCCCAGGAAGATAAAGTGAATGTTGCTGATATTCTCACCAAGCATGGAGCTGATCAGGATGCTC
  ATACAAAGCTTGGTTACACACCTTTAATTGTGGCCTGTCACTATGGAAATGTGAAAATGGTCAACTTTCT
  TCTGAAGCAGGGAGCAAATGTTAACGCAAAAACCAAGAACGGCTACACGCCTTTGCACCAGGCCGCTCAG
  CAGGGTCACACGCACATCATCAACGTCCTGCTCCAGCATGGGGCCAAGCCCAACGCCACCACTGCGAATG
  GCAACACTGCCTTGGCGATTGCTAAGCGTCTGGGCTACATCTCCGTGGTCGACACCCTGAAGGTTGTGAC
  TGAGGAGGTCACCACCACCACCACAACTATTACAGAAAAACACAAACTAAATGTACCTGAGACGATGACT
  GAGGTTCTTGATGTTTCTGATGAAGAGGGTGATGACACAATGACTGGTGATGGGGGAGAATACCTTAGGC
  CTGAGGACCTAAAAGAACTGGGTGATGACTCACTACCCAGCAGTCAGTTCCTGGATGGTATGAATTACCT
  GCGATACAGCTTGGAGGGAGGACGATCTGACAGCCTTCGATCCTTCAGTTCCGACAGGTCTCACACTCTG
  AGCCATGCCTCCTACCTGAGGGACAGTGCCGTGATGGATGACTCAGTTGTGATTCCCAGTCACCAGGTGT
  CAACTCTAGCCAAGGAGGCAGAAAGGAATTCTTATCGCCTAAGCTGGGGCACTGAGAACTTAGACAACGT
  GGCTCTTTCTTCTAGTCCTATTCATTCAGGTTTCCTGGTTAGTTTTATGGTGGATGCCCGAGGTGGTGCT
  ATGCGAGGATGCAGACACAATGGGCTCCGAATCATTATTCCACCTCGGAAATGTACTGCTCCAACGCGAG
  TCACCTGCCGACTGGTCAAGCGCCACAGACTGGCAACAATGCCTCCAATGGTGGAAGGAGAAGGCCTGGC
  CAGTCGCCTGATCGAAGTTGGACCTTCTGGTGCTCAGTTCCTTGGTAAACTTCACCTGCCAACGGCTCCT
  CCCCCACTTAATGAGGGAGAAAGTTTGGTCAGCCGCATTCTTCAGCTGGGGCCTCCTGGAACCAAATTCC
  TTGGGCCTGTGATCGTGGAGATCCCTCACTTTGCGGCCCTTCGAGGAAAGGAAAGGGAACTGGTGGTCCT
  GCGCAGTGAGAATGGGGACAGCTGGAAAGAGCATTTCTGTGACTACACTGAAGATGAATTGAATGAAATT
  CTTAACGGCATGGATGAAGTACTGGATAGCCCAGAAGACCTAGAAAAGAAACGAATCTGCCGCATCATCA
  CCCGAGACTTCCCACAGTACTTTGCAGTGGTGTCTCGTATCAAACAGGACAGCAATCTGATTGGCCCAGA
  AGGAGGTGTACTGAGCAGCACAGTGGTGCCCCAGGTGCAGGCCGTCTTCCCAGAGGGGGCACTCACCAAG
  CGGATCCGCGTAGGCCTGCAGGCTCAACCTATGCACAGTGAGCTGGTTAAGAAGATCCTAGGCAACAAAG
  CTACCTTCAGCCCTATAGTCACTTTGGAACCTAGAAGAAGAAAATTCCACAAACCAATTACCATGACCAT
  TCCTGTCCCCAAAGCTTCAAGTGATGTCATGTTGAATGGTTTTGGGGGAGATGCACCAACCTTAAGATTA
  CTATGCAGCATAACAGGTGGAACCACCCCTGCCCAGTGGGAAGATATTACAGGAACTACGCCATTAACAT
  TTGTCAATGAATGTGTTTCCTTTACAACAAACGTGTCTGCCAGGTTCTGGCTGATAGATTGTCGACAGAT
  CCAGGAATCCGTTACTTTTGCATCACAAGTATACAGAGAAATTATCTGCGTACCTTATATGGCCAAATTT
  GTAGTGTTTGCCAAATCACATGACCCCATTGAAGCCAGGTTGAGGTGTTTCTGCATGACTGATGATAAAG
  TGGATAAGACCCTTGAACAACAAGAAAATTTTGCTGAGGTGGCCAGAAGCAGGGATGTGGAGGTGTTAGA
  AGGAAAACCCATCTACGTTGATTGTTTCGGCAACTTGGTACCATTAACTAAAAGTGGCCAGCATCATATA
  TTCAGTTTTTTTGCCTTCAAAGAAAATAGACTTCCTCTATTTGTCAAGGTACGCGATACGACTCAGGAAC
  CTTGCGGACGACTATCATTTATGAAGGAGCCAAAATCCACGAGAGGCCTGGTGCATCAAGCTATTTGCAA
  CTTAAACATCACTTTGCCGATTTATACAAAGGAATCAGAGTCAGATCAAGAACAGGAGGAAGAGATCGAT
  ATGACATCAGAAAAAAATGATGAGACAGAATCTACAGAAACATCTGTCCTGAAAAGTCACCTGGTTAATG
  AAGTTCCTGTCCTAGCAAGTCCGGACTTGCTCTCTGAAGTTTCTGAGATGAAACAAGATTTGATCAAAAT
  GACCGCCATCTTGACCACAGATGTGTCTGATAAGGCAGGTTCTATTAAAGTGAAGGAGCTGGTGAAGGCT
  GCTGAGGAAGAGCCAGGAGAGCCTTTTGAAATCGTTGAAAGAGTTAAAGAGGACTTAGAGAAAGTGAATG
  AAATCCTGAGAAGTGGAACCTGCACAAGAGATGAAAGCAGTGTGCAGAGCTCTCGGTCTGAGAGAGGATT
  AGTTGAAGAGGAATGGGTTATTGTCAGTGATGAGGAAATAGAAGAGGCTAGGCAAAAAGCACCTTTAGAA
  ATCACTGAATATCCATGTGTAGAAGTTAGAATAGATAAAGAGATCAAAGGAAAAGTAGAGAAAGACTCAA
  CTGGGCTAGTGAACTACCTTACTGATGATCTGAATACCTGTGTGCCTCTTCCCAAAGAGCAGCTGCAGAC
  AGTTCAAGATAAGGCAGGGAAGAAATGTGAGGCTCTGGCTGTTGGCAGGAGCTCTGAAAAGGAAGGGAAA
  GACATACCCCCAGATGAGACACAGAGTACACAGAAACAGCACAAACCAAGCTTGGGAATAAAGAAGCCAG
  TAAGAAGGAAATTAAAAGAAAAGCAGAAACAAAAAGAGGAAGGTTTACAAGCTAGTGCAGAGAAAGCTGA
  ACTTAAAAAAGGTAGTTCAGAAGAGTCATTAGGTGAAGACCCAGGTTTAGCCCCTGAACCCCTTCCCACT
  GTCAAGGCCACATCTCCTTTGATAGAAGAAACTCCCATTGGTTCCATAAAGGACAAAGTAAAGGCCCTTC
  AGAAGCGAGTGGAAGATGAACAGAAAGGTCGAAGCAAGTTGCCCATCAGAGTCAAAGGCAAGGAGGACGT
  GCCAAAAAAGACCACCCACAGGCCACATCCAGCTGCGTCACCCTCTCTGAAGTCAGAGAGACATGCGCCA
  GGGTCTCCCTCCCCTAAAACAGAAAGACACTCTACTCTTTCCTCTTCCGCAAAAACTGAAAGGCACCCTC
  CAGTATCACCATCAAGTAAAACTGAGAAACACTCACCTGTGTCACCCTCTGCAAAAACGGAAAGACATTC
  ACCTGCGTCATCATCGAGTAAAACTGAGAAACACTCACCTGTATCACCCTCGACAAAAACTGAAAGGCAC
  TCTCCTGTGTCATCTACAAAAACAGAAAGACACCCACCTGTTTCGCCTTCAGGCAAAACAGACAAACGTC
  CACCTGTATCGCCCTCCGGGAGGACAGAAAAACACCCGCCAGTATCGCCTGGGAGAACAGAAAAACGCTT
  GCCTGTTTCACCCTCCGGAAGAACGGACAAGCACCAACCTGTATCAACAGCTGGGAAAACTGAGAAGCAC
  CTGCCTGTGTCACCTTCTGGCAAAACAGAAAAGCAACCACCTGTATCCCCCACTTCAAAAACAGAGAGGA
  TTGAGGAAACCATGTCTGTTCGGGAGCTGATGAAGGCTTTCCAGTCAGGTCAGGACCCTTCTAAACATAA
  AACTGGACTCTTTGAGCACAAATCAGCAAAACAAAAGCAGCCACAAGAGAAAGGTAAAGTTCGGGTAGAA
  AAAGAAAAGGGGCCGATACTAACCCAGAGAGAAGCTCAGAAAACAGAGAATCAGACAATCAAACGAGGCC
  AGAGACTCCCGGTAACGGGCACAGCAGAATCCAAAAGAGGAGTTCGTGTTTCCTCCATAGGAGTTAAGAA
  AGAAGATGCAGCTGGAGGAAAGGAGAAAGTTCTCAGCCACAAAATACCTGAACCTGTTCAGTCAGTGCCT
  GAAGAAGAAAGCCACAGAGAGAGCGAAGTGCCCAAAGAAAAGATGGCTGATGAGCAGGGAGACATGGATC
  TACAGATCAGCCCAGATAGGAAAACCTCCACTGACTTCTCTGAGGTCATTAAGCAAGAGTTGGAAGACAA
  TGACAAATACCAACAATTCCGCCTGAGTGAGGAGACAGAAAAGGCACAGCTTCACTTAGACCAAGTACTC
  ACTAGTCCTTTCAACACAACATTTCCACTCGACTACATGAAAGATGAGTTCCTTCCAGCTCTGTCTTTAC
  AAAGCGGTGCTTTAGATGGCAGTTCTGAAAGCCTAAAGAATGAGGGGGTAGCCGGCTCTCCGTGTGGCAG
  CCTGATGGAGGGGACCCCTCAGATTAGTTCAGAAGAAAGCTATAAGCATGAAGGCCTAGCAGAGACCCCT
  GAGACGAGCCCAGAAAGCCTTTCTTTCTCACCAAAGAAAAGTGAGGAGCAAACTGGGGAAACAAAGGAAA
  GCACCAAGACAGAAACCACCACAGAAATTCGTTCAGAAAAAGAGCATCCCACGACCAAAGACATTACTGG
  TGGCTCTGAAGAGCGAGGTGCCACAGTCACTGAGGACTCAGAGACCTCTACTGAGAGTTTTCAGAAAGAG
  GCCACTCTAGGCTCTCCCAAAGACACAAGCCCTAAAAGACAAGATGATTGCACAGGCAGCTGTAGTGTAG
  CATTAGCTAAAGAGACACCTACAGGACTGACTGAGGAGGCAGCCTGTGATGAAGGTCAACGTACCTTTGG
  TAGTTCAGCCCACAAGACACAAACTGATAGTGAGGTTCAAGAATCCACAGCCACCTCAGACGAGACAAAG
  GCCTTGCCGCTGCCTGAGGCTTCTGTAAAGACAGATACAGGAACTGAATCAAAACCTCAGGGAGTCATTA
  GAAGTCCCCAAGGGTTAGAACTTGCACTCCCTAGCCGAGATAGCGAAGTCCTCAGCGCTGTGGCTGATGA
  CTCATTAGCAGTGAGCCACAAAGACTCTCTGGAAGCCAGCCCTGTGCTAGAAGATAACTCTTCACACAAA
  ACCCCTGATTCTCTGGAGCCAAGTCCTCTGAAAGAATCCCCTTGCCGTGACTCTCTGGAAAGCAGCCCTG
  TTGAACCAAAGATGAAGGCTGGAATTTTTCCAAGTCACTTTCCTCTTCCTGCAGCTGTTGCCAAAACAGA
  ACTCTTGACGGAAGTGGCCTCTGTGCGGTCCCGGCTACTCCGAGACCCTGATGGCAGTGCTGAGGATGAC
  AGTCTTGAGCAGACATCGCTCATGGAGAGCTCAGGGAAGAGCCCCCTTTCTCCTGACACCCCCAGCTCTG
  AAGAAGTCAGCTATGAGGTTACACCCAAAACCACAGATGTAAGTACACCAAAACCAGCTGTGATTCATGA
  ATGTGCAGAGGAGGATGATTCAGAAAACGGGGAGAAAAAGAGGTTCACACCTGAAGAGGAGATGTTTAAA
  ATGGTAACCAAAATCAAAATGTTTGATGAACTTGAACAAGAAGCAAAGCAGAAAAGGGACTACAAAAAAG
  AACCCAAACAAGAAGAATCTTCTTCATCTTCTGACCCAGATGCTGACTGTTCAGTAGATGTGGATGAACC
  AAAACATACAGGCAGTGGGGAGGATGAAAGTGGTGTCCCTGTGTTAGTAACTTCGGAGAGCAGGAAGGTG
  TCTTCCTCCTCAGAAAGTGAACCTGAGTTGGCACAGCTTAAAAAAGGTGCTGACTCAGGCCTTTTACCAG
  AACCAGTGATTCGAGTACAACCTCCTTCTCCACTTCCATCAAGCATGGACTCCAATTCCAGTCCAGAAGA
  AGTACAATTCCAGCCTGTCGTTTCCAAACAATATACTTTCAAGATGAATGAAGATACTCAGGAAGAGCCA
  GGCAAATCAGAAGAAGAAAAAGATTCTGAATCCCATTTAGCTGAAGACCGTCATGCTGTTTCCACTGAGG
  CTGAAGACAGGTCTTATGATAAGCTAAACAGAGACACTGATCAGCCAAAAATCTGTGATGGCCATGGATG
  TGAGGCCATGAGTCCTAGCAGCTCAGCTGCTCCTGTCTCTTCAGGTCTACAGAGTCCGACTGGTGATGAT
  GTTGATGAACAGCCAGTCATCTATAAAGAATCATTAGCTCTCCAAGGCACTCATGAAAAAGACACAGAGG
  GAGAAGAGCTTGATGTTTCTAGAGCAGAATCTCCACAAGCAGATTGCCCCAGTGAAAGCTTTTCATCTTC
  ATCCTCTTTGCCTCATTGTTTGGTATCTGAAGGAAAAGAATTAGATGAAGACATATCTGCCACATCTTCT
  ATTCAAAAAACAGAGGTCACAAAAACTGATGAAACATTTGAGAACTTACCAAAGGACTGCCCCTCTCAAG
  ACTCATCCATTACTACTCAAACAGATAGATTTTCCATGGATGTTCCCGTGTCTGACCTAGCTGAGAATGA
  TGAAATCTATGATCCACAAATCACTAGCCCTTATGAAAATGTCCCTTCCCAATCTTTTTTCTCTAGTGAA
  GAAAGCAAAACCCAAACAGATGCAAATCACACCACAAGTTTTCACTCTTCTGAAGTGTATTCTGTTACCA
  TCACATCCCCTGTTGAAGACGTTGTAGTGGCAAGCTCCTCTAGTGGAACTGTTTTAAGCAAAGAATCTAA
  TTTTGAGGGCCAGGACATAAAAATGGAATCCCAACAGGAAAGTACCTTGTGGGAAATGCAATCAGACAGT
  GTCTCTTCATCTTTCGAGCCTACTATGTCCGCTACAACAACAGTTGTTGGTGAACAAATAAGCAAAGTCA
  TCATCACAAAAACTGATGTGGATTCTGATTCTTGGAGTGAAATTCGGGAAGACGATGAAGCCTTTGAGGC
  TCGTGTGAAAGAGGAAGAACAAAAGATATTTGGTTTGATGGTAGACAGACAATCACAGGGTACCACCCCT
  GACACCACTCCTGCTAGGACCCCAACTGAAGAGGGGACCCCAACAAGTGAGCAAAACCCATTTCTGTTTC
  AGGAAGGAAAATTGTTTGAAATGACCCGAAGTGGTGCCATTGATATGACCAAAAGGTCCTATGCAGATGA
  AAGTTTTCACTTTTTCCAAATTGGTCAAGAATCCAGGGAAGAGACTCTCTCTGAAGATGTGAAAGAAGGG
  GCTACTGGGGCTGATCCCCTACCGCTGGAGACATCAGCTGAATCACTAGCACTTTCAGAATCAAAAGAAA
  CAGTGGATGATGAGGCAGACTTACTTCCAGATGACGTGAGTGAGGAAGTAGAGGAAATACCTGCTTCGGA
  TGCTCAACTTAACTCCCAAATGGGGATTTCAGCCTCCACTGAAACACCTACAAAAGAAGCTGTTAGTGTA
  GGGACCAAGGACCTCCCCACCGTGCAAACGGGTGATATACCTCCTCTCTCTGGTGTAAAGCAGATATCCT
  GCCCCGACTCTTCTGAACCAGCTGTACAAGTCCAGTTAGATTTTTCCACACTCACCAGGTCTGTTTATTC
  AGATAGGGGTGATGATTCTCCCGATTCTTCCCCAGAAGAACAGAAATCAGTAATCGAGATTCCTACTGCA
  CCCATGGAGAATGTGCCTTTTACTGAAAGCAAATCCAAAATTCCTGTAAGGACTATGCCCACTTCCACCC
  CAGCACCTCCATCTGCAGAGTATGAGAGTTCAGTTTCTGAAGATTTTCTATCCAGTGTAGATGAGGAAAA
  TAAGGCGGATGAAGCAAAACCAAAGTCCAAACTCCCTGTCAAAGTACCCCTCCAAAGAGTTGAACAGCAG
  CTCTCAGATCTAGACACCTCTGTCCAGAAGACAGTGGCTCCTCAGGGACAGGACATGGCAAGCATCGCAC
  CAGATAATAGAAGCAAATCTGAATCTGATGCTAGTTCTTTGGATTCAAAGACCAAATGCCCAGTAAAAAC
  CCGAAGTTACACTGAGACAGAAACAGAGAGCAGAGAGAGGGCCGAGGAACTTGAGTTAGAATCAGAAGAA
  GGGGCCACAAGACCAAAGATACTTACATCCCGATTGCCAGTTAAGAGCAGAAGCACTACATCTTCCTGCA
  GGGGGGGCACGAGCCCCACAAAAGAAAGTAAGGAGCATTTCTTTGACCTTTACAGAAATTCCATAGAATT
  CTTTGAGGAGATTAGTGATGAGGCTTCCAAATTAGTGGATAGGCTGACACAGTCAGAGAGGGAGCAGGAA
  ATAGTTTCAGACGATGAAAGTAGTAGTGCCCTGGAAGTATCAGTAATTGAAAATCTGCCACCTGTTGAGA
  CCGAGCACTCAGTTCCTGAGGACATCTTTGACACAAGGCCCATTTGGGATGAGTCTATTGAGACTCTGAT
  TGAACGCATCCCTGATGAAAATGGCCATGACCATGCTGAAGATCCACAGGATGAGCAGGAACGGATCGAG
  GAAAGGCTGGCTTATATTGCTGATCACCTTGGCTTCAGCTGGACAGAATTAGCAAGAGAACTGGATTTCA
  CTGAGGAGCAAATTCATCAAATTCGAATTGAAAATCCCAACTCTCTTCAAGACCAGAGTCATGCACTGTT
  GAAGTACTGGCTAGAGAGGGATGGGAAACATGCTACAGATACCAACCTCGTTGAATGTCTCACCAAGATC
  AACCGAATGGATATTGTTCATCTCATGGAGACCAACACAGAACCTCTCCAGGAGCGCATCAGTCATAGTT
  ATGCAGAAATTGAACAGACCATTACACTGGATCATAGTGAAGGGTTCTCGGTACTTCAAGAGGAGTTATG
  CACTGCACAGCACAAGCAGAAAGAGGAGCAAGCTGTTTCTAAAGAAAGTGAGACCTGCGATCACCCTCCT
  ATCGTCTCAGAGGAAGACATTTCTGTTGGTTATTCCACTTTTCAGGATGGCGTCCCCAAAACTGAGGGGG
  ACAGCTCAGCAACAGCACTCTTTCCCCAAACTCACAAGGAGCAAGTTCAACAGGATTTCTCAGGGAAAAT
  GCAAGACCTGCCTGAAGAGTCATCTCTGGAATATCAGCAGGAATATTTTGTGACAACTCCAGGAACAGAA
  ACATCAGAGACTCAGAAGGCTATGATAGTACCCAGCTCTCCCAGCAAGACACCTGAGGAAGTTAGCACCC
  CTGCAGAGGAGGAGAAGCTGTACCTCCAGACCCCAACATCCAGCGAGCGGGGAGGCTCTCCCATCATACA
  AGAACCCGAAGAGCCCTCAGAGCACAGAGAGGAGAGCTCTCCGCGGAAAACCAGCCTCGTAATAGTGGAG
  TCTGCCGATAACCAGCCTGAGACCTGTGAAAGACTCGATGAAGATGCAGCTTTTGAAAAGGGAGACGATA
  TGCCTGAAATACCCCCAGAAACAGTCACAGAAGAAGAATACATTGATGAGCATGGACACACCGTGGTAAA
  GAAGGTTACTAGGAAAATCATTAGGCGGTATGTATCCTCTGAAGGCACAGAGAAAGAAGAGATTATGGTG
  CAGGGAATGCCACAGGAACCTGTCAACATCGAGGAAGGGGATGGCTATTCCAAAGTTATAAAGCGTGTTG
  TATTGAAGAGTGACACCGAGCAGTCAGAGGACAACAATGAG
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
  Protein Sequence

  >RC224256 representing NM_001148
  Red=Cloning site Green=Tags(s)
  
  MMNEDAAQKSDSGEKFNGSSQRRKRPKKSDSNASFLRAARAGNLDKVVEYLKGGIDINTCNQNGLNALHL
  AAKEGHVGLVQELLGRGSSVDSATKKGNTALHIASLAGQAEVVKVLVKEGANINAQSQNGFTPLYMAAQE
  NHIDVVKYLLENGANQSTATEDGFTPLAVALQQGHNQAVAILLENDTKGKVRLPALHIAARKDDTKSAAL
  LLQNDHNADVQSKMMVNRTTESGFTPLHIAAHYGNVNVATLLLNRGAAVDFTARNGITPLHVASKRGNTN
  MVKLLLDRGGQIDAKTRDGLTPLHCAARSGHDQVVELLLERGAPLLARTKNGLSPLHMAAQGDHVECVKH
  LLQHKAPVDDVTLDYLTALHVAAHCGHYRVTKLLLDKRANPNARALNGFTPLHIACKKNRIKVMELLVKY
  GASIQAITESGLTPIHVAAFMGHLNIVLLLLQNGASPDVTNIRGETALHMAARAGQVEVVRCLLRNGALV
  DARAREEQTPLHIASRLGKTEIVQLLLQHMAHPDAATTNGYTPLHISAREGQVDVASVLLEAGAAHSLAT
  KKGFTPLHVAAKYGSLDVAKLLLQRRAAADSAGKNGLTPLHVAAHYDNQKVALLLLEKGASPHATAKNGY
  TPLHIAAKKNQMQIASTLLNYGAETNIVTKQGVTPLHLASQEGHTDMVTLLLDKGANIHMSTKSGLTSLH
  LAAQEDKVNVADILTKHGADQDAHTKLGYTPLIVACHYGNVKMVNFLLKQGANVNAKTKNGYTPLHQAAQ
  QGHTHIINVLLQHGAKPNATTANGNTALAIAKRLGYISVVDTLKVVTEEVTTTTTTITEKHKLNVPETMT
  EVLDVSDEEGDDTMTGDGGEYLRPEDLKELGDDSLPSSQFLDGMNYLRYSLEGGRSDSLRSFSSDRSHTL
  SHASYLRDSAVMDDSVVIPSHQVSTLAKEAERNSYRLSWGTENLDNVALSSSPIHSGFLVSFMVDARGGA
  MRGCRHNGLRIIIPPRKCTAPTRVTCRLVKRHRLATMPPMVEGEGLASRLIEVGPSGAQFLGKLHLPTAP
  PPLNEGESLVSRILQLGPPGTKFLGPVIVEIPHFAALRGKERELVVLRSENGDSWKEHFCDYTEDELNEI
  LNGMDEVLDSPEDLEKKRICRIITRDFPQYFAVVSRIKQDSNLIGPEGGVLSSTVVPQVQAVFPEGALTK
  RIRVGLQAQPMHSELVKKILGNKATFSPIVTLEPRRRKFHKPITMTIPVPKASSDVMLNGFGGDAPTLRL
  LCSITGGTTPAQWEDITGTTPLTFVNECVSFTTNVSARFWLIDCRQIQESVTFASQVYREIICVPYMAKF
  VVFAKSHDPIEARLRCFCMTDDKVDKTLEQQENFAEVARSRDVEVLEGKPIYVDCFGNLVPLTKSGQHHI
  FSFFAFKENRLPLFVKVRDTTQEPCGRLSFMKEPKSTRGLVHQAICNLNITLPIYTKESESDQEQEEEID
  MTSEKNDETESTETSVLKSHLVNEVPVLASPDLLSEVSEMKQDLIKMTAILTTDVSDKAGSIKVKELVKA
  AEEEPGEPFEIVERVKEDLEKVNEILRSGTCTRDESSVQSSRSERGLVEEEWVIVSDEEIEEARQKAPLE
  ITEYPCVEVRIDKEIKGKVEKDSTGLVNYLTDDLNTCVPLPKEQLQTVQDKAGKKCEALAVGRSSEKEGK
  DIPPDETQSTQKQHKPSLGIKKPVRRKLKEKQKQKEEGLQASAEKAELKKGSSEESLGEDPGLAPEPLPT
  VKATSPLIEETPIGSIKDKVKALQKRVEDEQKGRSKLPIRVKGKEDVPKKTTHRPHPAASPSLKSERHAP
  GSPSPKTERHSTLSSSAKTERHPPVSPSSKTEKHSPVSPSAKTERHSPASSSSKTEKHSPVSPSTKTERH
  SPVSSTKTERHPPVSPSGKTDKRPPVSPSGRTEKHPPVSPGRTEKRLPVSPSGRTDKHQPVSTAGKTEKH
  LPVSPSGKTEKQPPVSPTSKTERIEETMSVRELMKAFQSGQDPSKHKTGLFEHKSAKQKQPQEKGKVRVE
  KEKGPILTQREAQKTENQTIKRGQRLPVTGTAESKRGVRVSSIGVKKEDAAGGKEKVLSHKIPEPVQSVP
  EEESHRESEVPKEKMADEQGDMDLQISPDRKTSTDFSEVIKQELEDNDKYQQFRLSEETEKAQLHLDQVL
  TSPFNTTFPLDYMKDEFLPALSLQSGALDGSSESLKNEGVAGSPCGSLMEGTPQISSEESYKHEGLAETP
  ETSPESLSFSPKKSEEQTGETKESTKTETTTEIRSEKEHPTTKDITGGSEERGATVTEDSETSTESFQKE
  ATLGSPKDTSPKRQDDCTGSCSVALAKETPTGLTEEAACDEGQRTFGSSAHKTQTDSEVQESTATSDETK
  ALPLPEASVKTDTGTESKPQGVIRSPQGLELALPSRDSEVLSAVADDSLAVSHKDSLEASPVLEDNSSHK
  TPDSLEPSPLKESPCRDSLESSPVEPKMKAGIFPSHFPLPAAVAKTELLTEVASVRSRLLRDPDGSAEDD
  SLEQTSLMESSGKSPLSPDTPSSEEVSYEVTPKTTDVSTPKPAVIHECAEEDDSENGEKKRFTPEEEMFK
  MVTKIKMFDELEQEAKQKRDYKKEPKQEESSSSSDPDADCSVDVDEPKHTGSGEDESGVPVLVTSESRKV
  SSSSESEPELAQLKKGADSGLLPEPVIRVQPPSPLPSSMDSNSSPEEVQFQPVVSKQYTFKMNEDTQEEP
  GKSEEEKDSESHLAEDRHAVSTEAEDRSYDKLNRDTDQPKICDGHGCEAMSPSSSAAPVSSGLQSPTGDD
  VDEQPVIYKESLALQGTHEKDTEGEELDVSRAESPQADCPSESFSSSSSLPHCLVSEGKELDEDISATSS
  IQKTEVTKTDETFENLPKDCPSQDSSITTQTDRFSMDVPVSDLAENDEIYDPQITSPYENVPSQSFFSSE
  ESKTQTDANHTTSFHSSEVYSVTITSPVEDVVVASSSSGTVLSKESNFEGQDIKMESQQESTLWEMQSDS
  VSSSFEPTMSATTTVVGEQISKVIITKTDVDSDSWSEIREDDEAFEARVKEEEQKIFGLMVDRQSQGTTP
  DTTPARTPTEEGTPTSEQNPFLFQEGKLFEMTRSGAIDMTKRSYADESFHFFQIGQESREETLSEDVKEG
  ATGADPLPLETSAESLALSESKETVDDEADLLPDDVSEEVEEIPASDAQLNSQMGISASTETPTKEAVSV
  GTKDLPTVQTGDIPPLSGVKQISCPDSSEPAVQVQLDFSTLTRSVYSDRGDDSPDSSPEEQKSVIEIPTA
  PMENVPFTESKSKIPVRTMPTSTPAPPSAEYESSVSEDFLSSVDEENKADEAKPKSKLPVKVPLQRVEQQ
  LSDLDTSVQKTVAPQGQDMASIAPDNRSKSESDASSLDSKTKCPVKTRSYTETETESRERAEELELESEE
  GATRPKILTSRLPVKSRSTTSSCRGGTSPTKESKEHFFDLYRNSIEFFEEISDEASKLVDRLTQSEREQE
  IVSDDESSSALEVSVIENLPPVETEHSVPEDIFDTRPIWDESIETLIERIPDENGHDHAEDPQDEQERIE
  ERLAYIADHLGFSWTELARELDFTEEQIHQIRIENPNSLQDQSHALLKYWLERDGKHATDTNLVECLTKI
  NRMDIVHLMETNTEPLQERISHSYAEIEQTITLDHSEGFSVLQEELCTAQHKQKEEQAVSKESETCDHPP
  IVSEEDISVGYSTFQDGVPKTEGDSSATALFPQTHKEQVQQDFSGKMQDLPEESSLEYQQEYFVTTPGTE
  TSETQKAMIVPSSPSKTPEEVSTPAEEEKLYLQTPTSSERGGSPIIQEPEEPSEHREESSPRKTSLVIVE
  SADNQPETCERLDEDAAFEKGDDMPEIPPETVTEEEYIDEHGHTVVKKVTRKIIRRYVSSEGTEKEEIMV
  QGMPQEPVNIEEGDGYSKVIKRVVLKSDTEQSEDNNE
  
  TRTRPLEQKLISEEDLAANDILDYKDDDDKV
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001148
• ORF Size: 11871 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, transfection-ready dried plasmid DNA, and shipped with 2 vector sequencing primers.
• 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_001148.2, NM_001148.3, NM_001148.4, NP_001139.3
• RefSeq Size: 14243 bp
• RefSeq ORF: 11874 bp
• Locus ID: 287
• Cytogenetics: 4q25-q26
• Domains: DEATH, ZU5, ANK
• Protein Families: Druggable Genome
• MW: 433.7 kDa
• Gene Summary: 'This gene encodes a member of the ankyrin family of proteins that link the integral membrane proteins to the underlying spectrin-actin cytoskeleton. Ankyrins play key roles in activities such as cell motility, activation, proliferation, contact and the maintenance of specialized membrane domains. Most ankyrins are typically composed of three structural domains: an amino-terminal domain containing multiple ankyrin repeats; a central region with a highly conserved spectrin binding domain; and a carboxy-terminal regulatory domain which is the least conserved and subject to variation. The protein encoded by this gene is required for targeting and stability of Na/Ca exchanger 1 in cardiomyocytes. Mutations in this gene cause long QT syndrome 4 and cardiac arrhythmia syndrome. Multiple transcript variants encoding different isoforms have been described. [provided by RefSeq, Dec 2011]'