DYNC2H1 (NM_001080463) Human Tagged ORF Clone

CAT#: RG235409

DYNC2H1 (tGFP-tagged) - Homo sapiens dynein, cytoplasmic 2, heavy chain 1 (DYNC2H1), transcript variant 2

Product Images

Circular map for RG235409

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: TurboGFP
• Symbol: DYNC2H1
• Synonyms: ATD3; DHC1b; DHC2; DNCH2; DYH1B; hdhc11; SRPS2B; SRTD3
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG235409 representing NM_001080463
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGCGAACGGGACTGCGGACGTTCGGAAGCTCTTCATCTTCACTACTACCCAGAATTACTTCGGGTTGA
  TGTCTGAACTCTGGGATCAGCCACTGTTGTGCAACTGTCTTGAAATCAACAACTTCTTGGATGACGGCAA
  CCAGATGCTCCTCAGGGTGCAGCGATCCGACGCAGGAATCTCCTTTTCCAACACGATTGAGTTTGGTGAC
  ACAAAAGATAAAGTGCTGGTGTTTTTCAAGCTGCGACCTGAAGTAATTACTGATGAGAATCTACATGATA
  ACATTCTTGTTTCATCTATGTTAGAGTCACCTATTAGTTCTCTTTACCAAGCAGTACGGCAAGTATTCGC
  ACCAATGTTGTTAAAGGATCAGGAATGGAGCAGAAACTTTGATCCCAAACTTCAGAATCTTTTGAGTGAA
  CTAGAAGCTGGGTTGGGTATAGTTCTACGAAGATCAGACACTAACTTAACAAAATTGAAATTTAAGGAAG
  ATGACACACGAGGTATCCTTACACCAAGCGATGAGTTCCAGTTTTGGATAGAACAAGCTCACCGTGGAAA
  TAAACAGATTAGTAAAGAAAGAGCCAATTATTTTAAAGAATTATTTGAAACAATTGCAAGAGAGTTTTAT
  AACTTGGACAGTCTATCCTTACTAGAAGTTGTTGACTTGGTGGAGACTACTCAGGATGTTGTAGATGATG
  TGTGGAGACAAACAGAACATGATCATTATCCTGAGTCACGAATGTTGCATCTCTTAGACATCATAGGTGG
  TTCATTTGGAAGGTTTGTTCAGAAAAAGTTGGGAACTTTGAACCTGTGGGAAGATCCTTATTATCTTGTG
  AAAGAAAGTCTGAAAGCTGGTATTTCAATTTGTGAACAGTGGGTGATAGTCTGTAATCATCTAACAGGTC
  AGGTGTGGCAGCGCTATGTTCCTCATCCATGGAAAAATGAAAAATATTTTCCAGAAACACTTGACAAACT
  TGGCAAACGCCTTGAAGAGGTCTTGGCTATTAGAACAATTCATGAGAAGTTTCTCTATTTTCTACCTGCC
  AGTGAAGAGAAAATCATATGCCTCACTCGAGTATTTGAACCTTTTACTGGCCTGAATCCTGTGCAATATA
  ATCCATATACTGAGCCCTTGTGGAAAGCTGCGGTGTCTCAATATGAAAAGATTATTGCACCTGCGGAACA
  AAAAATAGCAGGAAAATTGAAAAATTATATTTCAGAAATTCAAGACAGTCCACAGCAGCTTCTTCAAGCA
  TTCCTGAAATATAAAGAGTTGGTAAAGCGTCCAACTATAAGCAAAGAATTGATGTTAGAAAGAGAAACTT
  TACTGGCAAGACTTGTGGACTCAATTAAAGATTTTCGATTAGACTTTGAGAATCGGTGCCGAGGAATTCC
  TGGTGATGCATCTGGACCACTTTCTGGCAAAAATCTTTCAGAAGTTGTCAACAGTATAGTTTGGGTTCGC
  CAGTTGGAATTGAAGGTAGATGATACTATCAAGATTGCAGAGGCTCTTTTATCTGACTTGCCAGGATTTC
  GATGTTTCCATCAAAGTGCCAAAGATCTCTTAGACCAGCTTAAACTATATGAACAGGAACAATTTGATGA
  TTGGTCCAGGGATATTCAATCAGGTTTATCTGATTCCAGATCTGGTTTGTGTATTGAGGCTAGTAGTCGA
  ATTATGGAATTGGATTCTAATGATGGATTACTAAAAGTGCATTATTCAGATCGTTTGGTGATTCTTCTGA
  GAGAAGTTCGTCAGCTCTCTGCACTTGGCTTTGTTATTCCTGCCAAAATACAGCAAGTTGCAAACATTGC
  ACAGAAATTCTGCAAGCAAGCAATTATTCTTAAACAAGTGGCACATTTTTATAATTCTATTGATCAACAA
  ATGATTCAAAGTCAGAGGCCAATGATGTTACAATCTGCCTTAGCATTTGAACAGATAATTAAGAATTCAA
  AAGCAGGAAGTGGAGGGAAATCACAGATAACTTGGGATAATCCTAAAGAATTAGAAGGCTATATCCAAAA
  ACTCCAAAATGCTGCTGAACGGCTTGCCACTGAAAATAGAAAACTGAGAAAATGGCACACTACATTTTGT
  GAAAAGGTGGTTGTTCTTATGAATATTGATCTGCTTCGGCAGCAACAGCGCTGGAAAGATGGATTACAAG
  AATTGAGAACTGGCTTAGCAACTGTAGAAGCACAGGGATTCCAAGCAAGTGACATGCATGCATGGAAACA
  ACACTGGAATCATCAACTGTACAAAGCTCTGGAGCATCAGTACCAGATGGGCTTAGAAGCACTTAATGAG
  AATTTGCCAGAAATAAATATAGACTTAACTTACAAACAGGGACGATTACAATTCAGGCCCCCTTTTGAAG
  AAATCCGGGCTAAATATTATAGAGAAATGAAGAGATTCATCGGCATTCCAAATCAGTTTAAGGGAGTGGG
  TGAGGCAGGAGATGAATCTATTTTTTCTATTATGATTGATAGAAATGCAAGTGGATTTTTGACGATTTTC
  AGCAAAGCAGAAGATCTGTTTAGAAGATTGTCAGCTGTTTTACACCAACATAAGGAATGGATTGTAATTG
  GGCAAGTTGATATGGAAGCTCTGGTGGAAAAGCATCTTTTTACTGTACATGATTGGGAGAAAAATTTTAA
  AGCATTAAAAATAAAGGGGAAAGAAGTAGAACGACTTCCAAGTGCTGTCAAGGTAGATTGTTTAAATATT
  AATTGCAACCCTGTGAAGACTGTGATTGATGATCTCATCCAGAAGTTATTTGATCTGCTTGTTCTTTCTT
  TGAAGAAGTCCATACAGGCTCATTTACATGAAATTGATACATTTGTTACTGAGGCTATGGAAGTCTTAAC
  AATTATGCCCCAGTCTGTGGAAGAAATTGGTGATGCAAATCTACAATATAGTAAGTTACAAGAACGGAAG
  CCAGAGATTTTGCCCTTATTTCAAGAAGCTGAAGACAAAAACAGACTTTTACGAACTGTGGCTGGTGGAG
  GTTTAGAAACAATTAGTAATTTGAAAGCCAAGTGGGATAAATTTGAGTTAATGATGGAAAGTCACCAACT
  TATGATTAAAGACCAGATTGAAGTGATGAAAGGAAATGTGAAATCACGTCTTCAGATCTATTATCAAGAA
  CTGGAAAAATTTAAAGCTCGTTGGGACCAACTAAAGCCTGGTGATGATGTTATTGAAACTGGCCAACATA
  ATACTCTTGATAAAAGTGCAAAGTTAATAAAAGAGAAAAAAATTGAGTTTGATGATCTTGAAGTCACAAG
  AAAAAAGCTGGTTGATGATTGCCATCATTTTAGACTGGAAGAGCCTAATTTCTCCCTGGCAAGTAGTATC
  TCTAAAGATATCGAGAGCTGTGCCCAAATTTGGGCCTTTTATGAAGAGTTTCAACAAGGATTTCAGGAAA
  TGGCCAATGAAGACTGGATCACTTTTCGGACTAAGACATACCTGTTTGAGGAATTTTTGATGAACTGGCA
  TGACAGATTAAGGAAGGTTGAAGAACATTCAGTGATGACAGTGAAATTACAATCAGAGGTTGACAAATAT
  AAAATCGTAATTCCTATCTTGAAATATGTGAGAGGGGAGCATCTTTCTCCAGATCACTGGCTTGACCTTT
  TTCGTCTCCTTGGACTTCCTAGGGGGACTAGTCTAGAGAAACTACTGTTTGGTGATTTGCTCAGAGTAGC
  TGATACAATTGTAGCCAAAGCTGCCGACCTTAAAGATTTAAATAGTCGGGCACAAGGTGAAGTTACAATC
  AGAGAAGCTTTACGTGAACTTGATCTTTGGGGAGTTGGAGCAGTGTTTACATTAATTGATTATGAAGACA
  GCCAAAGTCGAACTATGAAGCTGATTAAAGACTGGAAAGATATAGTAAATCAGGTTGGAGATAATAGATG
  CCTTCTCCAATCCTTAAAGGATTCTCCTTATTATAAAGGATTTGAAGATAAAGTATCAATTTGGGAAAGA
  AAACTTGCAGAGTTAGATGAATACCTGCAGAATTTAAATCATATTCAGAGAAAGTGGGTGTATTTGGAAC
  CCATTTTCGGCCGTGGAGCATTGCCAAAAGAACAGACACGCTTCAACAGAGTTGATGAAGATTTTAGATC
  AATAATGACTGATATCAAGAAAGACAATAGAGTCACAACATTAACTACTCATGCTGGAATAAGAAATTCT
  CTACTAACAATACTTGATCAGCTTCAAAGATGTCAGAAATCATTAAATGAATTTTTGGAGGAAAAACGCT
  CAGCATTCCCAAGATTTTATTTTATTGGTGATGATGACTTATTAGAAATATTGGGCCAGTCTACCAACCC
  ATCAGTGATTCAGTCTCACCTGAAGAAGCTTTTTGCTGGTATTAACAGTGTTTGCTTTGATGAGAAATCA
  AAACATATAACTGCAATGAAATCTTTAGAGGGAGAAGTTGTACCTTTTAAAAATAAAGTTCCTCTATCAA
  ATAATGTAGAGACATGGTTGAATGATTTGGCCTTAGAAATGAAGAAAACTTTGGAACAGTTGTTGAAGGA
  ATGTGTTACTACTGGGCGAAGTTCTCAAGGTGCAGTTGACCCATCTCTGTTCCCTTCACAGATTTTATGC
  TTGGCGGAGCAGATTAAATTCACTGAAGATGTAGAAAATGCTATTAAAGATCATAGTCTTCATCAGATTG
  AAACACAACTGGTGAATAAGTTAGAGCAATATACTAACATTGATACAAGTTCTGAGGATCCAGGGAATAC
  TGAATCGGGCATCCTGGAGCTTAAACTTAAAGCCCTAATTCTTGACATTATCCATAATATTGATGTGGTA
  AAGCAGTTAAACCAAATTCAGGTTCATACAACTGAAGACTGGGCTTGGAAAAAACAACTTAGATTCTATA
  TGAAAAGTGATCATACATGTTGTGTTCAAATGGTGGATTCTGAATTTCAGTATACTTATGAATATCAGGG
  TAATGCTTCCAAACTGGTTTATACTCCACTGACAGACAAGTGCTACTTAACTCTCACTCAAGCCATGAAG
  ATGGGACTTGGAGGAAATCCTTATGGACCAGCTGGAACTGGGAAAACGGAATCAGTAAAGGCTTTAGGTG
  GACTTCTTGGAAGACAAGTTTTAGTCTTTAATTGTGATGAGGGCATCGATGTGAAGTCAATGGGACGAAT
  ATTTGTTGGTTTGGTGAAGTGTGGGGCCTGGGGTTGTTTTGATGAATTTAATAGGCTGGAAGAATCTGTA
  CTGTCAGCAGTTTCTATGCAAATCCAGACAATTCAAGATGCTTTGAAGAATCATAGAACTGTATGTGAAC
  TGCTTGGCAAGGAGGTAGAAGTAAATTCTAATTCTGGAATTTTTATCACTATGAATCCTGCTGGAAAAGG
  TTATGGAGGAAGACAAAAACTGCCTGATAATCTTAAACAGCTTTTCAGGCCCGTAGCTATGTCTCATCCA
  GACAATGAGCTTATTGCAGAAGTTATTCTCTATTCGGAAGGCTTTAAAGACGCTAAAGTATTGAGCAGAA
  AATTGGTAGCTATTTTCAATCTATCTAGGGAACTTTTGACACCTCAGCAACATTATGATTGGGGTTTGAG
  AGCTTTGAAGACAGTTCTGAGAGGAAGTGGAAATCTCCTTAGACAGCTAAACAAAAGTGGCACTACACAG
  AATGCTAATGAAAGTCATATTGTGGTACAAGCACTGAGGCTTAATACCATGTCAAAGTTTACGTTTACTG
  ATTGCACCCGGTTTGATGCACTGATAAAAGATGTCTTTCCGGGAATTGAATTGAAAGAAGTGGAATATGA
  TGAACTAAGTGCTGCATTAAAGCAGGTCTTTGAAGAGGCCAATTATGAAATTATACCCAATCAGATCAAA
  AAGGCTTTAGAATTGTATGAACAGTTATGCCAGAGGATGGGAGTTGTTATTGTTGGTCCAAGTGGTGCTG
  GAAAATCAACGCTTTGGAGAATGTTAAGGGCTGCGCTTTGTAAAACTGGCAAAGTAGTGAAACAATATAC
  TATGAATCCCAAAGCTATGCCTCGATATCAATTATTAGGCCATATTGACATGGACACAAGAGAATGGTCT
  GATGGTGTTTTGACAAATAGTGCTCGTCAAGTGGTTCGGGAACCTCAAGATGTCAGCTCATGGATAATCT
  GTGATGGTGATATTGACCCTGAATGGATAGAATCTCTGAATTCTGTTCTGGATGATAATCGACTGCTGAC
  TATGCCCAGTGGAGAAAGGATTCAGTTTGGCCCAAATGTTAACTTTGTATTTGAAACTCATGATTTAAGT
  TGTGCATCACCAGCCACAATATCTAGAATGGGAATGATCTTTCTTAGTGATGAAGAGACAGATCTTAATT
  CTCTGATAAAATCTTGGTTGAGGAATCAGCCTGCTGAATATAGAAATAATCTTGAAAATTGGATTGGAGA
  TTATTTTGAAAAGGCTTTACAATGGGTTCTAAAGCAGAATGACTATGTGGTAGAAACAAGTTTGGTTGGG
  ACTGTGATGAATGGTTTGTCACATCTACATGGTTGCAGAGATCATGACGAATTCATTATTAATCTCATAA
  GGGGACTTGGTGGAAATCTGAATATGAAGTCACGTTTGGAATTTACCAAAGAGGTTTTTCATTGGGCACG
  AGAATCTCCTCCAGACTTTCACAAACCTATGGATACCTACTATGACTCTACTAGGGGTCGATTAGCAACA
  TATGTGCTTAAGAAGCCAGAAGACTTGACTGCTGATGATTTCAGTAACGGCTTAACTCTTCCAGTCATTC
  AGACTCCTGACATGCAACGAGGTCTAGATTATTTCAAACCATGGTTAAGTTCTGATACTAAACAGCCCTT
  TATTCTGGTAGGACCAGAAGGATGTGGCAAAGGGATGCTGCTCAGGTACGCATTTTCACAACTCCGGTCC
  ACTCAAATTGCTACAGTTCACTGTAGTGCACAAACCACTTCTCGACATCTCCTGCAGAAACTGAGCCAGA
  CTTGCATGGTAATCAGTACTAATACTGGTCGTGTATACAGACCAAAAGACTGTGAAAGACTTGTTCTGTA
  CTTAAAAGATATCAACCTACCTAAACTTGATAAATGGGGGACCAGTACTTTGGTAGCATTCCTACAACAG
  GTATTGACGTATCAAGGATTTTATGATGAAAATTTGGAATGGGTTGGTCTAGAAAATATTCAAATTGTGG
  CTTCTATGTCAGCTGGAGGAAGACTGGGAAGACATAAACTTACTACCAGATTTACTTCCATCGTTCGTCT
  TTGTTCTATAGATTACCCAGAAAGAGAGCAGTTACAAACGATTTATGGAGCATATTTGGAACCAGTTCTA
  CATAAAAATCTGAAGAATCATTCTATTTGGGGTTCTTCATCAAAAATTTATCTTTTAGCAGGATCTATGG
  TACAAGTGTATGAACAGGTGCGAGCCAAATTTACAGTTGATGATTATAGTCACTATTTCTTTACTCCTTG
  CATTCTTACCCAATGGGTTCTTGGCTTATTTAGATATGATTTAGAAGGAGGATCCTCAAACCATCCACTA
  GATTATGTGTTAGAAATTGTAGCATATGAGGCACGGCGCTTATTTCGTGACAAAATTGTTGGTGCAAAGG
  AACTTCATTTATTTGACATCATTTTAACATCAGTGTTTCAAGGAGATTGGGGCTCAGACATATTAGACAA
  TATGTCAGATAGTTTCTACGTTACATGGGGAGCTCGGCATAATTCAGGAGCAAGGGCAGCCCCAGGACAA
  CCATTACCTCCACATGGAAAACCACTTGGAAAACTAAACTCTACTGATCTCAAGGATGTTATTAAAAAGG
  GTCTTATTCATTATGGACGAGATAACCAGAATTTAGACATTTTACTTTTCCACGAAGTCTTGGAGTATAT
  GTCTAGGATAGATAGAGTGCTGAGTTTCCCTGGAGGTTCACTTCTATTAGCAGGACGCAGTGGTGTAGGT
  CGTCGGACCATCACTTCTTTAGTCAGTCACATGCATGGAGCGGTCCTGTTTTCTCCAAAGATTTCCAGAG
  GATATGAACTGAAGCAGTTCAAAAATGATCTCAAACATGTGCTGCAACTTGCAGGAATTGAAGCACAACA
  GGTAGTTTTACTTCTTGAGGATTACCAGTTTGTACATCCTACATTTTTGGAGATGATCAATAGCCTTTTG
  TCTTCAGGTGAAGTTCCTGGACTCTATACTCTTGAAGAATTAGAGCCCTTGCTGTTACCACTTAAGGATC
  AAGCTTCACAAGATGGTTTTTTTGGACCAGTCTTCAATTACTTCACATATAGAATTCAGCAAAACTTGCA
  TATTGTCTTGATAATGGATTCTGCAAATTCAAACTTCATGATAAACTGTGAGAGTAATCCAGCTTTGCAT
  AAGAAATGCCAGGTGTTGTGGATGGAGGGTTGGTCCAATAGCAGTATGAAGAAAATACCTGAAATGTTAT
  TCAGTGAAACAGGTGGTGGAGAAAAATACAATGATAAAAAACGAAAAGAAGAAAAGAAAAAAAATTCAGT
  TGATCCTGATTTTCTAAAATCATTTTTATTAATCCATGAATCTTGTAAAGCATATGGTGCTACACCAAGC
  CGATACATGACCTTTTTACATGTGTATTCTGCCATTAGTAGTAGCAAGAAAAAGGAATTATTAAAAAGAC
  AAAGTCATTTGCAGGCTGGTGTATCTAAACTAAATGAAGCTAAAGCTCTTGTGGATGAACTGAACAGAAA
  AGCTGGAGAACAAAGTGTGTTACTTAAAACGAAGCAAGATGAAGCAGATGCTGCCCTTCAAATGATCACA
  GTGTCAATGCAGGATGCTAGTGAGCAAAAAACAGAACTTGAAAGACTGAAGCACAGAATAGCAGAAGAAG
  TTGTTAAAATTGAAGAAAGAAAAAATAAAATTGATGATGAATTAAAAGAAGTACAACCTTTAGTCAATGA
  AGCTAAACTAGCAGTTGGAAACATTAAGCCCGAATCACTTTCAGAAATTCGCTCACTACGCATGCCACCT
  GATGTAATTAGAGATATTCTTGAAGGAGTTTTAAGGTTGATGGGTATCTTTGATACATCTTGGGTGAGCA
  TGAAAAGTTTCCTTGCAAAAAGAGGTGTAAGAGAAGACATAGCAACCTTTGATGCCCGAAATATTTCAAA
  GGAAATAAGAGAGAGTGTTGAAGAACTTCTTTTTAAAAATAAAGGCTCTTTTGATCCAAAGAATGCTAAG
  CGTGCCAGTACTGCAGCTGCACCTTTGGCTGCCTGGGTGAAAGCCAATATTCAGTATTCCCATGTCTTGG
  AACGAATTCATCCTTTGGAAACTGAACAGGCAGGATTAGAATCGAATCTGAAGAAAACTGAAGACAGAAA
  AAGGAAACTAGAGGAGCTTCTTAATTCTGTTGGTCAAAAGGTATCAGAACTCAAAGAAAAATTTCAGAGC
  AGGACTTCAGAAGCTGCCAAACTTGAGGCTGAAGTAAGCAAGGCACAAGAAACAATCAAAGCTGCAGAAG
  TCTTAATTAATCAGCTTGACAGAGAACATAAGAGATGGAATGCACAGGTTGTAGAGATAACAGAGGAATT
  AGCTACTCTTCCTAAAAGAGCTCAACTTGCTGCTGCATTTATTACATATCTTTCTGCTGCTCCTGAATCT
  CTGAGAAAAACCTGTTTGGAAGAATGGACCAAGTCAGCTGGTCTTGAGAAATTTGATCTGAGGAGATTTC
  TTTGTACTGAAAGTGAGCAGTTAATTTGGAAAAGTGAAGGCCTACCATCAGATGACCTTTCCATAGAAAA
  TGCTCTTGTAATATTACAGATCATTGGTTTGAAATCATGGAGTCGAGTGTGCCCATTTCTTATAGATCCT
  TCTTCCCAAGCTACAGAGTGGTTAAAAACACATTTGAAAGACTCACGTTTAGAAGTTATCAATCAGCAGG
  ATAGTAACTTTATCACAGCTCTTGAATTAGCAGTACGTTTTGGGAAAACCCTTATTATACAAGAGATGGA
  TGGTGTAGAACCTGTTCTTTATCCATTATTGAGACGAGATCTGGTTGCTCAAGGACCACGTTATGTGGTA
  CAAATAGGTGACAAAATTATTGACTACAATGAAGAATTCCGCCTCTTTTTGTCAACAAGAAACCCAAATC
  CTTTTATTCCACCGGATGCAGCTTCCATTGTTACTGAGGTTAACTTTACTACAACAAGAAGTGGATTACG
  AGGGCAGCTTTTAGCTTTAACCATTCAGCATGAGAAACCTGATTTAGAAGAACAGAAAACAAAACTATTA
  CAACAGGAAGAAGATAAGAAAATACAGCTAGCCAAGCTCGAAGAATCTCTTCTAGAGACACTTGCCACAT
  CTCAAGGCAATATTTTGGAAAATAAGGATTTGATTGAGTCTTTGAATCAGACAAAAGCAAGCAGTGCACT
  TATTCAAGAGTCACTTAAAGAATCTTACAAACTCCAAATTTCCCTTGATCAAGAACGGGATGCCTATCTC
  CCCCTGGCTGAGAGTGCCAGCAAGATGTACTTCATTATTTCTGATTTGTCCAAAATTAATAACATGTACC
  GTTTTAGTTTGGCTGCTTTTCTCCGACTTTTCCAACGAGCTCTACAAAACAAACAGGATTCTGAAAATAC
  AGAACAGAGAATCCAGTCACTTATCAGCTCATTACAACATATGGTATATGAATATATATGTCGTTGTCTA
  TTTAAGGCTGATCAGTTGATGTTCGCTTTGCATTTTGTTCGAGGCATGCATCCTGAACTTTTTCAAGAAA
  ATGAATGGGATACGTTTACAGGTGTGGTTGTTGGAGACATGTTACGGAAAGCTGACTCTCAACAAAAAAT
  ACGTGATCAGCTTCCGTCTTGGATAGATCAGGAACGAAGCTGGGCCGTGGCAACATTAAAGATTGCTCTC
  CCCAGTCTTTATCAGACCCTCTGCTTTGAAGATGCAGCTCTGTGGCGTACTTATTATAATAATTCAATGT
  GTGAGCAAGAGTTTCCATCTATCCTTGCAAAGAAAGTTTCCTTATTTCAGCAGATTCTTGTAGTACAGGC
  GCTAAGACCGGACAGATTGCAAAGTGCCATGGCTCTTTTTGCATGTAAAACTCTGGGACTGAAAGAGGTG
  TCCCCACTGCCTCTAAATCTCAAACGTTTATACAAAGAGACACTGGAAATTGAACCCATCTTGATAATTA
  TTTCTCCGGGTGCTGATCCTTCTCAGGAACTTCAAGAACTAGCTAATGCTGAAAGAAGCGGAGAGTGTTA
  TCACCAGGTTGCCATGGGTCAAGGTCAAGCTGATTTAGCAATTCAAATGCTAAAAGAATGTGCCCGCAAT
  GGAGACTGGCTCTGTTTGAAGAACTTACATCTTGTGGTATCTTGGCTGCCAGTTCTGGAAAAGGAATTGA
  ATACTCTTCAACCTAAAGATACCTTTCGTCTTTGGCTCACTGCAGAAGTTCATCCCAACTTTACTCCTAT
  TTTACTACAGTCAAGTCTGAAGATAACATATGAGTCACCTCCAGGTTTAAAGAAGAATTTAATGCGTACT
  TATGAGTCTTGGACTCCTGAGCAAATTAGCAAAAAAGATAATACACATCGAGCTCATGCTCTCTTCAGTC
  TTGCATGGTTTCATGCTGCATGTCAAGAAAGAAGAAACTATATTCCTCAGGGTTGGACAAAGTTTTATGA
  ATTTTCTTTATCAGATCTTCGGGCTGGGTACAACATTATTGACAGACTTTTTGATGGTGCCAAAGATGTA
  CAATGGGAATTTGTACATGGTTTACTTGAAAATGCTATTTATGGAGGACGTATAGACAACTATTTTGACC
  TTAGAGTTCTTCAGTCATACCTGAAGCAGTTTTTTAATTCTTCAGTTATTGATGTATTCAACCAAAGGAA
  CAAGAAAAGCATTTTTCCATATTCCGTATCTCTACCACAATCCTGCAGCATTTTGGACTATCGTGCTGTC
  ATTGAGAAAATTCCAGAGGACGACAAACCTAGTTTCTTTGGTCTGCCTGCCAATATCGCTCGCTCATCTC
  AGCGCATGATCAGTTCTCAGGTTATTTCACAGTTGAGGATTTTGGGCAGATCCATAACAGCTGGTTCCAA
  ATTTGATAGAGAAATCTGGTCTAATGAACTTTCTCCTGTCCTCAATCTCTGGAAGAAACTAAACCAGAAT
  TCAAACCTAATACATCAGAAAGTGCCTCCTCCTAACGATCGACAAGGATCTCCAATACTGTCATTCATCA
  TTCTTGAACAATTTAATGCTATTCGTTTAGTACAAAGTGTCCACCAGTCTCTTGCTGCTCTCAGCAAAGT
  CATCAGAGGAACTACTTTACTGAGTTCAGAAGTACAAAAATTGGCAAGTGCTTTATTAAACCAAAAGTGT
  CCTCTCGCATGGCAGAGCAAGTGGGAAGGCCCAGAAGATCCCTTACAATACCTGAGAGGTCTTGTTGCCC
  GTGCCCTTGCAATACAGAACTGGGTAGATAAAGCTGAAAAACAGGCTCTTCTCTCTGAAACACTTGACCT
  ATCAGAACTTTTCCATCCAGACACATTTCTTAATGCTCTTCGCCAGGAAACTGCAAGGGCAGTGGGTCGT
  TCTGTGGATAGCCTTAAATTTGTAGCCTCATGGAAAGGTCGACTGCAAGAAGCAAAGCTACAAATTAAGA
  TCAGTGGCTTGTTACTAGAAGGATGTAGTTTTGATGGAAATCAACTTTCTGAAAATCAGCTTGATTCTCC
  CAGCGTGTCATCAGTGCTCCCTTGTTTTATGGGCTGGATTCCACAGGATGCATGTGGTCCATATTCTCCG
  GATGAGTGCATCTCTTTGCCTGTTTACACAAGTGCTGAAAGGGATCGTGTGGTTACCAATATTGATGTTC
  CATGTGGGGGCAACCAAGACCAGTGGATTCAGTGTGGAGCAGCTCTATTCCTAAAAAATCAG
  
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
  Protein Sequence

  >RG235409 representing NM_001080463
  Red=Cloning site Green=Tags(s)
  
  MANGTADVRKLFIFTTTQNYFGLMSELWDQPLLCNCLEINNFLDDGNQMLLRVQRSDAGISFSNTIEFGD
  TKDKVLVFFKLRPEVITDENLHDNILVSSMLESPISSLYQAVRQVFAPMLLKDQEWSRNFDPKLQNLLSE
  LEAGLGIVLRRSDTNLTKLKFKEDDTRGILTPSDEFQFWIEQAHRGNKQISKERANYFKELFETIAREFY
  NLDSLSLLEVVDLVETTQDVVDDVWRQTEHDHYPESRMLHLLDIIGGSFGRFVQKKLGTLNLWEDPYYLV
  KESLKAGISICEQWVIVCNHLTGQVWQRYVPHPWKNEKYFPETLDKLGKRLEEVLAIRTIHEKFLYFLPA
  SEEKIICLTRVFEPFTGLNPVQYNPYTEPLWKAAVSQYEKIIAPAEQKIAGKLKNYISEIQDSPQQLLQA
  FLKYKELVKRPTISKELMLERETLLARLVDSIKDFRLDFENRCRGIPGDASGPLSGKNLSEVVNSIVWVR
  QLELKVDDTIKIAEALLSDLPGFRCFHQSAKDLLDQLKLYEQEQFDDWSRDIQSGLSDSRSGLCIEASSR
  IMELDSNDGLLKVHYSDRLVILLREVRQLSALGFVIPAKIQQVANIAQKFCKQAIILKQVAHFYNSIDQQ
  MIQSQRPMMLQSALAFEQIIKNSKAGSGGKSQITWDNPKELEGYIQKLQNAAERLATENRKLRKWHTTFC
  EKVVVLMNIDLLRQQQRWKDGLQELRTGLATVEAQGFQASDMHAWKQHWNHQLYKALEHQYQMGLEALNE
  NLPEINIDLTYKQGRLQFRPPFEEIRAKYYREMKRFIGIPNQFKGVGEAGDESIFSIMIDRNASGFLTIF
  SKAEDLFRRLSAVLHQHKEWIVIGQVDMEALVEKHLFTVHDWEKNFKALKIKGKEVERLPSAVKVDCLNI
  NCNPVKTVIDDLIQKLFDLLVLSLKKSIQAHLHEIDTFVTEAMEVLTIMPQSVEEIGDANLQYSKLQERK
  PEILPLFQEAEDKNRLLRTVAGGGLETISNLKAKWDKFELMMESHQLMIKDQIEVMKGNVKSRLQIYYQE
  LEKFKARWDQLKPGDDVIETGQHNTLDKSAKLIKEKKIEFDDLEVTRKKLVDDCHHFRLEEPNFSLASSI
  SKDIESCAQIWAFYEEFQQGFQEMANEDWITFRTKTYLFEEFLMNWHDRLRKVEEHSVMTVKLQSEVDKY
  KIVIPILKYVRGEHLSPDHWLDLFRLLGLPRGTSLEKLLFGDLLRVADTIVAKAADLKDLNSRAQGEVTI
  REALRELDLWGVGAVFTLIDYEDSQSRTMKLIKDWKDIVNQVGDNRCLLQSLKDSPYYKGFEDKVSIWER
  KLAELDEYLQNLNHIQRKWVYLEPIFGRGALPKEQTRFNRVDEDFRSIMTDIKKDNRVTTLTTHAGIRNS
  LLTILDQLQRCQKSLNEFLEEKRSAFPRFYFIGDDDLLEILGQSTNPSVIQSHLKKLFAGINSVCFDEKS
  KHITAMKSLEGEVVPFKNKVPLSNNVETWLNDLALEMKKTLEQLLKECVTTGRSSQGAVDPSLFPSQILC
  LAEQIKFTEDVENAIKDHSLHQIETQLVNKLEQYTNIDTSSEDPGNTESGILELKLKALILDIIHNIDVV
  KQLNQIQVHTTEDWAWKKQLRFYMKSDHTCCVQMVDSEFQYTYEYQGNASKLVYTPLTDKCYLTLTQAMK
  MGLGGNPYGPAGTGKTESVKALGGLLGRQVLVFNCDEGIDVKSMGRIFVGLVKCGAWGCFDEFNRLEESV
  LSAVSMQIQTIQDALKNHRTVCELLGKEVEVNSNSGIFITMNPAGKGYGGRQKLPDNLKQLFRPVAMSHP
  DNELIAEVILYSEGFKDAKVLSRKLVAIFNLSRELLTPQQHYDWGLRALKTVLRGSGNLLRQLNKSGTTQ
  NANESHIVVQALRLNTMSKFTFTDCTRFDALIKDVFPGIELKEVEYDELSAALKQVFEEANYEIIPNQIK
  KALELYEQLCQRMGVVIVGPSGAGKSTLWRMLRAALCKTGKVVKQYTMNPKAMPRYQLLGHIDMDTREWS
  DGVLTNSARQVVREPQDVSSWIICDGDIDPEWIESLNSVLDDNRLLTMPSGERIQFGPNVNFVFETHDLS
  CASPATISRMGMIFLSDEETDLNSLIKSWLRNQPAEYRNNLENWIGDYFEKALQWVLKQNDYVVETSLVG
  TVMNGLSHLHGCRDHDEFIINLIRGLGGNLNMKSRLEFTKEVFHWARESPPDFHKPMDTYYDSTRGRLAT
  YVLKKPEDLTADDFSNGLTLPVIQTPDMQRGLDYFKPWLSSDTKQPFILVGPEGCGKGMLLRYAFSQLRS
  TQIATVHCSAQTTSRHLLQKLSQTCMVISTNTGRVYRPKDCERLVLYLKDINLPKLDKWGTSTLVAFLQQ
  VLTYQGFYDENLEWVGLENIQIVASMSAGGRLGRHKLTTRFTSIVRLCSIDYPEREQLQTIYGAYLEPVL
  HKNLKNHSIWGSSSKIYLLAGSMVQVYEQVRAKFTVDDYSHYFFTPCILTQWVLGLFRYDLEGGSSNHPL
  DYVLEIVAYEARRLFRDKIVGAKELHLFDIILTSVFQGDWGSDILDNMSDSFYVTWGARHNSGARAAPGQ
  PLPPHGKPLGKLNSTDLKDVIKKGLIHYGRDNQNLDILLFHEVLEYMSRIDRVLSFPGGSLLLAGRSGVG
  RRTITSLVSHMHGAVLFSPKISRGYELKQFKNDLKHVLQLAGIEAQQVVLLLEDYQFVHPTFLEMINSLL
  SSGEVPGLYTLEELEPLLLPLKDQASQDGFFGPVFNYFTYRIQQNLHIVLIMDSANSNFMINCESNPALH
  KKCQVLWMEGWSNSSMKKIPEMLFSETGGGEKYNDKKRKEEKKKNSVDPDFLKSFLLIHESCKAYGATPS
  RYMTFLHVYSAISSSKKKELLKRQSHLQAGVSKLNEAKALVDELNRKAGEQSVLLKTKQDEADAALQMIT
  VSMQDASEQKTELERLKHRIAEEVVKIEERKNKIDDELKEVQPLVNEAKLAVGNIKPESLSEIRSLRMPP
  DVIRDILEGVLRLMGIFDTSWVSMKSFLAKRGVREDIATFDARNISKEIRESVEELLFKNKGSFDPKNAK
  RASTAAAPLAAWVKANIQYSHVLERIHPLETEQAGLESNLKKTEDRKRKLEELLNSVGQKVSELKEKFQS
  RTSEAAKLEAEVSKAQETIKAAEVLINQLDREHKRWNAQVVEITEELATLPKRAQLAAAFITYLSAAPES
  LRKTCLEEWTKSAGLEKFDLRRFLCTESEQLIWKSEGLPSDDLSIENALVILQIIGLKSWSRVCPFLIDP
  SSQATEWLKTHLKDSRLEVINQQDSNFITALELAVRFGKTLIIQEMDGVEPVLYPLLRRDLVAQGPRYVV
  QIGDKIIDYNEEFRLFLSTRNPNPFIPPDAASIVTEVNFTTTRSGLRGQLLALTIQHEKPDLEEQKTKLL
  QQEEDKKIQLAKLEESLLETLATSQGNILENKDLIESLNQTKASSALIQESLKESYKLQISLDQERDAYL
  PLAESASKMYFIISDLSKINNMYRFSLAAFLRLFQRALQNKQDSENTEQRIQSLISSLQHMVYEYICRCL
  FKADQLMFALHFVRGMHPELFQENEWDTFTGVVVGDMLRKADSQQKIRDQLPSWIDQERSWAVATLKIAL
  PSLYQTLCFEDAALWRTYYNNSMCEQEFPSILAKKVSLFQQILVVQALRPDRLQSAMALFACKTLGLKEV
  SPLPLNLKRLYKETLEIEPILIIISPGADPSQELQELANAERSGECYHQVAMGQGQADLAIQMLKECARN
  GDWLCLKNLHLVVSWLPVLEKELNTLQPKDTFRLWLTAEVHPNFTPILLQSSLKITYESPPGLKKNLMRT
  YESWTPEQISKKDNTHRAHALFSLAWFHAACQERRNYIPQGWTKFYEFSLSDLRAGYNIIDRLFDGAKDV
  QWEFVHGLLENAIYGGRIDNYFDLRVLQSYLKQFFNSSVIDVFNQRNKKSIFPYSVSLPQSCSILDYRAV
  IEKIPEDDKPSFFGLPANIARSSQRMISSQVISQLRILGRSITAGSKFDREIWSNELSPVLNLWKKLNQN
  SNLIHQKVPPPNDRQGSPILSFIILEQFNAIRLVQSVHQSLAALSKVIRGTTLLSSEVQKLASALLNQKC
  PLAWQSKWEGPEDPLQYLRGLVARALAIQNWVDKAEKQALLSETLDLSELFHPDTFLNALRQETARAVGR
  SVDSLKFVASWKGRLQEAKLQIKISGLLLEGCSFDGNQLSENQLDSPSVSSVLPCFMGWIPQDACGPYSP
  DECISLPVYTSAERDRVVTNIDVPCGGNQDQWIQCGAALFLKNQ
  
  TRTRPLE - GFP Tag - V
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001080463
• ORF Size: 12942 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_001080463.2
• RefSeq Size: 13699 bp
• RefSeq ORF: 12945 bp
• Locus ID: 79659
• UniProt ID: Q8NCM8
• Cytogenetics: 11q22.3
• Gene Summary: This gene encodes a large cytoplasmic dynein protein that is involved in retrograde transport in the cilium and has a role in intraflagellar transport, a process required for ciliary/flagellar assembly. Mutations in this gene cause a heterogeneous spectrum of conditions related to altered primary cilium function and often involve polydactyly, abnormal skeletogenesis, and polycystic kidneys. Alternative splicing results in multiple transcript variants encoding distinct proteins. [provided by RefSeq, Jan 2010]