Ankyrin G (ANK3) (NM_020987) Human Tagged ORF Clone
CAT#: RG214279
- TrueORF®
ANK3 (tGFP-tagged) - Human ankyrin 3, node of Ranvier (ankyrin G) (ANK3), transcript variant 1
ORF Plasmid: DDK
"NM_020987" in other vectors (2)
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CNY 68,690.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Synonyms | ANKYRIN-G; MRT37 |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG214279 representing NM_020987
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCTCATGCAGCCTCACAATTAAAGAAAAACAGGGATTTAGAAATCAATGCTGAAGAAGAGCCTGAGA AAAAAAGGAAACACCGCAAACGGTCCCGGGATCGGAAGAAAAAGTCTGATGCCAATGCAAGTTACTTAAG AGCAGCTCGAGCTGGACACCTTGAAAAGGCCCTCGACTACATAAAAAATGGAGTTGACATCAACATTTGC AATCAGAATGGGTTGAACGCTCTCCACCTTGCTTCCAAAGAAGGCCATGTAGAGGTTGTTTCTGAGCTGC TGCAGAGAGAAGCCAATGTGGATGCAGCTACAAAGAAAGGAAACACAGCATTGCACATCGCATCTTTGGC TGGGCAAGCAGAGGTGGTAAAAGTCTTGGTTACAAATGGAGCCAATGTCAATGCACAATCTCAGAATGGT TTCACGCCATTGTATATGGCAGCCCAGGAAAATCACCTGGAAGTTGTCAAGTTTCTTCTTGACAATGGTG CAAGCCAGAGCCTAGCCACAGAGGATGGCTTCACACCATTGGCAGTGGCTTTGCAACAAGGTCACGACCA AGTCGTTTCGCTCCTGCTAGAGAATGACACCAAAGGAAAAGTGCGTCTCCCAGCTCTTCATATCGCGGCC CGAAAAGACGACACGAAAGCCGCCGCCCTGCTGCTGCAGAATGACAACAATGCAGATGTGGAATCAAAGA GTGGCTTCACTCCGCTCCACATAGCTGCTCACTATGGAAATATCAATGTAGCCACGTTGCTGTTAAACCG AGCGGCTGCTGTGGATTTCACCGCAAGGAATGACATCACTCCTTTACATGTTGCATCAAAAAGAGGAAAT GCAAATATGGTAAAACTATTGCTCGATCGAGGAGCTAAAATCGATGCCAAAACCAGGGATGGTCTGACAC CACTGCACTGTGGAGCAAGGAGTGGCCACGAGCAGGTGGTAGAAATGTTGCTTGATCGAGCTGCCCCCAT TCTTTCAAAAACCAAGAATGGATTATCTCCATTGCACATGGCCACACAAGGGGATCATTTAAACTGCGTC CAGCTTCTCCTCCAGCATAATGTACCCGTGGATGATGTCACCAATGACTACCTGACTGCCCTACACGTGG CTGCCCACTGTGGCCATTACAAAGTTGCCAAGGTTCTCTTGGATAAGAAAGCTAACCCCAATGCCAAAGC CCTGAATGGCTTTACCCCTCTTCATATTGCCTGCAAGAAGAATCGAATTAAAGTAATGGAACTCCTTCTG AAACACGGTGCATCCATCCAAGCTGTAACCGAGTCGGGCCTTACCCCAATCCATGTTGCTGCCTTCATGG GGCATGTAAATATTGTATCACAACTAATGCATCATGGAGCCTCACCAAACACCACCAATGTGAGAGGAGA AACAGCACTGCACATGGCAGCTCGCTCCGGCCAAGCTGAAGTTGTGCGGTATCTGGTACAAGACGGAGCT CAGGTAGAAGCTAAAGCTAAGGATGACCAAACACCACTCCACATTTCAGCCCGACTGGGGAAAGCAGACA TAGTACAACAGCTGTTGCAGCAAGGGGCATCTCCAAATGCAGCCACAACTTCTGGGTACACCCCACTTCA CCTTTCCGCCCGAGAGGGGCATGAGGATGTGGCCGCGTTCCTTTTGGATCATGGAGCGTCTTTATCTATA ACAACAAAGAAAGGATTTACTCCTCTTCATGTGGCAGCAAAATATGGAAAGCTTGAAGTCGCCAATCTCC TGCTACAGAAAAGTGCATCTCCAGATGCTGCTGGGAAGAGCGGGCTAACACCACTGCATGTAGCTGCACA TTACGATAATCAGAAAGTGGCCCTTCTGCTTTTGGACCAAGGAGCCTCACCTCACGCAGCCGCAAAGAAT GGTTATACGCCACTGCACATCGCTGCCAAAAAGAACCAGATGGACATAGCGACAACTCTGCTGGAATATG GTGCTGATGCCAACGCAGTTACCCGGCAAGGAATTGCTTCCGTCCATCTCGCAGCTCAGGAAGGGCACGT GGACATGGTGTCGCTGCTCCTCGGTAGAAATGCGAATGTGAACCTGAGCAATAAGAGCGGCCTGACCCCA CTCCATTTGGCTGCTCAAGAAGATCGAGTGAATGTGGCAGAAGTCCTCGTAAACCAAGGGGCTCATGTGG ACGCCCAGACAAAGATGGGATACACACCACTGCATGTGGGCTGCCACTATGGAAATATCAAGATTGTTAA TTTCCTGCTCCAGCATTCTGCAAAAGTTAATGCCAAAACAAAGAATGGGTATACGCCATTACATCAAGCA GCACAGCAGGGGCATACGCATATAATAAATGTCTTACTTCAGAACAACGCCTCCCCCAATGAACTCACTG TGAATGGGAATACTGCCCTTGGCATTGCCCGGCGCCTCGGCTACATCTCAGTAGTGGACACCCTGAAGAT AGTGACCGAAGAGACCATGACCACAACTACTGTCACAGAGAAGCACAAAATGAATGTTCCAGAAACGATG AATGAAGTTCTTGATATGTCTGATGATGAAGTTCGTAAAGCCAATGCCCCTGAAATGCTCAGTGATGGCG AATATATCTCAGATGTTGAAGAAGGTGAAGATGCAATGACCGGGGACACAGACAAATATCTTGGGCCACA GGACCTTAAGGAATTGGGTGATGATTCCCTGCCTGCAGAGGGTTACATGGGCTTTAGTCTCGGAGCGCGT TCTGCCAGCCTCCGCTCCTTCAGTTCGGATAGGTCTTACACCTTGAACAGAAGCTCCTATGCACGGGACA GCATGATGATTGAAGAACTCCTTGTGCCATCCAAAGAGCAGCATCTAACATTCACAAGGGAATTTGATTC AGATTCTCTTAGACATTACAGCTGGGCTGCAGACACCTTAGACAATGTCAATCTTGTTTCAAGCCCCATT CATTCTGGGTTTCTGGTTAGCTTTATGGTGGACGCGAGAGGGGGCTCCATGAGAGGAAGCCGTCATCACG GGATGAGAATCATCATTCCTCCACGCAAGTGTACGGCCCCCACTCGAATCACCTGCCGTTTGGTAAAGAG ACATAAACTGGCCAACCCACCCCCCATGGTGGAAGGAGAGGGATTAGCCAGTAGGCTGGTAGAAATGGGT CCTGCAGGGGCACAATTTTTAGGCCCTGTCATAGTGGAAATCCCTCACTTTGGGTCCATGAGAGGAAAAG AGAGAGAACTCATTGTTCTTCGAAGTGAAAATGGTGAAACTTGGAAGGAGCATCAGTTTGACAGCAAAAA TGAAGATTTAACCGAGTTACTTAATGGCATGGATGAAGAACTTGATAGCCCAGAAGAGTTAGGGAAAAAG CGTATCTGCAGGATTATCACGAAAGATTTCCCCCAGTATTTTGCAGTGGTTTCCCGGATTAAGCAGGAAA GCAACCAGATTGGTCCTGAAGGTGGAATTCTGAGCAGCACCACAGTGCCCCTTGTTCAAGCATCTTTCCC AGAGGGTGCCCTAACTAAAAGAATTCGAGTGGGCCTCCAGGCCCAGCCTGTTCCAGATGAAATTGTGAAA AAGATCCTTGGAAACAAAGCAACTTTTAGCCCAATTGTCACTGTGGAACCAAGAAGACGGAAATTCCATA AACCAATCACAATGACCATTCCGGTGCCCCCGCCCTCAGGAGAAGGTGTATCCAATGGATACAAAGGGGA CACTACACCCAATCTGCGTCTTCTCTGTAGCATTACAGGGGGCACTTCGCCTGCTCAGTGGGAAGACATC ACAGGAACAACTCCTTTGACGTTTATAAAAGATTGTGTCTCCTTTACAACCAATGTTTCAGCCAGATTTT GGCTTGCAGACTGCCATCAAGTTTTAGAAACTGTGGGGTTAGCCACGCAACTGTACAGAGAATTGATATG TGTTCCATATATGGCCAAGTTTGTTGTTTTTGCCAAAATGAATGATCCCGTAGAATCTTCCTTGCGATGT TTCTGCATGACAGATGACAAAGTGGACAAAACTTTAGAGCAACAAGAGAATTTTGAGGAAGTCGCAAGAA GCAAAGATATTGAGGTTCTGGAAGGAAAACCTATTTATGTTGATTGTTATGGAAATTTGGCCCCACTTAC CAAAGGAGGACAGCAACTTGTTTTTAACTTTTATTCTTTCAAAGAAAATAGACTGCCATTTTCCATCAAG ATTAGAGACACCAGCCAAGAGCCCTGTGGTCGTCTGTCTTTTCTGAAAGAACCAAAGACAACAAAAGGAC TGCCTCAAACAGCGGTTTGCAACTTAAATATCACTCTGCCAGCACATAAAAAGGAGACAGAGTCAGATCA AGATGATGAGATTGAGAAAACAGATAGACGACAGAGCTTCGCATCCTTAGCTTTACGTAAGCGCTACAGC TACTTGACTGAGCCTGGAATGATTGAACGGAGTACAGGAGCAACAAGATCCCTCCCCACCACTTACTCAT ACAAGCCATTCTTTTCTACAAGACCATACCAGTCCTGGACAACAGCTCCGATTACAGTGCCTGGGCCAGC CAAGTCAGGCTTCACTTCCTTATCAAGTTCTTCCTCTAATACGCCATCAGCTTCTCCGTTAAAATCAATA TGGTCTGTTTCGACACCTTCTCCAATCAAATCCACATTAGGCGCGTCAACTACATCTTCAGTTAAATCCA TTAGTGACGTGGCATCTCCAATTAGATCCTTTCGGACAATGTCTTCGCCGATAAAAACTGTGGTGTCACA ATCTCCATACAATATCCAAGTTTCCTCTGGTACCCTGGCTAGAGCTCCAGCAGTCACGGAAGCTACGCCC TTAAAAGGGCTGGCATCCAATTCTACGTTTTCCTCTCGAACCTCTCCAGTGACTACAGCAGGGTCTCTTT TGGAGAGGTCATCAATTACTATGACACCCCCTGCCTCCCCCAAATCAAACATTAATATGTATTCCTCAAG TTTGCCATTTAAGTCAATTATTACATCAGCAGCACCGCTAATATCTTCACCTTTAAAGTCAGTGGTGTCT CCAGTTAAATCAGCAGTTGATGTCATTTCATCAGCCAAAATTACAATGGCATCTTCTCTCTCATCACCTG TGAAGCAGATGCCTGGACATGCAGAGGTAGCATTAGTCAATGGATCTATTTCCCCTCTAAAATATCCATC ATCCTCAACTTTAATTAATGGATGCAAAGCCACTGCCACGTTACAGGAAAAAATTTCTTCTGCTACAAAC TCTGTGAGCTCTGTGGTCAGTGCAGCCACTGACACAGTTGAGAAAGTGTTTTCTACCACGACTGCAATGC CATTTTCCCCACTCAGGTCATATGTTTCTGCAGCACCATCAGCTTTTCAGTCTCTAAGAACTCCTTCCGC AAGTGCACTCTATACATCCCTTGGGTCGTCAATATCTGCAACTACCTCATCTGTAACTTCATCAATTATA ACAGTGCCAGTATACTCTGTAGTCAATGTTTTGCCAGAACCAGCATTAAAGAAACTTCCAGACTCTAATT CATTTACAAAATCAGCAGCAGCCTTGCTGTCACCCATTAAAACATTGACTACGGAGACACATCCTCAGCC TCACTTCAGTCGAACTTCATCTCCAGTTAAGTCATCTTTGTTCCTTGCACCCTCTGCCCTTAAGTTGTCT ACACCATCTTCTTTATCTTCCAGTCAGGAGATACTAAAAGATGTAGCTGAAATGAAAGAGGACCTAATGC GGATGACCGCAATACTACAGACAGATGTGCCTGAGGAGAAGCCATTCCAACCTGAACTCCCAAAGGAAGG GAGAATAGATGATGAAGAACCTTTCAAAATTGTAGAGAAAGTAAAGGAAGACTTAGTGAAAGTTAGTGAA ATCCTTAAAAAGGATGTATGTGTAGATAATAAAGGATCACCCAAATCACCAAAGAGTGACAAAGGACACT CTCCTGAAGATGACTGGATAGAATTTAGTTCGGAAGAAATCCGGGAAGCCAGACAACAAGCTGCTGCGAG CCAGTCTCCATCTCTGCCAGAGAGAGTGCAAGTAAAAGCAAAAGCCGCCTCCGAAAAGGATTATAACTTG ACCAAAGTTATTGATTACCTAACAAATGATATTGGGAGTAGTTCACTGACAAACTTAAAATACAAGTTTG AGGATGCAAAGAAGGATGGTGAGGAGAGACAGAAAAGAGTTTTAAAACCAGCAATTGCTTTGCAGGAACA CAAACTCAAAATGCCTCCAGCCTCCATGAGGACTTCCACCTCTGAGAAAGAATTGTGTAAAATGGCTGAT TCCTTTTTTGGAACAGATACTATTTTAGAGTCTCCTGATGACTTTTCTCAACACGACCAAGATAAAAGTC CCTTGTCTGACAGTGGCTTTGAAACAAGAAGTGAAAAGACACCTTCAGCCCCACAAAGCGCTGAAAGCAC TGGTCCTAAACCACTTTTTCATGAAGTTCCCATCCCTCCTGTCATTACAGAAACAAGAACTGAAGTGGTT CATGTTATCAGGAGCTATGATCCCTCAGCTGGGGATGTTCCCCAGACCCAACCAGAGGAGCCTGTGTCAC CTAAACCTTCACCTACTTTTATGGAATTGGAACCAAAGCCCACCACCTCTAGTATTAAAGAAAAGGTTAA AGCATTTCAAATGAAAGCCAGTAGTGAAGAAGATGACCACAATCGGGTTTTAAGCAAAGGCATGCGTGTT AAAGAAGAGACTCACATAACCACAACCACCAGAATGGTTTATCATTCTCCACCAGGCGGTGAAGGTGCAT CTGAAAGAATTGAAGAAACCATGTCAGTCCATGACATCATGAAGGCCTTTCAGTCCGGGCGGGATCCTTC CAAAGAACTGGCAGGTCTGTTTGAACATAAGTCGGCAGTGTCTCCAGATGTTCACAAGTCTGCTGCTGAA ACCTCAGCCCAGCATGCAGAGAAGGACAACCAAATGAAACCCAAACTGGAGCGTATAATAGAAGTCCACA TCGAAAAAGGTAACCAAGCTGAGCCCACTGAAGTCATTATTAGAGAAACCAAAAAGCATCCAGAAAAAGA AATGTATGTATATCAGAAAGACTTATCCCGGGGAGATATTAACCTAAAAGATTTTCTGCCAGAAAAACAC GATGCTTTTCCTTGTTCAGAGGAACAGGGTCAGCAAGAAGAAGAAGAACTTACTGCTGAAGAGTCATTGC CTTCTTATCTGGAGTCTTCCAGAGTAAACACTCCTGTGTCCCAAGAAGAAGATAGCCGCCCTAGTTCTGC TCAACTCATATCTGATGACTCTTATAAAACATTGAAGCTTTTGAGTCAACACTCAATAGAATACCATGAC GATGAGTTGTCAGAACTAAGAGGGGAGTCTTACAGGTTTGCTGAGAAAATGCTTCTGTCAGAAAAGCTAG ATGTGTCTCATTCTGATACTGAGGAATCGGTTACAGACCATGCAGGACCCCCTAGCTCAGAGTTACAGGG GTCTGATAAGCGGTCCAGAGAAAAAATAGCCACTGCCCCCAAAAAAGAAATTCTCTCCAAAATCTATAAA GATGTTTCTGAAAATGGTGTAGGTAAAGTGTCTAAAGATGAGCATTTTGATAAAGTGACAGTGTTGCACT ATTCTGGCAATGTTAGTAGTCCAAAACATGCCATGTGGATGCGCTTTACTGAGGACAGATTAGACAGAGG TAGAGAGAAGTTGATATATGAAGATAGGGTGGACAGGACTGTGAAGGAGGCTGAAGAAAAACTGACTGAA GTGTCACAGTTTTTTCGTGACAAAACTGAAAAGCTAAATGATGAACTGCAGTCCCCAGAGAAAAAGGCAC GCCCTAAAAATGGCAAAGAATATTCTTCTCAAAGCCCTACCAGTAGCAGCCCTGAGAAAGTGCTACTGAC AGAACTGCTGGCATCCAATGATGAGTGGGTTAAGGCAAGACAGCATGGCCCTGATGGACAAGGCTTCCCC AAGGCCGAGGAGAAGGCACCCAGTCTGCCCAGCAGCCCAGAGAAGATGGTTCTCTCCCAACAGACTGAGG ACAGCAAGTCCACAGTGGAAGCCAAAGGAAGTATTTCACAGAGCAAAGCACCAGATGGGCCCCAGTCTGG ATTCCAGCTCAAACAATCTAAACTCAGTTCCATTAGATTAAAATTTGAACAAGGCACACACGCAAAAAGT AAGGACATGTCTCAAGAAGACAGAAAGTCAGATGGCCAGTCCAGAATCCCAGTTAAAAAAATACAGGAGA GCAAGCTACCCGTCTACCAAGTTTTTGCTAGAGAAAAACAGCAGAAGGCCATAGACCTCCCAGATGAAAG TGTATCTGTGCAAAAAGATTTTATGGTATTAAAAACCAAAGATGAGCATGCCCAAAGCAACGAAATTGTT GTAAATGATTCTGGCTCTGATAATGTGAAAAAACAGAGAACTGAAATGTCAAGTAAAGCAATGCCTGACT CTTTTTCTGAGCAGCAGGCTAAAGACTTGGCATGTCATATAACCTCAGATTTAGCAACTAGGGGACCATG GGACAAAAAGGTCTTTAGAACATGGGAGAGTTCGGGAGCCACTAACAATAAGTCTCAGAAAGAAAAACTT TCGCATGTACTTGTTCATGATGTAAGAGAGAATCACATTGGTCACCCTGAGAGTAAAAGTGTTGATCAAA AGAATGAATTTATGTCTGTGACTGAGAGAGAACGCAAATTGTTAACAAACGGCTCTCTCTCAGAAATTAA AGAAATGACTGTAAAATCTCCCTCCAAAAAAGTCTTATATAGGGAATATGTTGTGAAAGAAGGGGACCAT CCAGGCGGATTGCTTGATCAGCCTTCCAGGAGGAGCGAGAGCTCAGCAGTGTCACACATTCCCGTCAGAG TTGCTGATGAGAGGAGAATGCTGTCTTCTAATATTCCCGATGGTTTTTGTGAACAGTCGGCATTTCCAAA ACATGAACTATCACAAAAATTGTCCCAGTCAAGCATGAGTAAAGAGACAGTTGAGACACAGCACTTTAAT TCTATAGAAGATGAAAAAGTTACCTATTCAGAAATCAGCAAAGTTTCCAAACACCAGAGTTATGTAGGTT TATGCCCACCTCTCGAGGAAACCGAAACCTCCCCCACCAAATCTCCTGATTCTTTAGAGTTTAGCCCAGG AAAGGAATCTCCCTCTAGTGATGTATTCGACCACAGTCCCATTGATGGATTGGAAAAACTCGCACCACTA GCCCAGACAGAGGGAGGGAAAGAGATAAAAACTTTACCCGTTTATGTCAGTTTTGTACAAGTGGGGAAGC AATATGAAAAGGAGATACAACAAGGAGGTGTAAAAAAAATCATAAGTCAGGAATGTAAGACAGTACAAGA AACCAGGGGGACCTTTTATACAACTAGACAGCAAAAGCAACCTCCTTCTCCCCAAGGTAGTCCAGAAGAT GATACTCTAGAGCAAGTATCCTTTCTAGACAGCTCTGGGAAAAGCCCTTTAACCCCAGAAACACCCAGTT CAGAGGAAGTGAGTTATGAATTTACATCTAAGACACCTGACTCGCTCATAGCTTATATACCAGGCAAACC CAGCCCAATTCCCGAGGTTTCTGAGGAGTCAGAGGAGGAGGAACAGGCCAAGTCAACCTCCCTTAAGCAG ACTACAGTGGAGGAAACAGCAGTTGAGCGTGAAATGCCTAATGACGTGAGCAAAGACTCTAACCAAAGAC CCAAAAATAACAGAGTTGCCTATATTGAATTTCCCCCTCCTCCACCACTGGATGCGGACCAGATTGAGTC AGATAAGAAGCATCATTATCTCCCAGAAAAAGAGGTTGACATGATTGAAGTCAATCTGCAAGATGAGCAT GACAAGTACCAGCTGGCTGAACCTGTCATTAGAGTGCAGCCACCTTCACCAGTTCCTCCCGGGGCAGACG TCAGTGATTCAAGCGATGACGAATCTATTTATCAGCCAGTCCCAGTTAAAAAATATACCTTCAAATTAAA GGAAGTGGACGATGAACAAAAAGAAAAACCCAAAGCTTCTGCTGAAAAGGCTTCCAACCAGAAAGAACTG GAAAGTAATGGATCTGGAAAAGATAATGAATTTGGCCTTGGCCTTGATTCACCTCAGAATGAAATTGCCC AGAATGGGAACAACGACCAGTCCATCACAGAGTGTTCCATTGCCACCACAGCAGAGTTTTCTCATGACAC GGATGCCACAGAGATCGACTCTCTGGATGGCTATGACCTGCAAGATGAAGATGATGGCTTGACAGAGAGT GATTCTAAACTCCCAATTCAAGCCATGGAAATTAAGAAAGATATCTGGAACACAGAGGGCATTCTGAAGC CAGCTGACCGCTCTTTTAGCCAAAGTAAACTTGAAGTTATCGAGGAGGAGGGAAAGGTGGGACCAGATGA GGACAAGCCACCTTCTAAAAGTTCTTCATCTGAAAAGACTCCTGATAAGACTGATCAGAAGTCAGGGGCC CAGTTCTTCACACTGGAAGGCAGACATCCTGACAGATCAGTGTTTCCTGATACTTACTTCAGTTACAAAG TAGATGAAGAATTTGCCACTCCTTTTAAAACAGTAGCTACCAAAGGTCTAGATTTTGACCCTTGGTCTAA TAACCGAGGGGATGATGAAGTTTTTGACAGTAAATCACGGGAAGATGAAACTAAGCCATTTGGGCTGGCG GTAGAAGACCGCTCTCCAGCAACAACCCCTGATACAACGCCAGCCAGAACGCCAACTGATGAAAGTACCC CAACTAGTGAGCCTAACCCCTTCCCATTTCATGAAGGAAAAATGTTTGAGATGACTCGCAGTGGTGCAAT TGACATGAGCAAGAGGGATTTTGTTGAAGAGAGGCTCCAATTTTTCCAGATTGGTGAGCATACTTCTGAA GGGAAGTCAGGGGACCAGGGGGAAGGGGATAAAAGTATGGTCACTGCCACACCACAGCCACAGTCAGGGG ACACCACTGTAGAAACCAATCTAGAGAGAAATGTAGAGACACCTACAGTGGAACCTAACCCCAGCATCCC GACCAGCGGAGAGTGTCAGGAAGGCACATCCAGTAGTGGCTCCCTGGAGAAATCAGCAGCAGCCACTAAC ACCTCTAAAGTTGACCCCAAGTTGCGCACGCCTATAAAAATGGGAATTTCTGCATCCACCATGACCATGA AGAAAGAAGGCCCTGGAGAAATAACAGATAAGATAGAAGCGGTGATGACCAGTTGTCAGGGATTAGAAAA TGAAACTATAACAATGATTTCAAATACAGCCAATAGCCAGATGGGCGTTAGGCCCCATGAAAAACATGAT TTTCAAAAAGATAACTTTAATAACAACAACAATTTGGATTCTTCCACTATACAGACAGATAACATTATGA GTAATATAGTTCTGACAGAACATTCTGCACCCACTTGTACCACAGAGAAAGATAACCCAGTGAAAGTCTC ATCAGGAAAAAAGACAGGGGTACTACAAGGACACTGTGTAAGAGATAAGCAGAAAGTTCTTGGAGAACAG CAAAAAACAAAGGAATTGATAGGGATTAGGCAAAAATCCAAACTTCCCATAAAGGCCACTTCACCAAAAG ATACCTTCCCACCGAACCATATGTCAAACACTAAAGCAAGTAAAATGAAGCAGGTTAGTCAATCCGAGAA AACCAAAGCCCTTACTACTTCTTCATGTGTAGATGTAAAGTCCAGAATTCCAGTGAAAAACACACACAGG GATAACATAATTGCAGTTAGAAAAGCATGTGCCACACAAAAGCAAGGGCAGCCAGAGAAAGGCAAGGCCA AACAGCTTCCATCCAAGTTGCCAGTAAAGGTAAGATCCACCTGTGTCACTACCACCACCACCACTGCCAC CACCACCACCACTACCACCACTACCACCACCACCAGCTGCACAGTTAAAGTTAGGAAAAGTCAGCTCAAG GAAGTATGTAAACATTCCATTGAATATTTTAAGGGAATTAGTGGTGAGACCTTAAAGCTTGTGGACCGCC TCTCTGAAGAAGAAAAAAAGATGCAGTCCGAGTTGTCCGATGAGGAAGAAAGTACCTCAAGAAACACGTC GTTGTCCGAGACTTCCCGGGGTGGCCAGCCTTCGGTTACAACGAAGTCTGCTAGAGATAAGAAAACAGAG GCAGCACCTTTAAAATCAAAGAGTGAAAAGGCCGGCAGTGAGAAAAGGAGCAGTAGAAGGACTGGTCCAC AGAGTCCATGTGAACGGACAGATATCAGGATGGCAATAGTAGCCGATCACCTGGGACTTAGTTGGACAGA ACTGGCAAGGGAACTGAATTTTTCAGTGGATGAAATCAATCAAATACGTGTGGAAAATCCAAATTCTTTA ATTTCTCAGAGCTTCATGTTATTAAAAAAATGGGTTACCAGAGACGGAAAAAATGCCACAACTGATGCCT TAACTTCGGTCTTGACAAAAATTAATCGAATAGATATAGTGACACTGCTAGAAGGACCAATATTTGATTA TGGAAATATTTCAGGCACCAGAAGTTTTGCAGATGAGAACAATGTTTTCCATGACCCTGTTGATGGTTGG CAGAATGAGACATCAAGTGGAAACCTAGAGTCCTGCGCTCAAGCTCGAAGAGTAACTGGTGGGTTACTAG ATCGACTGGATGACAGCCCTGACCAGTGTAGAGATTCCATTACCTCATATCTCAAAGGAGAAGCTGGCAA ATTTGAAGCAAATGGAAGCCATACAGAAATCACTCCAGAAGCAAAGACAAAATCTTACTTTCCAGAATCC CAAAATGATGTAGGAAAACAGAGTACCAAGGAAACTCTGAAACCAAAAATACATGGATCTGGTCATGTTG AAGAACCAGCATCACCACTAGCAGCATATCAGAAATCTCTAGAAGAAACCAGCAAGCTTATAATAGAAGA GACTAAACCCTGTGTGCCTGTCAGTATGAAAAAGATGAGTAGGACTTCTCCAGCAGATGGCAAGCCAAGG CTTAGCCTCCATGAAGAAGAGGGGTCCAGTGGGTCTGAGCAAAAGCAGGGAGAAGGTTTTAAGGTGAAAA CGAAGAAAGAAATCCGGCATGTGGAAAAGAAGAGCCACTCG ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA >RG214279 representing NM_020987
Red=Cloning site Green=Tags(s) MAHAASQLKKNRDLEINAEEEPEKKRKHRKRSRDRKKKSDANASYLRAARAGHLEKALDYIKNGVDINIC NQNGLNALHLASKEGHVEVVSELLQREANVDAATKKGNTALHIASLAGQAEVVKVLVTNGANVNAQSQNG FTPLYMAAQENHLEVVKFLLDNGASQSLATEDGFTPLAVALQQGHDQVVSLLLENDTKGKVRLPALHIAA RKDDTKAAALLLQNDNNADVESKSGFTPLHIAAHYGNINVATLLLNRAAAVDFTARNDITPLHVASKRGN ANMVKLLLDRGAKIDAKTRDGLTPLHCGARSGHEQVVEMLLDRAAPILSKTKNGLSPLHMATQGDHLNCV QLLLQHNVPVDDVTNDYLTALHVAAHCGHYKVAKVLLDKKANPNAKALNGFTPLHIACKKNRIKVMELLL KHGASIQAVTESGLTPIHVAAFMGHVNIVSQLMHHGASPNTTNVRGETALHMAARSGQAEVVRYLVQDGA QVEAKAKDDQTPLHISARLGKADIVQQLLQQGASPNAATTSGYTPLHLSAREGHEDVAAFLLDHGASLSI TTKKGFTPLHVAAKYGKLEVANLLLQKSASPDAAGKSGLTPLHVAAHYDNQKVALLLLDQGASPHAAAKN GYTPLHIAAKKNQMDIATTLLEYGADANAVTRQGIASVHLAAQEGHVDMVSLLLGRNANVNLSNKSGLTP LHLAAQEDRVNVAEVLVNQGAHVDAQTKMGYTPLHVGCHYGNIKIVNFLLQHSAKVNAKTKNGYTPLHQA AQQGHTHIINVLLQNNASPNELTVNGNTALGIARRLGYISVVDTLKIVTEETMTTTTVTEKHKMNVPETM NEVLDMSDDEVRKANAPEMLSDGEYISDVEEGEDAMTGDTDKYLGPQDLKELGDDSLPAEGYMGFSLGAR SASLRSFSSDRSYTLNRSSYARDSMMIEELLVPSKEQHLTFTREFDSDSLRHYSWAADTLDNVNLVSSPI HSGFLVSFMVDARGGSMRGSRHHGMRIIIPPRKCTAPTRITCRLVKRHKLANPPPMVEGEGLASRLVEMG PAGAQFLGPVIVEIPHFGSMRGKERELIVLRSENGETWKEHQFDSKNEDLTELLNGMDEELDSPEELGKK RICRIITKDFPQYFAVVSRIKQESNQIGPEGGILSSTTVPLVQASFPEGALTKRIRVGLQAQPVPDEIVK KILGNKATFSPIVTVEPRRRKFHKPITMTIPVPPPSGEGVSNGYKGDTTPNLRLLCSITGGTSPAQWEDI TGTTPLTFIKDCVSFTTNVSARFWLADCHQVLETVGLATQLYRELICVPYMAKFVVFAKMNDPVESSLRC FCMTDDKVDKTLEQQENFEEVARSKDIEVLEGKPIYVDCYGNLAPLTKGGQQLVFNFYSFKENRLPFSIK IRDTSQEPCGRLSFLKEPKTTKGLPQTAVCNLNITLPAHKKETESDQDDEIEKTDRRQSFASLALRKRYS YLTEPGMIERSTGATRSLPTTYSYKPFFSTRPYQSWTTAPITVPGPAKSGFTSLSSSSSNTPSASPLKSI WSVSTPSPIKSTLGASTTSSVKSISDVASPIRSFRTMSSPIKTVVSQSPYNIQVSSGTLARAPAVTEATP LKGLASNSTFSSRTSPVTTAGSLLERSSITMTPPASPKSNINMYSSSLPFKSIITSAAPLISSPLKSVVS PVKSAVDVISSAKITMASSLSSPVKQMPGHAEVALVNGSISPLKYPSSSTLINGCKATATLQEKISSATN SVSSVVSAATDTVEKVFSTTTAMPFSPLRSYVSAAPSAFQSLRTPSASALYTSLGSSISATTSSVTSSII TVPVYSVVNVLPEPALKKLPDSNSFTKSAAALLSPIKTLTTETHPQPHFSRTSSPVKSSLFLAPSALKLS TPSSLSSSQEILKDVAEMKEDLMRMTAILQTDVPEEKPFQPELPKEGRIDDEEPFKIVEKVKEDLVKVSE ILKKDVCVDNKGSPKSPKSDKGHSPEDDWIEFSSEEIREARQQAAASQSPSLPERVQVKAKAASEKDYNL TKVIDYLTNDIGSSSLTNLKYKFEDAKKDGEERQKRVLKPAIALQEHKLKMPPASMRTSTSEKELCKMAD SFFGTDTILESPDDFSQHDQDKSPLSDSGFETRSEKTPSAPQSAESTGPKPLFHEVPIPPVITETRTEVV HVIRSYDPSAGDVPQTQPEEPVSPKPSPTFMELEPKPTTSSIKEKVKAFQMKASSEEDDHNRVLSKGMRV KEETHITTTTRMVYHSPPGGEGASERIEETMSVHDIMKAFQSGRDPSKELAGLFEHKSAVSPDVHKSAAE TSAQHAEKDNQMKPKLERIIEVHIEKGNQAEPTEVIIRETKKHPEKEMYVYQKDLSRGDINLKDFLPEKH DAFPCSEEQGQQEEEELTAEESLPSYLESSRVNTPVSQEEDSRPSSAQLISDDSYKTLKLLSQHSIEYHD DELSELRGESYRFAEKMLLSEKLDVSHSDTEESVTDHAGPPSSELQGSDKRSREKIATAPKKEILSKIYK DVSENGVGKVSKDEHFDKVTVLHYSGNVSSPKHAMWMRFTEDRLDRGREKLIYEDRVDRTVKEAEEKLTE VSQFFRDKTEKLNDELQSPEKKARPKNGKEYSSQSPTSSSPEKVLLTELLASNDEWVKARQHGPDGQGFP KAEEKAPSLPSSPEKMVLSQQTEDSKSTVEAKGSISQSKAPDGPQSGFQLKQSKLSSIRLKFEQGTHAKS KDMSQEDRKSDGQSRIPVKKIQESKLPVYQVFAREKQQKAIDLPDESVSVQKDFMVLKTKDEHAQSNEIV VNDSGSDNVKKQRTEMSSKAMPDSFSEQQAKDLACHITSDLATRGPWDKKVFRTWESSGATNNKSQKEKL SHVLVHDVRENHIGHPESKSVDQKNEFMSVTERERKLLTNGSLSEIKEMTVKSPSKKVLYREYVVKEGDH PGGLLDQPSRRSESSAVSHIPVRVADERRMLSSNIPDGFCEQSAFPKHELSQKLSQSSMSKETVETQHFN SIEDEKVTYSEISKVSKHQSYVGLCPPLEETETSPTKSPDSLEFSPGKESPSSDVFDHSPIDGLEKLAPL AQTEGGKEIKTLPVYVSFVQVGKQYEKEIQQGGVKKIISQECKTVQETRGTFYTTRQQKQPPSPQGSPED DTLEQVSFLDSSGKSPLTPETPSSEEVSYEFTSKTPDSLIAYIPGKPSPIPEVSEESEEEEQAKSTSLKQ TTVEETAVEREMPNDVSKDSNQRPKNNRVAYIEFPPPPPLDADQIESDKKHHYLPEKEVDMIEVNLQDEH DKYQLAEPVIRVQPPSPVPPGADVSDSSDDESIYQPVPVKKYTFKLKEVDDEQKEKPKASAEKASNQKEL ESNGSGKDNEFGLGLDSPQNEIAQNGNNDQSITECSIATTAEFSHDTDATEIDSLDGYDLQDEDDGLTES DSKLPIQAMEIKKDIWNTEGILKPADRSFSQSKLEVIEEEGKVGPDEDKPPSKSSSSEKTPDKTDQKSGA QFFTLEGRHPDRSVFPDTYFSYKVDEEFATPFKTVATKGLDFDPWSNNRGDDEVFDSKSREDETKPFGLA VEDRSPATTPDTTPARTPTDESTPTSEPNPFPFHEGKMFEMTRSGAIDMSKRDFVEERLQFFQIGEHTSE GKSGDQGEGDKSMVTATPQPQSGDTTVETNLERNVETPTVEPNPSIPTSGECQEGTSSSGSLEKSAAATN TSKVDPKLRTPIKMGISASTMTMKKEGPGEITDKIEAVMTSCQGLENETITMISNTANSQMGVRPHEKHD FQKDNFNNNNNLDSSTIQTDNIMSNIVLTEHSAPTCTTEKDNPVKVSSGKKTGVLQGHCVRDKQKVLGEQ QKTKELIGIRQKSKLPIKATSPKDTFPPNHMSNTKASKMKQVSQSEKTKALTTSSCVDVKSRIPVKNTHR DNIIAVRKACATQKQGQPEKGKAKQLPSKLPVKVRSTCVTTTTTTATTTTTTTTTTTTSCTVKVRKSQLK EVCKHSIEYFKGISGETLKLVDRLSEEEKKMQSELSDEEESTSRNTSLSETSRGGQPSVTTKSARDKKTE AAPLKSKSEKAGSEKRSSRRTGPQSPCERTDIRMAIVADHLGLSWTELARELNFSVDEINQIRVENPNSL ISQSFMLLKKWVTRDGKNATTDALTSVLTKINRIDIVTLLEGPIFDYGNISGTRSFADENNVFHDPVDGW QNETSSGNLESCAQARRVTGGLLDRLDDSPDQCRDSITSYLKGEAGKFEANGSHTEITPEAKTKSYFPES QNDVGKQSTKETLKPKIHGSGHVEEPASPLAAYQKSLEETSKLIIEETKPCVPVSMKKMSRTSPADGKPR LSLHEEEGSSGSEQKQGEGFKVKTKKEIRHVEKKSHS TRTRPLE - GFP Tag - V |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_020987 |
ORF Size | 13131 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_020987.5 |
RefSeq Size | 14771 bp |
RefSeq ORF | 13134 bp |
Locus ID | 288 |
UniProt ID | Q12955 |
Domains | DEATH, ZU5, ANK |
Protein Families | Druggable Genome |
Gene Summary | Ankyrins are a family of proteins that are believed to link the integral membrane proteins to the underlying spectrin-actin cytoskeleton and play key roles in activities such as cell motility, activation, proliferation, contact, and the maintenance of specialized membrane domains. Multiple isoforms of ankyrin with different affinities for various target proteins are expressed in a tissue-specific, developmentally regulated manner. 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. Ankyrin 3 is an immunologically distinct gene product from ankyrins 1 and 2, and was originally found at the axonal initial segment and nodes of Ranvier of neurons in the central and peripheral nervous systems. Multiple transcript variants encoding different isoforms have been found for this gene.[provided by RefSeq, Feb 2011] |
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