Ankyrin brain (ANK2) (NM_001148) Human Tagged ORF Clone
CAT#: RG224256
- TrueORF®
ANK2 (tGFP-tagged) - Human ankyrin 2, neuronal (ANK2), transcript variant 1
ORF Plasmid: DDK
"NM_001148" in other vectors (2)
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CNY 29,288.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Synonyms | ANK-2; brank-2; CFAP87; FAP87; LQT4 |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG224256 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 ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA >RG224256 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 TRTRPLE - GFP Tag - V |
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 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_001148.6 |
RefSeq Size | 14243 bp |
RefSeq ORF | 11874 bp |
Locus ID | 287 |
UniProt ID | Q01484 |
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] |
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