DNAH6 (NM_001370) Human Tagged ORF Clone

CAT#: RG235407

DNAH6 (tGFP-tagged) - Homo sapiens dynein, axonemal, heavy chain 6 (DNAH6)

Product Images

Circular map for RG235407

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: TurboGFP
• Symbol: DNAH6
• Synonyms: Dnahc6; DNHL1; HL-2; HL2
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG235407 representing NM_001370
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGACTTTTCGGGCCACAGATAGTGAATTTGACCTGACAAATATTGAAGAGTATGCCGAAAATTCTGCAC
  TTTCAAGACTGAATAATATAAAAGCCAAACAAAGAGTGAGTTATGTGACATCCACAGAAAATGAATCTGA
  TACACAAATCCTAACGTTTAGGCACATTACAAAAGCTCAGGAGAAGACAAGAAAACGACAGCAGCCTATA
  AAACTAGAGCCTTTGCCAGTGCTAAAAGTCTACCAAGATCATAAGCAGCCAGAATACATACATGAACAGA
  ACCGATTTCAGTTAATGACTGCAGGAATCATTAAACGTCCAGTAAGCATAGCAAAAAAAAGTTTTGCCAC
  ATCATCTACTCAGTTTCTTGAGCATCAAGATGCTGTGAAAAAAATGCAGATTCATCGGCCCTATGTTGAG
  GTGTTCTCTCCCTCTCCTCCTAAACTGCCACATACTGGTATTGGAAAAAGAGGTCTCTTTGGGACTAGAT
  CTTCAGCTTACCCTAAGTACACTTTTCACGACCGAGAAGAAGTTGTTAAAGCCAACATTCGTGATCCCTT
  GCAAATCATTAAAATAATACGTGAAAATGAACATCTTGGATTTCTTTATATGATCCCTGCAGTGCCAAGA
  TCATCCATTGAATATGATACATATAATCTAAAAGTTGTAAGTTATGAGAACATCAATAAAAATGACTACT
  ATACTATTAGCCAAAGGGCAGTAACACACATTTATAATGAAGACATTGAATTTATCGAAATTGATCGATG
  GGAACAGGAATATCTGTATCACAGAGAACTCACTAAGATTCCCATATTTTCACTGTTCCGGAAATGGAAG
  GCTTTTAGTGTATGGAGGAAGAATGTCCGCTCCAAGAAAATCACTGGATGTCAAAAATCTCTACAAAAAA
  ATTTGTTCATTGTTAATCCTCATTTGCGACCAGCTCTTCTTAAAATAAATGAATTGTGTTATCATTTGAG
  TTTTATGGGACTTTGTTATATTGAAAAGTGTCACACCTACACCCTGCAGGAATTTAAGGCCGCACAAGTC
  ATACGGCTAGCAGAGGTGACAGAACGCCTAGGAGAATTTCGAAATGAGGCAAAATATGTAGTCAGGAGGG
  CTTGTCGATTTGCTTTGCGTGCTGCAGGATTTGTTCCTGATGACTGTGCATTTGGACCTTTTGAGGATTA
  TCATAAAGTGCAGAGCAGTGGAAGTTTCATTAATACACCACATGAGTTGCCCACTTATGGAGACTCTGAG
  AAAATGACATATACAGAACAGGCCAGCAAAAGGCATTATTGCATGAGGCTGACGTGCTTTATTCGTCTAA
  ACGACTATCTAATTGAGAACACAATGCACATCTTAACGGTAAATGCTGTTAATTCGCTTTTGAACCATCT
  CACTGACAAGCTAAAACGAACACCTTCAGCAGATGTCATTCAGAAATGGATTACTGAAGAGAAGCCTGAA
  GTCCCTGATAAAAAGGGGACCCTTATGGTGGAAAAGCAAGAAGAAGATGAATCTCTCATCCCCATGTTTC
  TCACAGAACTAATGTTGACAGTCCAGTCACTGCTCTTTGAGCCTTCTCTGGAAGACTTTCTGGATGGTAT
  TTTGGGTGCAGTTAATCACTGTCAAAACACTGTGTTATCAGTTCCTAATCTCGTGCCTGATTCGTATTTT
  GATGCTTTCACCAGCCCTTATATTAACAACAAACTTGAAGGAAAAACCTGTGGAACTGGGCCAAGTTTAG
  CAGCAGTATTTGAGGATGATAAGAATTTTCACACAATTATTTCTCAAATAAAGGAAACCATTCAGGCCGC
  ATTTGAATCAGCCCGCATCTATGCAGCTACCTTTGAAAAGTTCCAGATATTCTTCAAGGAAAATGAAAGT
  CTTGATTTACAAGCTCTTAAACTTCAGGAACCTGATATTAACTTTTTTAGTGAACAACTGGAAAAATATC
  ACAAACAGCACAAGGACGCAGTAGCGCTCAGACCCACCAGAAATGTAGGATTGCTGCTCATTGATACTAG
  GCTTCTAAGAGAAAAATTAATTCCATCACCTTTGCGATGCTTAGAGGTGCTAAATTTTATGCTTCCTCGT
  CAAAGCAAGAAAAAAGTGGATGCCATTATCTTTGAGGCACAAGATGCAGAGTATAAACTTGAGTTTGTTC
  CAACTACTACCACAGAATATGTTCATAGCTTATTATTTCTTGATGAAATTCAGGAACGGATTGAAAGCCT
  TGAAGATGAGGGGAATATAGTGACTCAAATGTACAAGCTTATGGAACAATATCAGGTGCCCACACCTCCT
  GAAGACTTTGCTGTTTTTGCAACTATGAAGCCATCCATTGTTGCTGTTCGGAATGCCATTGATAAATCAG
  TGGGTGATAGAGAATCAAGCATTAAGCAATTTTGTGTGCATTTGGGTAGTGATCTTGAAGAATTAAACAA
  CGAAGTGAATGAAGTAAAACTGCAAGCACAGGATCCACAGATTTTAGATATCTCTGCTGACCAAGACAAA
  ATAAGGCTCATATTGAATAATCTGCAATCTGTTCTGGCTGATCTTCAGAAACGTGCATTTCAGTATAAGT
  CCTATCAGAAGAATTTTAAGGTAGAAGTGTCCAAGTTTGAAGCTTTGGAAGAAGTCAGTGCTGAACTGAA
  GCTCAAACAATTGCTCTGGGATTCTTTCTCTGAATGGGATAAACTCCAACAAGAATGGTTAAAGTCCAAA
  TTTGATTGCCTGGATCCAGAAGTCCTAAACGGTCAAGTTTCTAAATATGCTAAATTTGTGACTCAACTGG
  AAAAAGGCTTGCCACCCAACAGTGTAGTGCCCCAGCTCAAATACAAGGTGGAAAAAATGAAAGAAAAGCT
  TCCAGTTATCATTGACTTGAGGAACCCGACTTTGAAGGCAAGACATTGGGCAGCTATTGAACAAACAGTT
  GATGCCACTCTAGTGGATGCTGAAATTCCATTAACCTTGGAGAGGCTCTCCCAGTTGCATGTTTTTGACT
  TTGGTCAAGAAATCCAGGACATATCTGGACAGGCTTCTGGAGAAGCTGCCTTAGAAGCAATTCTTAAAAA
  GGTGGAGGACTCTTGGAAAACAACTGAATTTGTCATTCTGCCTCACCGTGACTCCAAAGATGTGTTTATA
  CTGGGCGGCACAGATGACATACAGGTCCTTCTTGATGATAGCACCATCAATGTTGCAACTCTTGCCTCAT
  CACGTTACCTTGGTCCACTGAAAACTCGAGTGGATGAATGGCAAAAACAACTTGCTTTATTTAATCAAAC
  ACTGGAAGAGTGGCTGACCTGCCAGAGAAACTGGCTCTACCTAGAAAGTATTTTCAATGCTCCAGACATT
  CAGAGGCAATTGCCTGCAGAGGCCAAGATGTTCCTTCAGGTGGATAAGTCATGGAAAGAAATCATGAGAA
  AGGTGAATCGGCTGCCTAATGCTCTTCGAGCCGCTACTCAGCCAGGACTTCTGGAAACTTTTCAAAACAA
  TAATGCATTACTTGACCAAATTCAGAAGTGCCTAGAGGCATACTTAGAATCAAAAAGAGTTATCTTTCCA
  AGGTTTTACTTCTTGTCAAATGATGAACTTCTGGAGATTTTGGCCCAGACACGAAATCCACAGGCCGTGC
  AGCCACACTTAAGGAAATGCTTCGACTCCATTTCAAAGCTCGAATTTGCTCTCATGCCTCCTGCCGAAGG
  AAAGATTCCTGGTATTGATGGAGAACCAGAAAAGGTTTATACTAATGATATTTTAGCAATGCTGTCACCA
  GAGGGAGAAAGGGTTAGCTTGGGGAAAGGCCTCAAGGCCCGAGGCAATGTAGAGGAATGGCTTGGTAAAG
  TGGAAGAAGCCATGTTCACATCTCTGCGTCGCCTGTGCAAAGCTGCCATCGCTGACTATCAGGGGAAACT
  GAGGACAGACTGGGTGGTTGCTGGCCACCCTTCTCAAGTTATCCTGACTGTTTCTCAAATTATGTGGTGC
  CGTGATTTGACTGAATGTCTGGAAACAGAACACAGTAATCATATACAGGCCCTGAAGAATTTTGAAAAAG
  TAAATTTTGAGAGATTAAATGCCCTAGCTGCAATAGTTCAAGGCAGTCTTCCTAAATTACACAGAAACAT
  CCTAACTGCATTGATTACTATTGATGTGCATGCAAGAGATATAGTCACTGAACTTGTTCAATCCAAGGTG
  GAGACAGTTGAATCTTTTGACTGGCAGAGACAACTGCGCTATTACTGGGATATAGACCTGGATAATTGTG
  TGGCTAGAATGGCGCTCTCTCAGTACACTTATGGCTATGAATATTTGGGTGCATGCCCAAGATTGGTTAT
  TACTCCACTCACAGATCGCTGCTATCTTTGCCTCATGGGAGCTTTGCAGCTTGACCTTGGGGGTGCACCA
  GCTGGTCCTGCTGGCACTGGGAAAACAGAGACTACCAAAGATCTGGCAAAAGCTCTTGCCATCCAGTGTG
  TGGTCTTTAACTGTTCAGATGGTTTGGACTACAAGATGATGGGGCGCTTCTTCAGTGGCTTGGCACAGTC
  AGGGGCCTGGTGCTGCTTTGATGAATTTAATCGAATTGACATAGAAGTTCTGTCCGTCATCGCGCAGCAA
  CTCATTACCATTAGGAACGCCAAAGCGGCAAAGCTCTCTAGATTCATGTTTGAGGGGCGGGAAATAAAGT
  TGGTGATGACTTGTGCAGCCTTCATCACAATGAATCCTGGCTATGCAGGGAGAACTGAATTGCCAGATAA
  TTTGAAAGCCCTGTTTAGACCATTTGCGATGATGGTTCCAAATTATGCCTTGATTGCAGAGGTAATTCTA
  TATTCTGAAGGATTTGAATCCAGTAAAATATTAGCAAGAAAAATGACTCAGATGTATAAGCTTTGCAGTG
  AGCAGCTGTCTCAGCAGGATCACTACGACTTTGGCATGAGAGCTGTGAAGTCTGTCCTGGTCATGGCTGG
  ATCTTTAAAAAGAGAAAACCCAGACCTAAATGAAGATGTGGTGTTGATAAGAGCTTTACAAGACTCCAAT
  TTGCCAAAATTTCTAACAGATGATGCTCTTCTGTTCAGTGGAATCATATCTGACCTTTTTCCTGGAGTCC
  AAATTCCAGAACATGATTATGGTATTTTACAATCAACAATTGTGGATGTCATGAATAGACAAAATCTTCA
  GCCTGAGATGTGTATGGTTAGAAAGGTGATACAGTTTTATGAAACTATGCTAGTAAGGCATGGTGTTATG
  TTAGTCGGGCCAACAGGAGGCGGCAAGACCACAGTTTACCGAATACTAGCAGAAACTTTAGGGAATTTAC
  AAAAACTTGGGATAGAAAATTCCTTTTACCAAGCAGTTAAAACATATGTTCTCAACCCTAAATCAATTAC
  CATGGGTGAATTATATGGAGAGGTTAATAACTTAACCTTGGAATGGAAAGATGGTTTGATGGCACTAAGT
  GTCCGAGCAGCTGTGAATGATACTTCAGAAGACCATAAATGGATCATCAGTGATGGGCCAGTAGATGCTC
  TTTGGATTGAAAACATGAATACAGTGCTGGATGATAACAAGATGCTTTGCCTGGCTAACAGTGAGAGGAT
  TAAACTCACACCTCAAATTCACATGCTTTTTGAGGTGCAAGATCTGCGGGTTGCCTCCCCTGCAACAGTC
  AGTCGATGTGGAATGGTGTTTGTGGATCCTGAAGAACTGAAATGGATGCCTTATGTTAAAACTTGGATGA
  AGGGTATTTCTAAAAAACTGACTGAGGAAACCCAAGAATATATATTGAATCTTTTCCAACGTTATGTTGA
  TGAAGGTTTACATTTTATCAATAAAAAGTGCAGCCAAGCAATTCCACAAGTGGACATCAGCAAAGTTACT
  ACACTCTGTTGCTTATTGGAGTCCTTGATACTTGGGAAAGATGGAGTTAACTTGGCAATGGAACAAACAA
  AATTGAACACTATACTATGTCAGACTTTTGTATTCTGTTATTTGTGGTCTTTGGGTGGAAACCTAACTGA
  AAACTACTATGATTCTTTTGATACATTTATTAGAACACAATTTGATGATAATCCTGATGCCAGGCTTCCC
  AATTCTGGTGATCTGTGGAGCATTCATATGGACTTTGACACCAAACGGCTGGATCCCTGGGAACGAATCA
  TACCTACTTTCAAATACAACCGAGATGTTCCATTTTTTGAAATGCTTGTCCCCACAACTGACACAGTGCG
  CTATGGGTATCTAATGGAAAAACTACTGGCAGTCAAGCATTCCGTGTTGTTTACTGGAATAACTGGAGTG
  GGCAAGTCTGTGATTGCAAAAGGATTGCTAAATAAAATTCAAGAATCAGCTGGCTATGTCCCTGTTTATC
  TAAATTTTTCTGCTCAAACTTCATCTGCAAGGACACAAGAGATCATTGAGTCAAAACTGGAGAGAAAAAG
  AAAAAATATTCTAGGAGCACCGGGAAACAAACGAATTGTGATTTTTGTTGATGATTTAAACATGCCCAGA
  CTGGATCGCTATGGCTCTCAGCCTCCGATTGAATTACTTCGGCAGTATCAAGATTTTGGGGGATTTTATG
  ACAGAAACAAACTGTTTTGGAAAGAAATACAGGATGTAACAATCATATCGGCATGTGCACCTCCAGGCGG
  TGGCCGCAACCCTGTGACTCCCCGCTTCATCAGACACTTCAGCATGCTGTGCCTCCCAATGCCCTCAGAG
  CACAGTCTGAAACAGATTTTTCAGGCCATCTTAAATGGTTTCCTGAGTGACTTTCCACCAGCTGTAAAGC
  AAACTGCATCAAGCATTGTAGAAGCCTCAGTTGAGATTTATAACAAAATGAGTGTTGACCTCCTGCCAAC
  ACCCGCCAAGTCCCATTATGTCTTTAACTTGAGGGACTTATCCAAATGTGTGCAAGGTATCCTCCAATGT
  GATCCAGGAACAATAAGAGAAGAAATTCAGATATTTAGACTCTTTTGCCATGAGTGCCAAAGGGTCTTCC
  ATGATCGCTTGATTAATAATGAAGATAAGCACTATTTCCATGTTATTCTGACAGAAATGGCCAACAAACA
  TTTTGGAATTGCAATTGACCTGGAATATTTTTTGAATAAGCCCATCATATTTGGAGATTTCATTAAGTTT
  GGAGCAGATAAAGCTGATCGGATTTATGATGACATGCCTGATATAGAGAAAACTGCAAATGTTCTACAGG
  ACTATCTTGATGATTATAATCTCACAAATCCCAAAGAAGTAAAGTTGGTGTTCTTCCAGGATGCTATAGA
  ACATGTTTCAAGGATTGCTCGGATGATACGTCAAGAAAGAGGCAATGCCCTGCTTGTTGGAGTAGGAGGC
  ACAGGAAAGCAGTCACTCACGAGACTTGCAGCTCATATATGCGGTTACAAATGTTTGCAGATTGAACTCA
  GCCGGGGATATAATTATGATAGTTTTCATGAAGACCTGAGGAAGTTGTACAAAATGGCTGGTGTAGAAGA
  CAAGAATATGGTTTTCCTTTTCACTGACACCCAGATTGTAGTGGAGGAGTTCCTAGAAGATATAAATAAC
  ATCCTGAACTCAGGTGAAGTGCCTAATTTATTTGAAAAGGATGAACTGGAGCAGGTTTTAGCGGCCACCA
  GACCAAGAGCAAAAGAAGTAGGAATTTCTGAGGGGAACAGAGACGAGGTGTTTCAATACTTTATCAGCAA
  AGTGCGTCAGAAGCTGCACATTGTTCTCTGCATGAGCCCAGTTGGGGAGGCCTTTCGGTCCCGATGCAGG
  ATGTTTCCATCCCTTGTGAATTGCTGCACCATTGACTGGTTTGTGCAGTGGCCCAGAGAAGCACTTCTTT
  CTGTGTCAAAGACATTTTTCTCACAAGTCGATGCTGGAAATGAAGAACTGAAAGAAAAGCTTCCCTTGAT
  GTGCGTGAACGTTCACTTGAGTGTCTCCAGCATGGCAGAGCGCTATTACAATGAGCTGCGCAGGCGGTAC
  TACACGACACCCACCTCCTACCTGGAGCTTATCAATCTTTACCTGTCTATGCTGTCTGAAAAAAGGAAGC
  AGATTATTTCAGCACGAGATCGGGTGAAGAATGGTCTCACCAAGCTACTAGAAACAAACATACTAGTAGA
  TAAAATGAAACTAGATCTTTCAGCTTTAGAGCCTGTACTTTTAGCAAAATCAGAAGATGTTGAAGCCCTG
  ATGGAAAAATTGGCAGTGGATCAAGAAAGTGCCGATCAGGTCCGTAACACTGTGCAGGAGGATGAAGCAA
  CAGCAAAAGTCAAAGCTGAAGAAACCCAAGCAATAGCTGATGATGCTCAAAGAGATCTTGACGAGGCACT
  ACCTGCACTAGATGCTGCCAATAAAGCACTGGATTCCTTAGATAAGGCAGATATATCTGAAATCAGAGTT
  TTTACAAAGCCCCCAGATTTGGTCATGACAGTAATGGAAGCAATCTCCATTCTTTTGAATGCCAAGCCTG
  ATTGGCCATCAGCAAAGCAACTTCTTGGTGACTCTAACTTTCTAAAAAGGCTTTTAGAATATGATAAGGA
  GAACATAAAGCCTCAGATATTGGCAAAGCTTCAAAAGTATATTAATAATCCTGATTTTGTGCCTGAAAAA
  GTGGAGAAAGTGTCCAAAGCATGTAAATCTATGTGCATGTGGGTAAGAGCTATGGATTTGTACTCTCGAG
  TGGTCAAGGTCGTCGAACCAAAAAGACAAAAGCTCCGCGCCGCACAGGCTGAACTTGACATTACCATGGC
  TACCCTGAGAGAAAAGCAAGCATTACTAAGACAAGTAGAAGATCAAATACAGGCCTTACAAGATGAATAT
  GACAAAGGTGTAAATGAAAAAGAAAGCCTGGCAAAGACCATGGCCCTGACAAAAGCACGTCTAGTACGTG
  CTGGAAAGCTGACAGCAGCATTAGAAGATGAGCAGGTTCGATGGGAAGAAAGCATACAGAAGTTTGAGGA
  AGAAATATCAAATATCACTGGGAACGTGTTCATAGCAGCAGCTTGTGTGGCCTACTATGGGGCTTTCACA
  GCCCAGTACAGGCAGTCACTTATAGAGTGTTGGATCCAGGACTGTCAGTCTCTGGAGATCCCAATCGATC
  CTTCCTTCAGTCTCATTAACATTCTTGGAGATCCCTACGAGATACGGCAGTGGAACACTGATGGGCTGCC
  CCGTGACTTGATATCAACAGAAAATGGCATTTTGGTTACTCAAGGCAGAAGATGGCCTTTGATGATTGAT
  CCCCAAGATCAGGCAAACCGTTGGATAAGGAACAAGGAAAGCAAAAGTGGTTTAAAGATCATTAAGCTTA
  CAGATAGTAATTTCTTACGAATACTCGAGAATTCAATCCGACTTGGTTTACCTGTCTTACTGGAAGAGCT
  TAAGGAAACCTTGGATCCAGCTCTAGAACCCATTCTTTTGAAACAAATTTTTATCAGTGGTGGCCGACTA
  CTCATCCGTCTTGGAGACTCAGACATTGATTATGACAAAAACTTTAGGTTCTATATGACAACCAAAATGC
  CAAATCCCCACTATCTGCCTGAGGTATGCATTAAAGTTACCATTATCAATTTCACTGTAACAAAATCAGG
  CCTGGAGGATCAGTTGTTAAGTGATGTGGTGCGACTTGAAAAACCCAGGTTGGAAGAACAAAGAATTAAG
  CTCATCGTGAGGATCAACACTGATAAAAACCAGTTGAAAACTATCGAAGAGAAAATCCTGAGAATGCTCT
  TTACCTCTGAAGGAAATATTCTGGACAATGAAGAACTTATTGACACACTCCAGGATTCAAAGATCACTTC
  TGGTGCCATTAAAACCAGGCTGGAAGAAGCAGAGTCCACTGAGCAGATGATCAATGTGGCTCGTGAGAAG
  TATCGTCCAGTGGCCACTCAAGGCTCTGTAATGTACTTTGTCATTGCAAGCCTCTCAGAAATAGATCCTA
  TGTACCAGTACTCATTAAAATACTTTAAACAGTTGTTCAATACCACCATTGAAACTTCTGTAAAGACAGA
  AAATCTACAACAGCGCCTGGACGTACTACTAGAACAAACTCTCCTAACTGCTTATGTCAATGTTTCAAGA
  GGACTTTTTGAGCAACATAAACTCATCTACAGCTTTATGCTTTGTGTTGAGATGATGCGTCAGCAAGGAA
  CCCTATCTGATGCTGAATGGAATTTCTTTCTCCGAGGTTCTGCAGGATTGGAAAAGGAACGCCCACCTAA
  GCCTGAAGCTCCCTGGCTACCTACTGCTACATGGTTCGCATGCTGTGACTTGGAAGAATCATTTCCAGTT
  TTTCACGGACTTACCCAAAATATATTGTCACATCCTATTTCCATACGCTTAGGATCTTTTGAGACTTATA
  TTAACCCACAGAAATGGGAAGGCTATTCTAAAATGAAACACGAAGATAAACACATGAGACAGGAAAAGGA
  GGCAGCACACCAAGATCCATGGAGTGCAGGATTGAGTTCTTTCCATAAGCTAATTCTTATTAAATGTTGT
  AAAGAAGAAAAGGTGGTTTTTGCTCTTACAGACTTTGTGATAGAAAATCTTGGAAAACAGTTTATAGAGA
  CACCACCTGTGGACCTGCCTACCCTGTATCAAGACATGTCATGCAACACTCCCCTGGTATTCATCCTAAG
  CACAGGCTCAGATCCCATGGGTGCATTTCAGAGGTTTGCCAGGGAAAGTGGATATTCAGAACGGGTGCAG
  TCAATTTCACTGGGGCAAGGACAAGGACCTATTGCTGAAAAAATGGTCAAGGATGCAATGAAATCAGGAA
  ACTGGGTATTTTTGCAAAATTGCCATCTTGCTGTTTCTTGGATGTTGGCAATGGAAGAGCTCATTAAAAC
  CTTCACAGATCCAGATAGTGCTATCAAGGACACTTTTCGACTTTTTTTAAGCTCCATGCCTAGTAATACA
  TTTCCTGTTACAGTTCTTCAAAATTCTGTCAAGGTGACCAATGAGCCTCCAAAAGGCTTACGTGCAAATA
  TCAGACGAGCATTTACTGAAATGACACCTTCGTTTTTTGAAGAAAATATACTTGGAAAAAAATGGAGACA
  AATAATATTTGGCATTTGTTTCTTCCATGCAATTATTCAGGAGAGAAAGAAGTTTGGCCCCCTTGGTTGG
  AATATCTGCTATGAATTTAATGACAGTGACAGGGAATGTGCTTTACTGAATCTCAAACTCTATTGTAAAG
  AAGGAAAGATTCCCTGGGATGCACTAATTTACATTACTGGTGAAATTACTTATGGTGGTAGAGTCACAGA
  CAGCTGGGACCAAAGATGCCTTCGTACTATCTTGAAAAGATTTTTTTCTCCTGAAACATTAGAAGAAGAT
  TATAAATACTCTGAATCAGGCATCTATTTTGCACCCATGGCTGACAGCCTACAAGAGTTTAAGGACTACA
  TTGAAAATCTGCCTTTGATCGATGACCCAGAAATTTTTGGAATGCATGAAAATGCTAATCTAGTCTTCCA
  GTACAAAGAGACCAGCACTTTAATCAACACCATACTTGAGGTTCAGCCAAGGTCATCTACTGGTGGAGAG
  GGAAAAAGCAATGACGAAATTGTTCAAGAACTTGTTGCTTCTGTCCAGACCAGAGTTCCAGAAAAACTGG
  AAATGGAGGGTGCTTCTGAGAGCCTTTTTGTCAAGGATCTTCAAGGACGTCTGAACTCCTTGACCACCGT
  TCTTGGACAGGAAGTGGACCGGTTTAACAACCTGCTGAAGTTAATTCATACTTCTCTGGAAACACTCAAC
  AAAGCCATCGCTGGATTTGTGGTGATGTCTGAAGAAATGGAAAAAGTGTATAACAGTTTCCTCAACAACC
  AGGTTCCCGCTCTGTGGTCCAACACAGCCTACCCATCCCTGAAGCCACTAGGATCATGGGTCAAAGACCT
  TATCCTGAGGACCTCATTTGTGGATCTGTGGCTCAAAAGAGGACAGCCTAAGTCCTACTGGATCTCTGGT
  TTCTTCTTTCCTCAAGGATTTCTAACAGGAACTCTTCAAAATCATGCTCGAAAATACAATTTGCCTATAG
  ATGAGCTGAGTTTCAAATACAGCGTAATTCCCACCTATCGGGATCAAGCTGCAGTGATAGAAGCTGCCAA
  GACAGTGCAATTTGGACAAGAACTGCCCATGGACATGGAGTTGCCCTCTCCTGAGGATGGTGTTCTTGTT
  CATGGGATGTTCATGGATGCTTCTCGATGGGATGATAAGGAGATGGTGATAGAAGATGCATTGCCCGGAC
  AGATGAATCCAGTGCTGCCTGTGGTGCATTTTGAACCACAACAAAACTATAAGCCAAGCCCAACACTTTA
  CCACTGCCCACTTTATAAAACAGGAGCCCGGGCAGGAACACTCTCAACCACAGGACATTCAACCAATTTT
  GTGGTAACCGTCCTGTTACCCTCCAAGCGGTCCAAAGACTACTGGATTGCCAAGGGATCAGCTTTGCTCT
  GCCAGCTGAGCGAA
  
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
  Protein Sequence

  >RG235407 representing NM_001370
  Red=Cloning site Green=Tags(s)
  
  MTFRATDSEFDLTNIEEYAENSALSRLNNIKAKQRVSYVTSTENESDTQILTFRHITKAQEKTRKRQQPI
  KLEPLPVLKVYQDHKQPEYIHEQNRFQLMTAGIIKRPVSIAKKSFATSSTQFLEHQDAVKKMQIHRPYVE
  VFSPSPPKLPHTGIGKRGLFGTRSSAYPKYTFHDREEVVKANIRDPLQIIKIIRENEHLGFLYMIPAVPR
  SSIEYDTYNLKVVSYENINKNDYYTISQRAVTHIYNEDIEFIEIDRWEQEYLYHRELTKIPIFSLFRKWK
  AFSVWRKNVRSKKITGCQKSLQKNLFIVNPHLRPALLKINELCYHLSFMGLCYIEKCHTYTLQEFKAAQV
  IRLAEVTERLGEFRNEAKYVVRRACRFALRAAGFVPDDCAFGPFEDYHKVQSSGSFINTPHELPTYGDSE
  KMTYTEQASKRHYCMRLTCFIRLNDYLIENTMHILTVNAVNSLLNHLTDKLKRTPSADVIQKWITEEKPE
  VPDKKGTLMVEKQEEDESLIPMFLTELMLTVQSLLFEPSLEDFLDGILGAVNHCQNTVLSVPNLVPDSYF
  DAFTSPYINNKLEGKTCGTGPSLAAVFEDDKNFHTIISQIKETIQAAFESARIYAATFEKFQIFFKENES
  LDLQALKLQEPDINFFSEQLEKYHKQHKDAVALRPTRNVGLLLIDTRLLREKLIPSPLRCLEVLNFMLPR
  QSKKKVDAIIFEAQDAEYKLEFVPTTTTEYVHSLLFLDEIQERIESLEDEGNIVTQMYKLMEQYQVPTPP
  EDFAVFATMKPSIVAVRNAIDKSVGDRESSIKQFCVHLGSDLEELNNEVNEVKLQAQDPQILDISADQDK
  IRLILNNLQSVLADLQKRAFQYKSYQKNFKVEVSKFEALEEVSAELKLKQLLWDSFSEWDKLQQEWLKSK
  FDCLDPEVLNGQVSKYAKFVTQLEKGLPPNSVVPQLKYKVEKMKEKLPVIIDLRNPTLKARHWAAIEQTV
  DATLVDAEIPLTLERLSQLHVFDFGQEIQDISGQASGEAALEAILKKVEDSWKTTEFVILPHRDSKDVFI
  LGGTDDIQVLLDDSTINVATLASSRYLGPLKTRVDEWQKQLALFNQTLEEWLTCQRNWLYLESIFNAPDI
  QRQLPAEAKMFLQVDKSWKEIMRKVNRLPNALRAATQPGLLETFQNNNALLDQIQKCLEAYLESKRVIFP
  RFYFLSNDELLEILAQTRNPQAVQPHLRKCFDSISKLEFALMPPAEGKIPGIDGEPEKVYTNDILAMLSP
  EGERVSLGKGLKARGNVEEWLGKVEEAMFTSLRRLCKAAIADYQGKLRTDWVVAGHPSQVILTVSQIMWC
  RDLTECLETEHSNHIQALKNFEKVNFERLNALAAIVQGSLPKLHRNILTALITIDVHARDIVTELVQSKV
  ETVESFDWQRQLRYYWDIDLDNCVARMALSQYTYGYEYLGACPRLVITPLTDRCYLCLMGALQLDLGGAP
  AGPAGTGKTETTKDLAKALAIQCVVFNCSDGLDYKMMGRFFSGLAQSGAWCCFDEFNRIDIEVLSVIAQQ
  LITIRNAKAAKLSRFMFEGREIKLVMTCAAFITMNPGYAGRTELPDNLKALFRPFAMMVPNYALIAEVIL
  YSEGFESSKILARKMTQMYKLCSEQLSQQDHYDFGMRAVKSVLVMAGSLKRENPDLNEDVVLIRALQDSN
  LPKFLTDDALLFSGIISDLFPGVQIPEHDYGILQSTIVDVMNRQNLQPEMCMVRKVIQFYETMLVRHGVM
  LVGPTGGGKTTVYRILAETLGNLQKLGIENSFYQAVKTYVLNPKSITMGELYGEVNNLTLEWKDGLMALS
  VRAAVNDTSEDHKWIISDGPVDALWIENMNTVLDDNKMLCLANSERIKLTPQIHMLFEVQDLRVASPATV
  SRCGMVFVDPEELKWMPYVKTWMKGISKKLTEETQEYILNLFQRYVDEGLHFINKKCSQAIPQVDISKVT
  TLCCLLESLILGKDGVNLAMEQTKLNTILCQTFVFCYLWSLGGNLTENYYDSFDTFIRTQFDDNPDARLP
  NSGDLWSIHMDFDTKRLDPWERIIPTFKYNRDVPFFEMLVPTTDTVRYGYLMEKLLAVKHSVLFTGITGV
  GKSVIAKGLLNKIQESAGYVPVYLNFSAQTSSARTQEIIESKLERKRKNILGAPGNKRIVIFVDDLNMPR
  LDRYGSQPPIELLRQYQDFGGFYDRNKLFWKEIQDVTIISACAPPGGGRNPVTPRFIRHFSMLCLPMPSE
  HSLKQIFQAILNGFLSDFPPAVKQTASSIVEASVEIYNKMSVDLLPTPAKSHYVFNLRDLSKCVQGILQC
  DPGTIREEIQIFRLFCHECQRVFHDRLINNEDKHYFHVILTEMANKHFGIAIDLEYFLNKPIIFGDFIKF
  GADKADRIYDDMPDIEKTANVLQDYLDDYNLTNPKEVKLVFFQDAIEHVSRIARMIRQERGNALLVGVGG
  TGKQSLTRLAAHICGYKCLQIELSRGYNYDSFHEDLRKLYKMAGVEDKNMVFLFTDTQIVVEEFLEDINN
  ILNSGEVPNLFEKDELEQVLAATRPRAKEVGISEGNRDEVFQYFISKVRQKLHIVLCMSPVGEAFRSRCR
  MFPSLVNCCTIDWFVQWPREALLSVSKTFFSQVDAGNEELKEKLPLMCVNVHLSVSSMAERYYNELRRRY
  YTTPTSYLELINLYLSMLSEKRKQIISARDRVKNGLTKLLETNILVDKMKLDLSALEPVLLAKSEDVEAL
  MEKLAVDQESADQVRNTVQEDEATAKVKAEETQAIADDAQRDLDEALPALDAANKALDSLDKADISEIRV
  FTKPPDLVMTVMEAISILLNAKPDWPSAKQLLGDSNFLKRLLEYDKENIKPQILAKLQKYINNPDFVPEK
  VEKVSKACKSMCMWVRAMDLYSRVVKVVEPKRQKLRAAQAELDITMATLREKQALLRQVEDQIQALQDEY
  DKGVNEKESLAKTMALTKARLVRAGKLTAALEDEQVRWEESIQKFEEEISNITGNVFIAAACVAYYGAFT
  AQYRQSLIECWIQDCQSLEIPIDPSFSLINILGDPYEIRQWNTDGLPRDLISTENGILVTQGRRWPLMID
  PQDQANRWIRNKESKSGLKIIKLTDSNFLRILENSIRLGLPVLLEELKETLDPALEPILLKQIFISGGRL
  LIRLGDSDIDYDKNFRFYMTTKMPNPHYLPEVCIKVTIINFTVTKSGLEDQLLSDVVRLEKPRLEEQRIK
  LIVRINTDKNQLKTIEEKILRMLFTSEGNILDNEELIDTLQDSKITSGAIKTRLEEAESTEQMINVAREK
  YRPVATQGSVMYFVIASLSEIDPMYQYSLKYFKQLFNTTIETSVKTENLQQRLDVLLEQTLLTAYVNVSR
  GLFEQHKLIYSFMLCVEMMRQQGTLSDAEWNFFLRGSAGLEKERPPKPEAPWLPTATWFACCDLEESFPV
  FHGLTQNILSHPISIRLGSFETYINPQKWEGYSKMKHEDKHMRQEKEAAHQDPWSAGLSSFHKLILIKCC
  KEEKVVFALTDFVIENLGKQFIETPPVDLPTLYQDMSCNTPLVFILSTGSDPMGAFQRFARESGYSERVQ
  SISLGQGQGPIAEKMVKDAMKSGNWVFLQNCHLAVSWMLAMEELIKTFTDPDSAIKDTFRLFLSSMPSNT
  FPVTVLQNSVKVTNEPPKGLRANIRRAFTEMTPSFFEENILGKKWRQIIFGICFFHAIIQERKKFGPLGW
  NICYEFNDSDRECALLNLKLYCKEGKIPWDALIYITGEITYGGRVTDSWDQRCLRTILKRFFSPETLEED
  YKYSESGIYFAPMADSLQEFKDYIENLPLIDDPEIFGMHENANLVFQYKETSTLINTILEVQPRSSTGGE
  GKSNDEIVQELVASVQTRVPEKLEMEGASESLFVKDLQGRLNSLTTVLGQEVDRFNNLLKLIHTSLETLN
  KAIAGFVVMSEEMEKVYNSFLNNQVPALWSNTAYPSLKPLGSWVKDLILRTSFVDLWLKRGQPKSYWISG
  FFFPQGFLTGTLQNHARKYNLPIDELSFKYSVIPTYRDQAAVIEAAKTVQFGQELPMDMELPSPEDGVLV
  HGMFMDASRWDDKEMVIEDALPGQMNPVLPVVHFEPQQNYKPSPTLYHCPLYKTGARAGTLSTTGHSTNF
  VVTVLLPSKRSKDYWIAKGSALLCQLSE
  
  TRTRPLE - GFP Tag - V
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_001370
• ORF Size: 12474 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_001370.2
• RefSeq Size: 12795 bp
• RefSeq ORF: 12477 bp
• Locus ID: 1768
• UniProt ID: Q9C0G6
• Cytogenetics: 2p11.2
• 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. Mutations in this gene may cause primary ciliary dyskinesia (PCD) as well as heterotaxy. [provided by RefSeq, Jun 2016]