DNAH3 (NM_017539) Human Tagged ORF Clone
CAT#: RC213544
- TrueORF®
DNAH3 (Myc-DDK-tagged)-Human dynein, axonemal, heavy chain 3 (DNAH3)
ORF Plasmid: tGFP
"NM_017539" in other vectors (2)
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CNY 58,620.00
CNY 300.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | DNAHC3-B; DNAHC3B; HDHC8; HEL-36; HSADHC3 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RC213544 representing NM_017539
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGGAGCTACAGGGCGCCTCGAGCTCACACTGGCCGCCCCTCCCCATCCGGGCCCAGCCTTTCAGCGTT CAAAAGCCAGGGAGACCCAAGGAGAGGAGGAAGGGAGTGAAATGCAGATCGCCAAAAGTGACTCCATACA TCACATGAGCCACTCCCAGGGGCAGCCAGAGCTGCCTCCTCTGCCTGCTTCTGCTAATGAGGAACCGTCT GGACTCTATCAGACTGTCATGTCACACAGCTTTTACCCGCCCTTGATGCAACGCACGTCATGGACCTTGG CTGCACCCTTCAAAGAACAGCATCACCACCGTGGACCCAGTGATTCCATCGCCAACAACTACTCCTTGAT GGCCCAGGACCTGAAGCTGAAAGATCTGCTGAAGGTCTACCAACCGGCCACCATCAGTGTCCCTAGGGAC AGGACCGGTCAGGGGCTGCCATCATCAGGAAATAGAAGCTCATCAGAGCCCATGAGGAAAAAAACGAAGT TTTCCTCCAGAAACAAAGAGGATTCCACTAGGATCAAGTTGGCCTTCAAGACGTCAATCTTCTCACCCAT GAAGAAGGAGGTAAAGACATCTTTGACGTTCCCAGGAAGCAGACCAATGAGTCCAGAACAGCAGCTCGAT GTCATGTTACAGCAGGAGATGGAAATGGAAAGTAAAGAAAAGAAGCCATCTGAATCGGACCTGGAGAGAT ACTATTACTATCTGACCAATGGAATTCGCAAAGACATGATTGCCCCTGAGGAGGGTGAAGTGATGGTTCG GATTTCAAAGCTGATTTCTAACACGCTGCTGACGAGTCCCTTCCTGGAGCCCCTGATGGTGGTCCTCGTG CAGGAGAAGGAGAATGACTATTACTGTAGCCTCATGAAAAGCATCGTTGATTACATCCTCATGGACCCAA TGGAGAGAAAACGGCTCTTTATTGAGAGCATCCCCCGCTTGTTTCCTCAAAGAGTGATCCGGGCCCCTGT GCCCTGGCACAGTGTCTACAGGAGCGCCAAGAAGTGGAACGAGGAGCATCTGCACACGGTGAACCCCATG ATGCTCAGGCTGAAAGAACTGTGGTTTGCAGAATTCAGAGACCTCAGGTTTGTTCGAACAGCAGAAATAC TAGCGGGAAAATTGCCTCTGCAGCCTCAGGAATTTTGGGATGTGATCCAGAAACACTGCCTGGAGGCACA CCAGACTCTTCTCAACAAGTGGATCCCCACCTGCGCCCAGCTTTTTACCTCACGGAAGGAGCACTGGATT CATTTTGCTCCCAAGAGCAACTATGACTCAAGTCGAAACATTGAGGAATATTTTGCTTCTGTGGCATCAT TCATGTCGCTGCAGCTTAGGGAGCTGGTCATTAAGTCACTTGAGGACCTCGTTTCCCTTTTCATGATACA CAAAGATGGGAATGATTTTAAGGAGCCCTACCAAGAGATGAAGTTTTTCATACCTCAGCTAATCATGATC AAACTTGAAGTCAGTGAACCCATTATTGTCTTCAATCCATCTTTTGATGGCTGCTGGGAATTAATACGTG ACTCTTTCCTGGAAATTATTAAGAACTCTAATGGGATCCCCAAGCTGAAATACATACCACTTAAGTTCTC CTTCACTGCTGCTGCTGCTGATCGGCAATGTGTGAAAGCAGCTGAGCCAGGAGAGCCCAGCATGCACGCG GCTGCCACTGCAATGGCAGAGCTGAAAGGATATAATCTGCTCCTTGGAACTGTTAACGCAGAAGAAAAAC TTGTTTCTGATTTTTTGATTCAAACTTTCAAGGTATTTCAGAAAAATCAAGTTGGCCCCTGCAAATATTT AAATGTCTACAAAAAGTATGTTGACTTATTGGATAACACGGCAGAGCAAAACATCGCTGCGTTCCTGAAA GAAAATCATGACATTGATGATTTTGTGACGAAGATCAATGCCATAAAGAAACGGAGAAATGAAATTGCAT CCATGAACATCACCGTGCCTTTAGCCATGTTCTGCCTTGATGCTACGGCCCTAAATCATGATCTCTGTGA GCGAGCTCAAAATCTTAAAGACCATCTGATTCAATTCCAAGTGGATGTAAACCGAGACACCAATACCAGC ATTTGTAATCAGTACAGCCACATCGCAGACAAAGTCAGTGAGGTTCCTGCCAACACTAAGGAGCTGGTAT CCCTCATTGAATTCCTAAAGAAATCCAGTGCTGTCACTGTGTTCAAACTCAGGAGGCAACTTAGAGATGC AAGTGAACGGCTGGAGTTCCTGATGGACTATGCAGACTTGCCGTACCAGATTGAAGATATCTTTGACAAC AGCCGGAACTTGCTCCTTCACAAGAGGGATCAGGCAGAAATGGATCTGATTAAAAGATGCTCAGAATTTG AGTTGAGACTTGAGGGCTACCACAGAGAACTGGAAAGTTTTAGGAAGCGCGAAGTGATGACTACAGAAGA AATGAAGCACAATGTTGAAAAGCTTAATGAGCTTTCAAAGAACCTAAATCGGGCGTTTGCAGAGTTTGAG TTGATCAATAAGGAGGAAGAGCTATTGGAAAAGGAGAAGAGTACTTACCCTCTTCTGCAGGCCATGCTGA AGAACAAAGTACCTTATGAGCAGCTGTGGTCGACAGCCTATGAGTTCAGCATCAAGTCAGAGGAATGGAT GAATGGACCCCTCTTCTTACTGAATGCTGAGCAAATTGCGGAGGAGATAGGGAATATGTGGAGGACAACG TATAAACTGATCAAGACCTTGTCTGATGTGCCTGCACCCAGGCGCTTAGCAGAGAATGTGAAGATCAAGA TCGATAAGTTCAAGCAGTACATTCCCATCCTCAGTATTTCCTGCAACCCAGGAATGAAAGACCGACACTG GCAGCAGATCAGTGAGATTGTTGGCTATGAGATAAAGCCCACCGAAACGACCTGCCTCTCAAATATGCTC GAATTTGGATTCGGCAAATTCGTTGAAAAATTGGAGCCCATTGGTGCAGCTGCCAGCAAGGAATACTCTC TGGAGAAAAACTTGGATAGAATGAAGTTGGATTGGGTTAACGTGACGTTCAGCTTCGTGAAATACAGGGA CACTGATACAAACATCTTGTGTGCAATTGATGACATTCAAATGCTACTTGATGATCACGTGATAAAGACC CAGACCATGTGTGGCTCCCCATTCATCAAACCAATAGAAGCAGAATGCCGGAAATGGGAAGAAAAGCTAA TTCGCATACAAGACAATTTGGATGCCTGGTTGAAATGCCAAGCCACCTGGCTGTACCTGGAACCAATCTT CAGTTCAGAGGACATCATAGCCCAGATGCCAGAAGAGGGGAGGAAATTTGGCATTGTTGATAGTTACTGG AAATCACTTATGTCCCAAGCGGTGAAAGATAACAGGATTCTGGTGGCAGCCGACCAGCCACGGATGGCAG AGAAGCTTCAAGAAGCCAACTTTCTCTTGGAGGACATCCAGAAAGGGCTGAATGATTACTTGGAGAAGAA GAGACTATTCTTCCCCAGATTCTTCTTCCTATCAAACGATGAGCTGCTGGAAATCTTGTCCGAGACAAAG GACCCTCTCCGAGTGCAGCCGCACTTGAAGAAGTGCTTTGAAGGAATTGCCAAGCTTGAGTTTACAGACA ATCTGGAAATTGTGGGCATGATCAGCTCGGAAAAAGAAACTGTTCCATTCATACAGAAAATCTACCCAGC TAATGCCAAGGGCATGGTGGAAAAGTGGCTCCAGCAGGTGGAGCAGATGATGCTGGCCAGTATGCGAGAA GTCATTGGACTTGGGATTGAAGCATATGTCAAGGTCCCTCGAAATCACTGGGTCTTACAGTGGCCTGGAC AGGTGGTTATCTGTGTCTCCTCCATCTTTTGGACCCAGGAGGTGTCCCAAGCCCTGGCGGAAAATACCTT ACTGGATTTTCTGAAAAAGAGCAATGATCAGATTGCGCAGATTGTCCAGCTGGTGCGAGGGAAGCTGAGC AGTGGAGCTCGACTCACTCTCGGGGCCCTCACGGTCATCGATGTCCACGCCCGCGACGTGGTGGCCAAGT TATCTGAGGACAGGGTCTCCGATCTGAATGATTTCCAATGGATCTCACAGCTGCGCTACTACTGGGTGGC CAAGGATGTGCAGGTGCAGATTATCACCACAGAAGCCTTGTATGGCTATGAGTACCTGGGAAACTCCCCC CGGCTGGTGATCACACCCCTCACCGACCGCTGCTACAGGACACTGATGGGAGCTTTGAAGCTGAACCTTG GGGGTGCTCCAGAGGGTCCAGCTGGGACTGGCAAGACAGAAACCACCAAAGATTTGGCCAAAGCCTTGGC TAAGCAGTGTGTGGTCTTCAACTGCTCCGATGGTTTGGATTACAAAGCTATGGGGAAGTTCTTCAAGGGG CTGGCACAGGCTGGAGCATGGGCGTGCTTTGATGAGTTCAACAGGATCGAGGTAGAAGTGCTGTCTGTGG TCGCTCAGCAGATCCTCAGCATCCAACAAGCCATCATTCGGAAGCTAAAGACATTCATCTTTGAAGGGAC TGAGCTCTCTCTGAACCCAACCTGCGCTGTGTTCATCACCATGAACCCCGGGTATGCTGGCAGGGCTGAA CTGCCCGACAATCTCAAGGCCTTGTTCCGGACAGTGGCCATGATGGTCCCAGATTACGCCCTCATTGGAG AAATCTCCCTCTACTCCATGGGGTTTCTGGACTCCAGAAGTCTCGCCCAGAAGATCGTTGCGACCTACCG CCTGTGCTCGGAACAACTGTCCTCTCAGCATCACTATGACTACGGTATGCGCGCTGTCAAGTCTGTGCTT ACTGCCGCAGGAAACCTGAAGCTCAAGTATCCAGAGGAGAATGAAAGTGTCCTGCTGCTCCGGGCATTGC TTGATGTCAATCTGGCCAAGTTCTTAGCGCAAGATGTCCCTCTGTTTCAGGGAATTATATCTGATTTATT TCCTGGAGTTGTTCTTCCAAAGCCAGACTATGAAGTTTTTCTGAAAGTGCTGAATGATAACATCAAAAAG ATGAAACTCCAGCCAGTACCTTGGTTTATAGGGAAAATTATCCAGATCTACGAAATGATGCTGGTGAGAC ATGGCTATATGATTGTAGGAGACCCCATGGGCGGCAAGACCTCTGCTTATAAAGTGTTGGCTGCAGCTCT CGGCGATTTACACGCAGCCAATCAGATGGAGGAGTTTGCTGTGGAGTACAAGATCATCAACCCCAAGGCT ATCACGATGGGGCAGCTGTATGGGTGCTTTGACCAAGTGAGCCACGAGTGGATGGATGGTGTCCTTGCCA ATGCTTTCCGGGAGCAAGCGTCTTCACTCTCTGATGATCGCAAGTGGATTATATTTGATGGGCCAGTGGA TGCTATTTGGATTGAAAATATGAACACTGTTCTGGATGACAATAAAAAGCTGTGTCTCATGAGTGGGGAA ATTATCCAGATGAACTCCAAGATGAGCCTGATCTTCGAGCCCGCCGACCTCGAGCAAGCCTCTCCAGCCA CTGTGAGCAGGTGTGGGATGATCTACATGGAGCCCCATCAACTAGGCTGGAAGCCCCTGAAGGATTCCTA CATGGACACCCTGCCCTCCAGTCTCACCAAGGAGCACAAAGAATTGGTCAATGACATGTTCATGTGGCTT GTCCAGCCCTGCCTGGAATTTGGTCGCCTTCATTGTAAATTTGTTGTCCAGACATCTCCCATCCACCTTG CCTTCTCAATGATGAGACTGTACTCTTCTCTGCTTGATGAAATCAGGGCAGTAGAAGAGGAGGAAATGGA ATTAGGTGAAGGCCTGTCAAGTCAACAGATCTTTCTCTGGCTCCAAGGACTGTTTCTCTTTTCCTTGGTG TGGACCGTGGCTGGCACCATCAACGCAGACAGCAGAAAGAAATTTGATGTGTTTTTCCGCAACCTGATCA TGGGCATGGATGATAACCACCCAAGGCCCAAAAGCGTCAAACTCACCAAAAACAACATCTTTCCAGAAAG AGGAAGCATCTATGATTTTTATTTTATCAAACAAGCTAGTGGACATTGGGAAACGTGGACACAGTATATC ACCAAAGAGGAGGAAAAAGTTCCAGCTGGTGCAAAGGTCTCAGAACTCATCATCCCCACAATGGAGACAG CCCGGCAGTCCTTCTTCTTGAAAACCTACTTAGACCATGAGATTCCAATGCTGTTCGTGGGTCCCACAGG CACTGGCAAATCAGCCATCACCAACAACTTCCTTCTCCACCTTCCCAAAAATACGTACCTACCCAACTGC ATCAATTTCTCTGCCAGAACCTCAGCCAATCAGACCCAGGATATCATCATGTCCAAGCTGGATCGACGAC GGAAGGGCCTTTTCGGGCCTCCCATAGGGAAGAAAGCAGTGGTGTTTGTGGATGACCTCAACATGCCAGC CAAAGAGGTGTATGGGGCCCAGCCACCCATCGAGCTCCTGAGGCAGTGGATTGACCATGGTTACTGGTTT GACAAGAAAGACACAACCAGGCTGGACATCGTGGACATGCTGCTCGTGACAGCCATGGGGCCCCCCGGGG GAGGAAGGAATGACATTACTGGACGATTCACTCGCCATCTGAATATCATTTCCATCAATGCCTTTGAGGA TGACATTTTAACCAAGATTTTCAGTTCGATTGTTGACTGGCACTTCGGGAAAGGGTTTGATGTGATGTTT TTAAGGTACGGAAAGATGCTGGTCCAAGCTACTAAGACAATTTATAGAGATGCAGTGGAGAACTTCTTGC CAACTCCCTCGAAGTCACATTACGTCTTTAACCTGCGGGACTTCTCACGAGTGATTCAAGGGGTCCTGCT GTGCCCTCACACACACCTGCAGGATGTAGAAAAATGTATCCGGCTTTGGATCCATGAGGTTTATCGGGTC TTCTATGATCGTCTGATTGACAAGGAGGACAGACAGGTCTTTTTCAACATGGTGAAGGAAACCACCTCCA ATTGCTTCAAGCAGACCATAGAGAAGGTGCTTATCCACTTGTCACCCACTGGAAAGATAGTCGATGATAA CATTCGAAGCCTCTTCTTTGGAGATTATTTCAAGCCAGAAAGTGACCAAAAAATCTACGATGAGATCACT GACCTGAAACAGCTGACTGTGGTCATGGAGCACTATCTGGAAGAATTCAACAACATCAGCAAGGCCCCCA TGTCCCTGGTCATGTTCAGGTTTGCCATTGAGCACATCTCTAGGATCTGCCGTGTCCTGAAGCAGGACAA AGGCCACCTGCTCCTGGTGGGCATAGGGGGCAGCGGGCGGCAAAGTGCCGCCAAACTGTCCACATTCATG AACGCATACGAGCTATACCAGATTGAGATCACCAAGAACTACGCAGGCAATGACTGGCGAGAAGATCTTA AGAAGATCATACTGCAGGTCGGTGTGGCCACCAAGAGCACCGTGTTCCTCTTCGCCGACAACCAGATCAA GGATGAATCATTCGTGGAGGACATCAACATGCTTCTGAACACAGGTGACGTGCCTAACATCTTCCCTGCT GACGAGAAGGCTGACATCGTGGAGAAGATGCAGACTGCAGCCAGGACCCAAGGAGAGAAGGTTGAAGTCA CTCCTCTTTCTATGTATAACTTCTTTATTGAGAGGGTAATTAACAAAATCTCCTTTTCATTAGCCATGAG TCCAATAGGGGATGCCTTCAGGAACCGCCTGCGGATGTTCCCTTCGCTGATCAATTGCTGTACGATTGAT TGGTTCCAGTCCTGGCCCACAGATGCCCTAGAGTTGGTGGCTAACAAATTTCTAGAGGATGTGGAGCTTG ATGACAACATTCGGGTAGAGGTCGTGTCCATGTGCAAATATTTCCAAGAGAGCGTCAAGAAGCTGTCACT CGATTATTACAACAAACTTCGAAGACACAACTATGTTACCCCCACCTCCTACCTTGAATTGATTCTAACC TTCAAGACGCTCCTGAATAGCAAGAGGCAAGAGGTGGCTATGATGAGGAACCGCTACCTGACAGGCTTGC AGAAACTCGACTTTGCAGCTTCTCAGGTAGCGGTTATGCAAAGAGAACTGACAGCTCTTCAACCTCAACT CATCCTCACCTCCGAGGAAACTGCCAAGATGATGGTGAAAATTGAAGCGGAGACGAGAGAAGCTGATGGA AAGAAACTTCTGGTGCAGGCAGATGAAAAAGAAGCCAATGTTGCTGCTGCCATTGCCCAAGGAATCAAGA ACGAATGTGAGGGGGACCTAGCTGAGGCAATGCCTGCACTCGAGGCTGCACTAGCTGCTCTGGACACCCT GAACCCGGCCGACATCTCGCTGGTGAAGTCGATGCAGAACCCACCAGGCCCTGTCAAACTGGTCATGGAG AGCATCTGCATCATGAAAGGGATGAAGCCAGAGAGGAAGCCAGACCCCAGTGGCTCCGGTAAGATGATAG AAGATTACTGGGGGGTATCCAAAAAGATTCTTGGGGATCTGAAATTCTTGGAGAGTCTTAAGACATATGA CAAAGACAACATCCCCCCACTGACCATGAAGCGGATCCGGGAAAGGTTTATCAATCACCCGGAATTCCAG CCAGCTGTCATTAAAAATGTATCGTCGGCCTGCGAGGGTCTGTGCAAGTGGGTGAGGGCCATGGAGGTGT ACGATCGCGTGGCCAAGGTGGTGGCTCCCAAACGGGAGCGACTGAGGGAGGCAGAGGGGAAGCTGGCTGC ACAGATGCAGAAGCTGAACCAGAAAAGAGCAGAGCTGAAGCTGGTGGTAGATCGGCTCCAGGCCCTGAAT GACGACTTTGAAGAGATGAACACCAAGAAAAAGGACTTGGAGGAAAACATTGAAATCTGCTCCCAAAAGC TGGTCAGGGCAGAGAAACTGATCAGTGGTCTTGGGGGAGAGAAGGACAGATGGACCGAAGCTGCCCGACA GCTGGGGATCCGCTATACTAATCTGACTGGTGACGTGTTGCTGTCCTCAGGAACTGTGGCTTACCTGGGC GCTTTTACAGTGGATTATCGGGTCCAGTGCCAAAATCAGTGGTTGGCTGAATGTAAGGACAAGGTCATCC CTGGCTTCAGTGACTTCAGTCTCAGCCACACGTTAGGGGATCCCATAAAAATCCGTGCCTGGCAGATTGC TGGGCTTCCCGTTGACTCCTTCTCCATCGACAATGGCATCATTGTATCCAATTCCAGACGCTGGGCCTTA ATGATTGACCCTCACGGGCAGGCCAATAAATGGATTAAGAACATGGAGAAGGCGAATAAACTGGCTGTCA TCAAGTTCTCTGATAGCAACTACATGAGGATGCTGGAAAACGCGCTGCAGTTAGGCACCCCTGTCTTGAT TGAAAACATTGGAGAAGAGCTGGATGCTTCTATCGAACCTATCTTGCTCAAGGCAACATTCAAACAGCAA GGAGTTGAGTACATGAGGCTGGGTGAAAACATCATTGAATATTCCAGGGATTTTAAGTTATACATCACAA CCCGTTTGAGGAATCCACATTACCTCCCAGAAGTTGCCGTGAAGGTCTGTCTCCTCAACTTCATGATCAC CCCCTTGGGTCTCCAAGATCAACTCCTTGGCATCGTGGCTGCGAAGGAGAAGCCAGAGCTGGAAGAGAAA AAGAACCAGTTGATTGTGGAAAGTGCCAAGAACAAGAAGCATCTCAAGGAAATTGAAGATAAGATCTTGG AGGTTCTCTCCATGTCCAAGGGTAACATCCTGGAGGATGAAACCGCCATCAAAGTTCTGTCCTCCTCCAA AGTGCTATCTGAAGAGATCTCAGAGAAACAGAAAGTTGCTTCCATGACAGAAACGCAGATTGACGAGACT CGGATGGGCTACAAGCCAGTGGCTGTGCATTCTGCCACCATCTTCTTTTGTATCTCGGACCTGGCCAACA TCGAGCCGATGTACCAGTACTCCCTGACTTGGTTCATAAATCTCTACATGCATTCCTTGACCCACAGCAC GAAGAGCGAGGAACTGAATCTGCGCATCAAGTACATCATTGACCATTTCACCCTGAGCATCTACAACAAC GTGTGCCGTTCTCTGTTTGAGAAGGACAAGCTACTCTTCTCTCTCCTCCTGACCATCGGCATCATGAAAC AGAAGAAGGAAATTACGGAGGAGGTGTGGTACTTCCTTCTCACTGGAGGCATCGCACTGGATAACCCCTA CCCCAATCCAGCTCCCCAATGGCTGTCTGAGAAGGCATGGGCAGAGATTGTCCGTGCATCTGCCTTACCC AAACTGCATGGCCTGATGGAGCATTTGGAACAGAACCTGGGTGAATGGAAGCTGATCTATGACTCGGCCT GGCCCCATGAGGAGCAACTCCCTGGGTCTTGGAAGTTCTCTCAAGGATTGGAGAAGATGGTGATCCTTCG ATGTTTGCGGCCTGACAAAATGGTGCCAGCGGTCCGGGAGTTCATTGCTGAACATATGGGAAAGCTGTAT ATCGAAGCCCCTACGTTCGATCTCCAGGGATCCTACAATGATTCCAGCTGCTGTGCGCCTTTGATTTTTG TGTTGTCTCCAAGTGCAGACCCAATGGCAGGCCTGCTGAAGTTTGCTGATGATCTTGGTATGGGAGGTAC CAGAACACAGACCATCTCCCTTGGCCAAGGCCAAGGCCCTATTGCTGCCAAAATGATCAACAATGCCATC AAAGACGGGACCTGGGTGGTCTTACAGAACTGCCACCTGGCCGCAAGCTGGATGCCTACCCTGGAGAAGA TTTGTGAGGAGGTGATTGTTCCTGAGAGCACCAATGCCAGATTCAGACTCTGGCTAACCAGCTATCCATC AGAGAAGTTTCCAGTCAGCATTCTCCAGAATGGAATCAAAATGACCAATGAGCCCCCCAAAGGGCTCCGG GCCAACCTGTTGCGCTCCTACCTCAATGACCCCATCTCAGATCCTGTGTTCTTCCAAAGCTGTGCAAAGG CGGTGATGTGGCAAAAGATGTTATTTGGCCTTTGTTTCTTCCACGCCGTTGTTCAAGAGAGAAGAAACTT CGGCCCCCTAGGGTGGAATATTCCCTATGAATTCAACGAATCTGACCTGAGGATTAGTATGTGGCAGATC CAGATGTTTCTCAATGACTACAAGGAGGTGCCCTTTGATGCTCTGACCTACCTGACAGGGGAATGTAATT ACGGAGGCAGAGTGACTGATGACAAAGACCGGCGTCTCCTGCTGTCACTTCTGTCCATGTTCTACTGTAA GGAAATTGAGGAGGACTATTACTCCCTCGCTCCTGGAGACACTTACTACATCCCTCCTCATGGCTCCTAC CAGTCCTATATCGACTATCTCAGGAATCTCCCCATCACAGCCCACCCAGAAGTGTTCGGCCTCCATGAGA ACGCAGACATCACCAAAGACAACCAGGAAACCAACCAGCTGTTTGAGGGGGTCCTGCTGACCCTCCCTAG ACAGTCAGGAGGAAGTGGCAAGTCCCCTCAGGAAGTGGTTGAGGAGTTGGCACAAGACATTCTCTCCAAG CTTCCCAGAGACTTTGACCTGGAAGAGGTCATGAAGTTGTACCCCGTGGTCTATGAAGAATCCATGAATA CCGTCCTAAGGCAGGAGCTCATCAGATTCAACAGGCTGACCAAAGTGGTTCGGAGGAGCCTCATCAATCT TGGCCGAGCCATCAAAGGACAGGTCCTGATGTCCTCGGAGCTAGAGGAAGTCTTTAACAGCATGCTTGTG GGTAAAGTGCCAGCCATGTGGGCAGCCAAGTCTTACCCATCACTGAAGCCTCTGGGGGGCTACGTGGCTG ACCTGCTGGCCCGCCTGACCTTCTTCCAGGAATGGATTGACAAGGGGCCCCCTGTGGTATTTTGGATCTC TGGATTCTACTTCACACAGTCTTTTTTGACTGGCGTCTCTCAAAATTATGCCCGGAAATATACCATCCCC ATTGACCACATTGGATTTGAGTTTGAGGTAACCCCACAAGAAACAGTGATGGAGAATAACCCCGAAGATG GGGCCTACATCAAAGGGCTCTTCTTAGAAGGTGCCCGTTGGGACAGGAAAACGATGCAGATTGGGGAATC TCTCCCCAAAATCCTCTATGACCCACTGCCCATCATTTGGCTGAAACCTGGGGAGAGCGCAATGTTTCTG CATCAGGACATCTATGTGTGTCCAGTCTACAAAACAAGTGCCCGCAGAGGAACCCTCTCCACCACAGGCC ACTCTACCAACTATGTCCTCTCCATTGAGCTTCCAACAGACATGCCCCAGAAGCACTGGATAAACCGAGG GGTGGCCTCACTGTGCCAGCTGGATAAC ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RC213544 representing NM_017539
Red=Cloning site Green=Tags(s) MGATGRLELTLAAPPHPGPAFQRSKARETQGEEEGSEMQIAKSDSIHHMSHSQGQPELPPLPASANEEPS GLYQTVMSHSFYPPLMQRTSWTLAAPFKEQHHHRGPSDSIANNYSLMAQDLKLKDLLKVYQPATISVPRD RTGQGLPSSGNRSSSEPMRKKTKFSSRNKEDSTRIKLAFKTSIFSPMKKEVKTSLTFPGSRPMSPEQQLD VMLQQEMEMESKEKKPSESDLERYYYYLTNGIRKDMIAPEEGEVMVRISKLISNTLLTSPFLEPLMVVLV QEKENDYYCSLMKSIVDYILMDPMERKRLFIESIPRLFPQRVIRAPVPWHSVYRSAKKWNEEHLHTVNPM MLRLKELWFAEFRDLRFVRTAEILAGKLPLQPQEFWDVIQKHCLEAHQTLLNKWIPTCAQLFTSRKEHWI HFAPKSNYDSSRNIEEYFASVASFMSLQLRELVIKSLEDLVSLFMIHKDGNDFKEPYQEMKFFIPQLIMI KLEVSEPIIVFNPSFDGCWELIRDSFLEIIKNSNGIPKLKYIPLKFSFTAAAADRQCVKAAEPGEPSMHA AATAMAELKGYNLLLGTVNAEEKLVSDFLIQTFKVFQKNQVGPCKYLNVYKKYVDLLDNTAEQNIAAFLK ENHDIDDFVTKINAIKKRRNEIASMNITVPLAMFCLDATALNHDLCERAQNLKDHLIQFQVDVNRDTNTS ICNQYSHIADKVSEVPANTKELVSLIEFLKKSSAVTVFKLRRQLRDASERLEFLMDYADLPYQIEDIFDN SRNLLLHKRDQAEMDLIKRCSEFELRLEGYHRELESFRKREVMTTEEMKHNVEKLNELSKNLNRAFAEFE LINKEEELLEKEKSTYPLLQAMLKNKVPYEQLWSTAYEFSIKSEEWMNGPLFLLNAEQIAEEIGNMWRTT YKLIKTLSDVPAPRRLAENVKIKIDKFKQYIPILSISCNPGMKDRHWQQISEIVGYEIKPTETTCLSNML EFGFGKFVEKLEPIGAAASKEYSLEKNLDRMKLDWVNVTFSFVKYRDTDTNILCAIDDIQMLLDDHVIKT QTMCGSPFIKPIEAECRKWEEKLIRIQDNLDAWLKCQATWLYLEPIFSSEDIIAQMPEEGRKFGIVDSYW KSLMSQAVKDNRILVAADQPRMAEKLQEANFLLEDIQKGLNDYLEKKRLFFPRFFFLSNDELLEILSETK DPLRVQPHLKKCFEGIAKLEFTDNLEIVGMISSEKETVPFIQKIYPANAKGMVEKWLQQVEQMMLASMRE VIGLGIEAYVKVPRNHWVLQWPGQVVICVSSIFWTQEVSQALAENTLLDFLKKSNDQIAQIVQLVRGKLS SGARLTLGALTVIDVHARDVVAKLSEDRVSDLNDFQWISQLRYYWVAKDVQVQIITTEALYGYEYLGNSP RLVITPLTDRCYRTLMGALKLNLGGAPEGPAGTGKTETTKDLAKALAKQCVVFNCSDGLDYKAMGKFFKG LAQAGAWACFDEFNRIEVEVLSVVAQQILSIQQAIIRKLKTFIFEGTELSLNPTCAVFITMNPGYAGRAE LPDNLKALFRTVAMMVPDYALIGEISLYSMGFLDSRSLAQKIVATYRLCSEQLSSQHHYDYGMRAVKSVL TAAGNLKLKYPEENESVLLLRALLDVNLAKFLAQDVPLFQGIISDLFPGVVLPKPDYEVFLKVLNDNIKK MKLQPVPWFIGKIIQIYEMMLVRHGYMIVGDPMGGKTSAYKVLAAALGDLHAANQMEEFAVEYKIINPKA ITMGQLYGCFDQVSHEWMDGVLANAFREQASSLSDDRKWIIFDGPVDAIWIENMNTVLDDNKKLCLMSGE IIQMNSKMSLIFEPADLEQASPATVSRCGMIYMEPHQLGWKPLKDSYMDTLPSSLTKEHKELVNDMFMWL VQPCLEFGRLHCKFVVQTSPIHLAFSMMRLYSSLLDEIRAVEEEEMELGEGLSSQQIFLWLQGLFLFSLV WTVAGTINADSRKKFDVFFRNLIMGMDDNHPRPKSVKLTKNNIFPERGSIYDFYFIKQASGHWETWTQYI TKEEEKVPAGAKVSELIIPTMETARQSFFLKTYLDHEIPMLFVGPTGTGKSAITNNFLLHLPKNTYLPNC INFSARTSANQTQDIIMSKLDRRRKGLFGPPIGKKAVVFVDDLNMPAKEVYGAQPPIELLRQWIDHGYWF DKKDTTRLDIVDMLLVTAMGPPGGGRNDITGRFTRHLNIISINAFEDDILTKIFSSIVDWHFGKGFDVMF LRYGKMLVQATKTIYRDAVENFLPTPSKSHYVFNLRDFSRVIQGVLLCPHTHLQDVEKCIRLWIHEVYRV FYDRLIDKEDRQVFFNMVKETTSNCFKQTIEKVLIHLSPTGKIVDDNIRSLFFGDYFKPESDQKIYDEIT DLKQLTVVMEHYLEEFNNISKAPMSLVMFRFAIEHISRICRVLKQDKGHLLLVGIGGSGRQSAAKLSTFM NAYELYQIEITKNYAGNDWREDLKKIILQVGVATKSTVFLFADNQIKDESFVEDINMLLNTGDVPNIFPA DEKADIVEKMQTAARTQGEKVEVTPLSMYNFFIERVINKISFSLAMSPIGDAFRNRLRMFPSLINCCTID WFQSWPTDALELVANKFLEDVELDDNIRVEVVSMCKYFQESVKKLSLDYYNKLRRHNYVTPTSYLELILT FKTLLNSKRQEVAMMRNRYLTGLQKLDFAASQVAVMQRELTALQPQLILTSEETAKMMVKIEAETREADG KKLLVQADEKEANVAAAIAQGIKNECEGDLAEAMPALEAALAALDTLNPADISLVKSMQNPPGPVKLVME SICIMKGMKPERKPDPSGSGKMIEDYWGVSKKILGDLKFLESLKTYDKDNIPPLTMKRIRERFINHPEFQ PAVIKNVSSACEGLCKWVRAMEVYDRVAKVVAPKRERLREAEGKLAAQMQKLNQKRAELKLVVDRLQALN DDFEEMNTKKKDLEENIEICSQKLVRAEKLISGLGGEKDRWTEAARQLGIRYTNLTGDVLLSSGTVAYLG AFTVDYRVQCQNQWLAECKDKVIPGFSDFSLSHTLGDPIKIRAWQIAGLPVDSFSIDNGIIVSNSRRWAL MIDPHGQANKWIKNMEKANKLAVIKFSDSNYMRMLENALQLGTPVLIENIGEELDASIEPILLKATFKQQ GVEYMRLGENIIEYSRDFKLYITTRLRNPHYLPEVAVKVCLLNFMITPLGLQDQLLGIVAAKEKPELEEK KNQLIVESAKNKKHLKEIEDKILEVLSMSKGNILEDETAIKVLSSSKVLSEEISEKQKVASMTETQIDET RMGYKPVAVHSATIFFCISDLANIEPMYQYSLTWFINLYMHSLTHSTKSEELNLRIKYIIDHFTLSIYNN VCRSLFEKDKLLFSLLLTIGIMKQKKEITEEVWYFLLTGGIALDNPYPNPAPQWLSEKAWAEIVRASALP KLHGLMEHLEQNLGEWKLIYDSAWPHEEQLPGSWKFSQGLEKMVILRCLRPDKMVPAVREFIAEHMGKLY IEAPTFDLQGSYNDSSCCAPLIFVLSPSADPMAGLLKFADDLGMGGTRTQTISLGQGQGPIAAKMINNAI KDGTWVVLQNCHLAASWMPTLEKICEEVIVPESTNARFRLWLTSYPSEKFPVSILQNGIKMTNEPPKGLR ANLLRSYLNDPISDPVFFQSCAKAVMWQKMLFGLCFFHAVVQERRNFGPLGWNIPYEFNESDLRISMWQI QMFLNDYKEVPFDALTYLTGECNYGGRVTDDKDRRLLLSLLSMFYCKEIEEDYYSLAPGDTYYIPPHGSY QSYIDYLRNLPITAHPEVFGLHENADITKDNQETNQLFEGVLLTLPRQSGGSGKSPQEVVEELAQDILSK LPRDFDLEEVMKLYPVVYEESMNTVLRQELIRFNRLTKVVRRSLINLGRAIKGQVLMSSELEEVFNSMLV GKVPAMWAAKSYPSLKPLGGYVADLLARLTFFQEWIDKGPPVVFWISGFYFTQSFLTGVSQNYARKYTIP IDHIGFEFEVTPQETVMENNPEDGAYIKGLFLEGARWDRKTMQIGESLPKILYDPLPIIWLKPGESAMFL HQDIYVCPVYKTSARRGTLSTTGHSTNYVLSIELPTDMPQKHWINRGVASLCQLDN TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_017539 |
ORF Size | 12348 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_017539.1, NP_060009.1 |
RefSeq Size | 12351 bp |
RefSeq ORF | 12351 bp |
Locus ID | 55567 |
UniProt ID | Q8TD57 |
Protein Pathways | Huntington's disease |
MW | 470.6 kDa |
Gene Summary | This gene belongs to the dynein family, whose members encode large proteins that are constituents of the microtubule-associated motor protein complex. This complex is composed of dynein heavy, intermediate and light chains, which can be axonemal or cytoplasmic. This protein is an axonemal dynein heavy chain. It is involved in producing force for ciliary beating by using energy from ATP hydrolysis. Alternative splicing results in multiple transcript variants encoding distinct isoforms. [provided by RefSeq, Dec 2016] |
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