DYNC1H1 (NM_001376) Human Untagged Clone

CAT#: SC309253

DYNC1H1 (untagged)-Human dynein, cytoplasmic 1, heavy chain 1 (DYNC1H1)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: DYNC1H1
• Synonyms: CMT2O; DHC1; DHC1a; DNCH1; Dnchc1; DNCL; DNECL; DYHC; HL-3; p22; SMALED1
• Vector: pCMV6 series
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_001376, the custom clone sequence may differ by one or more nucleotides
  ATGTCGGAGCCCGGGGGCGGCGGCGGCGAGGACGGCTCGGCCGGATTGGAAGTGTCGGCC
  GTGCAGAATGTGGCGGACGTGTCGGTGCTGCAGAAGCACCTGCGCAAGCTGGTGCCGCTG
  CTGCTGGAGGACGGCGGCGAGGCGCCGGCCGCGCTGGAGGCGGCGCTGGAGGAGAAGAGC
  GCCCTGGAGCAGATGCGCAAGTTCCTTTCGGACCCGCAGGTCCACACGGTGCTGGTGGAG
  CGCTCCACGCTCAAAGAGGACGTCGGTGATGAAGGAGAAGAAGAAAAAGAATTCATTTCC
  TATAACATCAACATAGACATTCATTATGGGGTTAAATCCAATAGCTTGGCATTCATTAAA
  CGTACTCCCGTGATTGATGCAGATAAACCCGTGTCTTCTCAGCTCCGGGTCCTTACACTC
  AGTGAAGACTCGCCCTACGAAACTTTGCATTCTTTCATTAGCAATGCAGTGGCTCCTTTT
  TTTAAGTCCTACATTAGAGAGTCTGGCAAGGCAGACAGGGATGGTGATAAAATGGCTCCT
  TCAGTTGAAAAGAAGATTGCAGAACTCGAAATGGGACTCCTTCACTTGCAGCAAAATATT
  GAAATTCCGGAGATCAGCCTGCCGATTCATCCAATGATCACAAATGTTGCAAAACAGTGT
  TATGAGCGTGGAGAAAAGCCAAAAGTTACAGACTTTGGTGATAAGGTTGAAGACCCAACA
  TTTCTTAATCAGTTACAATCTGGAGTTAACCGCTGGATCCGAGAAATTCAAAAAGTGACC
  AAACTGGATCGAGATCCTGCATCAGGAACTGCCTTACAGGAAATTAGTTTTTGGCTAAAC
  TTGGAACGTGCGTTATACCGCATCCAGGAGAAACGGGAGAGCCCGGAAGTTCTCCTGACT
  CTGGATATCTTGAAACATGGCAAGCGCTTCCATGCCACCGTCAGTTTTGACACTGACACA
  GGTCTAAAACAGGCTTTGGAAACTGTGAATGACTACAATCCTCTGATGAAAGATTTCCCT
  CTGAATGATTTGCTGTCTGCCACGGAGCTGGACAAAATAAGACAGGCGCTTGTTGCCATT
  TTCACACATTTGAGAAAGATCCGAAACACAAAATATCCTATTCAGAGGGCACTGCGTTTG
  GTGGAGGCAATTTCAAGAGACTTGAGTTCTCAATTACTCAAAGTATTGGGCACTAGGAAA
  TTGATGCATGTTGCTTATGAAGAATTTGAAAAAGTTATGGTAGCATGCTTTGAAGTTTTT
  CAGACTTGGGATGATGAGTATGAGAAACTTCAGGTATTGTTGAGAGACATCGTCAAAAGA
  AAAAGGGAAGAAAATCTGAAGATGGTGTGGCGTATCAACCCTGCCCACAGGAAGCTGCAG
  GCCCGCCTTGACCAGATGAGAAAATTTAGACGCCAGCATGAACAGCTAAGAGCTGTTATC
  GTCAGGGTCCTGAGGCCACAGGTCACGGCAGTTGCACAACAGAATCAAGGAGAGGTCCCT
  GAACCCCAAGATATGAAAGTGGCTGAGGTTCTCTTTGATGCTGCAGATGCAAATGCCATT
  GAGGAAGTAAACCTTGCTTATGAGAACGTCAAGGAAGTGGATGGACTGGATGTTTCCAAA
  GAGGGCACGGAAGCCTGGGAGGCTGCTATGAAGAGGTACGATGAGAGGATCGACAGAGTG
  GAGACCCGGATCACCGCTCGCCTTCGGGATCAGCTTGGCACAGCCAAGAATGCCAACGAG
  ATGTTTAGGATTTTCTCCAGGTTTAATGCACTGTTTGTCAGGCCTCACATCCGTGGGGCC
  ATTCGCGAATACCAGACCCAGCTGATCCAGCGCGTGAAAGATGACATTGAGTCTCTTCAC
  GACAAGTTCAAGGTCCAGTACCCACAGAGTCAGGCTTGTAAGATGAGTCACGTTCGTGAC
  TTGCCCCCTGTGTCAGGGTCTATCATCTGGGCTAAACAGATCGACAGGCAGCTGACGGCC
  TACATGAAGCGGGTGGAAGATGTCCTTGGCAAGGGCTGGGAGAATCACGTGGAGGGGCAG
  AAGCTGAAGCAGGATGGAGACAGCTTCCGCATGAAGCTCAACACGCAGGAGATCTTTGAT
  GACTGGGCAAGGAAGGTGCAGCAGCGCAACCTCGGTGTCTCGGGGCGCATTTTCACCATC
  GAAAGTACTCGGGTTCGGGGCCGAACTGGAAATGTGCTTAAGCTGAAAGTTAACTTTCTT
  CCTGAGATTATCACACTATCCAAAGAAGTCCGGAACCTCAAATGGCTTGGTTTCCGCGTC
  CCACTGGCGATTGTGAACAAAGCCCATCAAGCAAACCAGCTTTACCCGTTTGCCATCTCA
  CTGATCGAGAGCGTTCGTACCTATGAACGGACCTGCGAGAAGGTGGAGGAGCGGAACACC
  ATTTCCCTTTTGGTGGCTGGCTTGAAAAAGGAAGTGCAGGCCCTGATCGCAGAAGGCATT
  GCGTTGGTGTGGGAGTCCTACAAACTTGACCCATATGTACAGCGCTTAGCAGAGACTGTC
  TTCAACTTCCAAGAAAAGGTGGATGATCTGCTGATCATTGAAGAAAAAATAGACCTAGAA
  GTCCGTTCCTTGGAAACTTGTATGTATGACCATAAGACATTCTCGGAAATCTTGAACAGA
  GTCCAGAAAGCAGTGGATGACTTAAATCTGCACTCCTATTCCAATTTGCCCATCTGGGTC
  AACAAGCTTGACATGGAGATTGAAAGAATATTGGGCGTCCGTCTGCAAGCTGGCCTGAGA
  GCTTGGACGCAGGTTCTTCTTGGACAAGCTGAAGATAAAGCAGAAGTTGACATGGACACA
  GATGCTCCACAAGTTAGTCACAAGCCTGGTGGAGAGCCAAAGATCAAAAATGTCGTTCAT
  GAGCTAAGAATAACCAATCAGGTAATCTACTTGAATCCACCAATTGAAGAGTGCAGATAC
  AAGCTGTATCAGGAAATGTTTGCCTGGAAGATGGTTGTACTGTCTCTCCCCAGGATCCAG
  AGTCAGAGGTACCAGGTGGGTGTACATTACGAATTGACTGAGGAAGAGAAATTCTATCGG
  AATGCTTTAACACGGATGCCTGATGGCCCTGTTGCCCTGGAAGAGTCGTATTCTGCTGTC
  ATGGGCATTGTATCTGAAGTTGAACAGTATGTCAAGGTTTGGCTTCAGTATCAGTGTTTA
  TGGGATATGCAAGCTGAAAACATCTATAACAGACTTGGAGAAGATCTCAACAAATGGCAG
  GCTCTCCTGGTCCAAATAAGGAAGGCCAGAGGAACCTTTGACAATGCAGAAACCAAGAAA
  GAGTTTGGACCAGTAGTTATAGATTATGGCAAGGTACAATCTAAGGTGAACTTGAAATAT
  GACTCTTGGCATAAGGAGGTTCTTAGCAAATTTGGGCAGATGCTAGGATCAAACATGACG
  GAATTCCATTCCCAGATCTCAAAGTCCCGCCAAGAGTTGGAGCAGCACTCAGTAGACACG
  GCCAGCACCTCCGATGCAGTGACCTTCATCACCTATGTGCAGTCTTTGAAACGGAAGATC
  AAGCAGTTTGAGAAGCAAGTTGAGCTCTACCGCAATGGCCAGCGCTTACTGGAAAAGCAA
  AGGTTCCAGTTCCCACCTTCCTGGCTTTATATTGACAACATCGAGGGAGAGTGGGGAGCC
  TTCAATGACATCATGCGGCGAAAGGACTCTGCCATTCAGCAGCAGGTGGCAAACCTGCAA
  ATGAAGATTGTCCAGGAGGATCGGGCCGTGGAAAGCCGCACCACCGACCTGCTGACTGAC
  TGGGAGAAGACCAAGCCTGTCACGGGCAACCTTCGCCCAGAAGAGGCACTTCAGGCTCTC
  ACCATATATGAGGGGAAGTTTGGTAGGCTGAAGGACGACAGAGAGAAGTGTGCAAAGGCC
  AAGGAGGCGCTGGAATTGACAGATACTGGGCTTCTCAGTGGCAGTGAAGAGCGCGTGCAG
  GTGGCCTTAGAAGAATTACAGGACCTCAAAGGCGTTTGGTCAGAACTTTCTAAGGTTTGG
  GAGCAAATCGATCAGATGAAGGAGCAACCCTGGGTTTCAGTACAGCCTCGAAAGCTTCGA
  CAAAATTTGGATGCCCTCCTGAACCAGCTGAAAAGCTTCCCTGCCCGGTTGCGACAGTAT
  GCGTCCTATGAGTTTGTTCAGAGGCTTCTGAAAGGTTACATGAAGATAAATATGCTGGTG
  ATTGAACTGAAATCCGAAGCACTTAAAGACCGCCATTGGAAACAGCTCATGAAAAGGCTT
  CACGTTAATTGGGTTGTTTCTGAGCTAACCCTTGGCCAAATCTGGGATGTTGACTTGCAG
  AAAAATGAAGCGATTGTCAAGGATGTACTGCTTGTGGCACAAGGGGAGATGGCTTTGGAA
  GAATTTTTGAAGCAGATAAGAGAAGTGTGGAATACTTATGAACTAGACTTGGTTAATTAT
  CAGAACAAGTGCCGCTTGATCCGTGGCTGGGATGACCTCTTCAACAAGGTCAAAGAACAC
  ATCAACAGCGTCTCGGCCATGAAGCTCTCTCCGTATTACAAGGTTTTTGAAGAGGATGCT
  CTCAGCTGGGAAGATAAGCTGAACAGGATCATGGCTCTCTTTGATGTGTGGATTGATGTG
  CAGAGGCGGTGGGTCTACCTGGAAGGTATCTTCACAGGCAGTGCAGATATCAAGCACCTG
  CTGCCAGTGGAAACCCAGCGGTTTCAGAGCATCAGCACTGAGTTTTTGGCTCTAATGAAA
  AAAGTGTCCAAGTCTCCCCTTGTTATGGATGTTCTGAACATCCAGGGAGTACAGAGGTCT
  CTGGAAAGATTGGCAGACCTGCTAGGAAAGATCCAGAAAGCATTGGGAGAATATCTGGAA
  AGAGAGCGGTCATCTTTCCCCAGGTTCTATTTTGTGGGTGATGAAGATTTGCTTGAAATC
  ATTGGAAACAGCAAGAATGTCGCTAAATTACAGAAACACTTCAAGAAGATGTTTGCTGGA
  GTTTCGAGCATCATCCTGAACGAGGATAACTCTGTTGTTTTGGGTATTTCATCTCGGGAA
  GGAGAGGAGGTTATGTTTAAAACTCCTGTGTCAATTACTGAACATCCCAAAATCAATGAG
  TGGCTCACATTGGTAGAAAAGGAGATGAGAGTCACCCTGGCCAAACTGCTTGCTGAGTCT
  GTTACGGAAGTTGAGATTTTTGGTAAAGCAACTTCAATTGACCCAAATACCTACATCACT
  TGGATTGATAAATACCAGGCCCAGCTTGTGGTTTTGTCAGCCCAGATAGCCTGGTCTGAG
  AACGTGGAGACCGCACTGAGCAGCATGGGCGGAGGTGGAGATGCCGCGCCCTTGCACTCT
  GTGCTGAGCAATGTGGAGGTCACCCTCAATGTGTTAGCAGACTCTGTCCTCATGGAGCAG
  CCCCCACTCCGAAGGCGGAAGCTAGAACACTTGATTACAGAGTTGGTTCACCAGAGAGAT
  GTTACAAGGTCCTTGATCAAAAGCAAGATTGACAACGCCAAATCTTTTGAATGGCTCAGC
  CAGATGCGATTTTACTTTGACCCTAAGCAAACTGATGTGTTACAGCAGTTGTCAATTCAA
  ATGGCAAATGCCAAATTTAACTATGGCTTTGAGTACCTGGGTGTTCAGGACAAACTGGTC
  CAGACCCCCCTCACTGACCGCTGCTATTTGACAATGACACAAGCCTTGGAGGCCAGGCTG
  GGGGGTTCCCCATTTGGACCTGCTGGAACTGGGAAAACAGAGTCTGTCAAAGCTCTTGGC
  CATCAGCTTGGACGGTTTGTTTTAGTTTTCAACTGTGATGAAACCTTTGATTTCCAGGCA
  ATGGGCCGGATCTTTGTGGGCCTTTGCCAGGTGGGTGCCTGGGGCTGCTTTGACGAGTTC
  AACCGCCTGGAGGAGCGGATGCTCTCGGCTGTGTCCCAGCAGGTGCAGTGCATACAGGAA
  GCACTGCGTGAACATTCCAACCCCAACTACGACAAGACCTCTGCCCCCATTACTTGTGAG
  CTGCTGAACAAACAAGTCAAGGTGAGCCCGGACATGGCCATCTTCATCACCATGAACCCT
  GGCTACGCGGGCCGGTCTAACCTTCCTGACAACTTGAAGAAGCTGTTCCGGAGCTTGGCC
  ATGACCAAGCCCGACCGGCAGTTAATCGCCCAGGTCATGCTGTACTCACAGGGTTTCCGC
  ACTGCTGAAGTGCTTGCCAACAAAATCGTCCCGTTTTTTAAACTATGCGATGAGCAGCTC
  TCTTCCCAAAGCCATTATGACTTCGGTCTTCGGGCTTTGAAGAGTGTGCTGGTGAGTGCA
  GGCAATGTGAAGAGAGAGAGAATCCAGAAGATAAAGAGGGAGAAAGAGGAACGAGGGGAA
  GCAGTTGATGAAGGAGAAATTGCTGAAAATCTCCCTGAACAAGAGATTCTGATACAGAGC
  GTCTGTGAGACGATGGTGCCAAAGCTGGTGGCAGAGGACATCCCGCTGCTCTTCAGCCTC
  CTGTCGGACGTGTTCCCTGGAGTCCAGTATCACAGGGGTGAGATGACTGCCCTTCGAGAG
  GAGCTGAAGAAAGTGTGTCAGGAGATGTATTTGACATATGGAGATGGAGAAGAAGTTGGT
  GGAATGTGGGTTGAAAAGGTTCTCCAGCTCTATCAGATCACCCAGATCAATCATGGCCTG
  ATGATGGTGGGGCCCTCGGGAAGTGGGAAGAGCATGGCCTGGCGTGTCCTGCTGAAGGCA
  TTGGAGAGACTCGAGGGTGTGGAAGGTGTGGCCCATATCATCGACCCCAAGGCCATCAGC
  AAAGACCACCTCTACGGAACCCTGGACCCCAACACCAGGGAATGGACAGATGGGCTCTTC
  ACACACGTGCTGAGAAAGATCATCGACAGCGTGAGAGGCGAGCTGCAGAAGCGCCAGTGG
  ATCGTCTTCGATGGCGATGTGGATCCAGAGTGGGTTGAGAACTTGAACTCAGTGCTGGAT
  GACAATAAGCTCCTAACTTTGCCCAATGGAGAGCGCCTCAGTCTTCCACCCAATGTGAGA
  ATAATGTTTGAGGTACAGGACTTGAAATACGCGACCTTGGCCACAGTGTCGCGCTGCGGC
  ATGGTCTGGTTCAGTGAGGATGTGCTGAGCACCGACATGATCTTCAACAACTTCCTGGCC
  AGGCTGCGCAGCATCCCGCTGGATGAAGGGGAGGATGAGGCACAGCGGCGGCGTAAGGGC
  AAAGAGGATGAGGGGGAGGAGGCCGCTTCCCCCATGCTGCAGATCCAAAGAGATGCAGCT
  ACGATCATGCAACCGTACTTCACGTCCAACGGCCTGGTCACCAAGGCGCTAGAGCACGCC
  TTCCAGCTGGAGCACATCATGGACCTAACACGCCTGCGCTGCCTGGGCTCGCTCTTCTCC
  ATGCTGCACCAGGCCTGCCGCAACGTGGCGCAGTATAACGCCAACCATCCCGACTTCCCC
  ATGCAGATCGAGCAGCTGGAGCGCTACATTCAGCGATATCTGGTTTATGCCATACTCTGG
  TCCCTGTCTGGAGACAGCCGGCTAAAAATGAGAGCAGAGCTGGGTGAATACATCAGAAGA
  ATCACGACCGTGCCTCTGCCCACTGCGCCCAACATACCCATTATCGATTATGAGGTGTCC
  ATCAGCGGAGAATGGTCTCCGTGGCAGGCCAAGGTGCCTCAGATTGAAGTGGAGACGCAC
  AAGGTGGCAGCCCCTGATGTCGTCGTGCCAACGCTGGACACAGTCCGCCACGAAGCCCTC
  TTGTACACTTGGCTGGCCGAACACAAGCCCCTGGTCTTGTGTGGCCCTCCTGGGTCTGGC
  AAGACCATGACACTCTTCAGCGCCCTCCGGGCCTTGCCTGACATGGAGGTGGTGGGTCTC
  AACTTCTCCAGTGCTACTACTCCAGAGCTGCTTCTGAAGACTTTTGATCACTACTGCGAG
  TACAGGCGCACACCTAATGGGGTGGTTTTGGCTCCTGTTCAACTTGGAAAGTGGCTGGTG
  TTGTTCTGTGATGAAATCAACTTGCCAGATATGGATAAATATGGGACCCAGAGGGTCATA
  TCCTTCATCAGACAGATGGTGGAGCACGGAGGCTTTTACCGTACCTCAGATCAAACATGG
  GTGAAGCTGGAGAGAATCCAGTTTGTTGGGGCTTGTAATCCCCCCACAGACCCTGGAAGA
  AAGCCCCTCTCACACAGGTTCCTGCGCCACGTGCCTGTCGTGTATGTGGATTACCCGGGC
  CCCGCCTCCCTCACACAGATCTACGGCACCTTCAACCGCGCCATGCTGAGGCTCATTCCA
  TCCCTGCGGACGTATGCAGAGCCGCTCACTGCTGCCATGGTGGAGTTCTACACCATGTCT
  CAGGAGAGATTCACCCAGGATACACAACCTCACTATATCTATTCACCCCGTGAAATGACT
  AGGTGGGTGAGAGGCATCTTTGAAGCGCTGAGACCTCTGGAGACCCTGCCTGTTGAAGGC
  CTCATTCGGATTTGGGCACATGAAGCTCTGCGTCTCTTCCAAGATAGACTCGTAGAGGAT
  GAGGAGAGGCGTTGGACTGATGAGAACATCGACACGGTTGCTCTGAAGCACTTCCCTAAC
  ATCGACAGAGAGAAGGCAATGAGCCGACCCATCTTGTACAGCAACTGGCTGTCAAAGGAT
  TACATCCCAGTAGACCAAGAAGAGTTAAGAGATTATGTCAAAGCTAGGCTGAAGGTCTTT
  TATGAAGAAGAACTTGATGTTCCGCTGGTGCTGTTTAATGAAGTCCTAGACCACGTGCTG
  AGGATTGACAGAATATTCCGTCAACCTCAAGGCCACTTGCTTCTGATTGGTGTTAGTGGA
  GCAGGAAAAACTACCCTGTCTCGTTTCGTCGCCTGGATGAACGGTTTGAGTGTGTACCAG
  ATTAAGGTCCATAGGAAGTACACAGGGGAAGACTTTGATGAAGATCTACGGACAGTGTTG
  AGACGTTCTGGCTGTAAAAATGAAAAGATAGCATTTATAATGGATGAATCTAATGTGTTA
  GATTCTGGATTCCTGGAGCGAATGAATACCCTTCTGGCCAATGGAGAGGTGCCTGGTCTC
  TTTGAAGGAGACGAGTATGCCACCTTGATGACGCAGTGCAAAGAGGGGGCACAGAAGGAA
  GGCCTGATGCTGGACTCGCACGAGGAGCTCTACAAGTGGTTCACTAGCCAGGTTATCCGC
  AACCTCCACGTCGTGTTCACCATGAACCCGTCCTCGGAGGGACTCAAGGACCGGGCAGCT
  ACATCACCAGCACTTTTCAACAGGTGTGTGTTGAATTGGTTTGGAGACTGGTCCACCGAA
  GCACTGTATCAGGTTGGCAAAGAATTCACAAGTAAGATGGATCTGGAGAAGCCAAATTAC
  ATCGTGCCTGATTACATGCCAGTTGTGTATGATAAGCTGCCGCAGCCACCATCCCATCGG
  GAAGCCATTGTGAACAGCTGTGTGTTTGTTCATCAGACTCTTCACCAGGCGAATGCTCGG
  CTAGCAAAGCGAGGCGGCAGAACGATGGCCATCACCCCTCGCCACTACCTGGACTTCATC
  AATCACTATGCCAACCTGTTCCACGAGAAGCGGAGCGAGCTGGAGGAGCAGCAGATGCAC
  TTGAACGTGGGGCTCAGGAAGATCAAAGAGACAGTCGACCAGGTAGAAGAACTGCGTCGT
  GACTTGAGGATAAAGAGCCAAGAGCTGGAGGTGAAGAATGCAGCAGCCAATGACAAGCTG
  AAAAAGATGGTGAAAGACCAGCAGGAGGCTGAAAAGAAGAAGGTTATGAGCCAAGAAATC
  CAGGAACAGCTGCATAAGCAGCAGGAGGTAATTGCAGACAAACAGATGAGTGTCAAAGAA
  GATCTTGATAAGGTGGAACCTGCCGTCATTGAGGCCCAGAATGCTGTGAAGTCGATCAAG
  AAGCAGCACCTGGTGGAGGTGAGGTCCATGGCCAACCCTCCTGCTGCTGTGAAGCTGGCG
  CTGGAGTCCATCTGCCTGCTGCTGGGGGAAAGCACCACAGACTGGAAGCAGATCCGCTCC
  ATCATCATGCGGGAGAACTTCATCCCCACCATCGTCAACTTCTCTGCAGAGGAGATCAGT
  GACGCCATAAGGGAGAAGATGAAGAAAAATTACATGTCCAATCCAAGTTACAATTATGAA
  ATTGTGAATCGGGCTTCCCTGGCTTGCGGCCCTATGGTGAAATGGGCAATTGCACAGCTT
  AACTATGCAGACATGTTAAAGAGAGTGGAGCCCCTACGCAATGAGCTGCAGAAGCTGGAA
  GATGACGCCAAGGACAACCAGCAGAAGGCCAACGAGGTGGAGCAGATGATCCGAGACCTG
  GAAGCCAGCATCGCCCGCTACAAGGAGGAATACGCCGTCCTGATCTCAGAGGCCCAGGCC
  ATCAAGGCAGACCTGGCAGCTGTCGAGGCAAAAGTAAACCGGAGCACTGCTCTTCTGAAG
  AGCTTGTCTGCTGAACGTGAACGATGGGAAAAAACAAGTGAAACTTTCAAAAACCAGATG
  TCCACCATTGCTGGGGACTGTCTCTTGTCAGCTGCGTTCATTGCCTACGCGGGTTACTTT
  GACCAGCAGATGCGTCAGAACTTGTTCACTACCTGGTCCCATCACCTACAGCAAGCCAAC
  ATCCAGTTCCGTACAGATATTGCCAGGACGGAATACCTTTCCAATGCTGATGAGCGTCTT
  CGCTGGCAGGCCAGCTCCTTGCCTGCTGATGACCTTTGCACAGAAAATGCCATCATGCTG
  AAACGATTCAATAGGTATCCGCTGATCATTGACCCCTCTGGACAGGCCACAGAATTCATT
  ATGAATGAATATAAGGATCGTAAGATCACACGGACCAGCTTCCTGGATGACGCCTTCAGA
  AAGAACTTAGAGAGTGCACTGAGATTCGGTAACCCCCTTCTGGTCCAGGATGTGGAAAGC
  TACGATCCAGTTTTGAACCCGGTGCTGAACCGTGAAGTGCGGCGAACAGGGGGGAGAGTG
  CTGATCACTCTCGGGGACCAGGACATAGACCTGTCGCCATCGTTTGTCATCTTCCTGTCC
  ACCCGGGATCCAACTGTCGAGTTCCCACCAGATCTCTGTTCCCGGGTTACTTTTGTAAAC
  TTCACAGTTACCCGTAGCAGTTTACAAAGCCAGTGTCTAAATGAAGTACTTAAAGCAGAA
  AGACCTGATGTGGACGAGAAACGATCTGATCTTCTTAAACTTCAAGGGGAATTTCAGCTC
  CGTTTGCGTCAGCTGGAAAAATCTCTACTACAAGCTCTGAACGAGGTGAAAGGGCGCATT
  TTGGATGACGACACGATCATAACCACTCTGGAGAACCTGAAGAGAGAGGCTGCAGAGGTC
  ACCAGGAAAGTTGAGGAGACGGACATTGTCATGCAGGAGGTGGAGACCGTGTCCCAGCAG
  TACCTCCCGCTCTCCACCGCCTGCAGCAGCATCTACTTCACCATGGAGTCCCTCAAGCAG
  ATACACTTCTTGTACCAGTACTCCCTCCAGTTTTTCCTGGACATTTATCACAACGTCCTA
  TACGAGAACCCGAACCTGAAGGGTGTCACCGACCACACACAGCGCCTGTCCATTATAACA
  AAGGACCTCTTCCAGGTGGCGTTTAACCGAGTGGCTCGAGGCATGCTGCATCAGGACCAC
  ATTACCTTTGCCATGCTGCTGGCAAGAATCAAACTGAAGGGCACCGTGGGGGAGCCCACC
  TACGATGCAGAATTCCAGCACTTCTTGAGAGGAAATGAGATTGTCCTGAGTGCTGGCTCC
  ACCCCCAGGATCCAGGGCCTGACTGTGGAGCAGGCGGAGGCGGTGGTGAGGCTGAGCTGC
  CTTCCCGCGTTTAAGGACTTGATTGCAAAGGTTCAGGCAGACGAGCAATTTGGCATCTGG
  CTGGACAGCAGCTCCCCGGAGCAGACTGTGCCCTACCTCTGGAGTGAAGAAACACCTGCA
  ACACCCATTGGCCAGGCCATCCACCGCCTGCTCCTGATCCAGGCTTTCCGGCCCGATCGC
  CTGTTGGCCATGGCCCACATGTTTGTTTCAACAAACCTTGGGGAGTCTTTCATGTCCATC
  ATGGAGCAGCCGCTCGACCTGACCCACATTGTGGGCACAGAGGTGAAGCCCAACACTCCT
  GTCTTAATGTGCTCTGTGCCTGGTTATGATGCCAGTGGACATGTCGAGGACCTTGCAGCC
  GAGCAGAACACGCAGATCACTTCAATTGCAATCGGCTCTGCAGAAGGCTTTAACCAAGCA
  GATAAGGCAATAAACACCGCTGTAAAGTCGGGCAGGTGGGTGATGCTGAAGAATGTGCAT
  CTGGCCCCAGGGTGGCTGATGCAGCTGGAGAAGAAGTTGCATTCCCTGCAGCCGCATGCC
  TGCTTCCGACTCTTCCTCACCATGGAGATCAACCCCAAGGTGCCTGTGAATCTGCTCCGT
  GCGGGCCGCATCTTTGTGTTCGAGCCACCGCCAGGGGTGAAGGCCAACATGCTGAGGACG
  TTCAGCAGCATTCCCGTCTCACGGATATGCAAGTCTCCCAACGAGCGTGCCCGCTTGTAC
  TTCCTGCTGGCCTGGTTTCATGCGATCATCCAAGAACGCTTACGATACGCACCACTGGGG
  TGGTCAAAGAAGTATGAATTTGGAGAGTCTGACCTGCGGTCAGCTTGCGATACGGTGGAC
  ACGTGGCTGGATGACACGGCCAAGGGCAGGCAGAACATCTCACCGGATAAGATCCCGTGG
  TCTGCACTAAAGACCTTAATGGCCCAGTCCATTTATGGCGGGCGCGTGGACAACGAGTTT
  GACCAGCGTCTGCTCAACACCTTCCTGGAGCGCCTGTTCACAACCAGGAGTTTCGACAGT
  GAGTTTAAGCTGGCATGCAAGGTCGACGGACATAAAGACATTCAAATGCCAGATGGCATC
  AGGCGAGAGGAGTTTGTGCAGTGGGTGGAGTTGCTCCCCGACACCCAGACGCCCTCCTGG
  CTGGGCCTGCCCAACAACGCCGAGAGAGTCCTCCTTACCACACAGGGTGTGGACATGATC
  AGTAAAATGCTGAAGATGCAGATGTTGGAGGATGAGGACGACCTGGCCTACGCAGAGACT
  GAGAAGAAGACGAGGACAGACTCCACGTCCGACGGGCGCCCTGCCTGGATGCGGACACTG
  CACACCACCGCGTCCAACTGGCTGCACCTCATCCCCCAGACGCTGAGCCACCTCAAGCGC
  ACCGTGGAGAATATCAAGGATCCTTTGTTCAGGTTCTTTGAGAGAGAAGTGAAGATGGGC
  GCAAAGCTGCTTCAGGACGTTCGCCAGGACCTTGCAGATGTCGTCCAGGTGTGCGAAGGA
  AAGAAGAAGCAGACCAACTACTTGCGCACGCTGATCAACGAGCTAGTGAAAGGGATCTTG
  CCTCGGAGCTGGTCCCACTACACGGTGCCTGCCGGCATGACCGTCATCCAGTGGGTGTCC
  GACTTCAGCGAGAGGATCAAACAGCTGCAGAACATCTCACTGGCAGCTGCATCTGGTGGC
  GCCAAGGAGCTAAAGAACATCCACGTGTGCCTGGGTGGCCTGTTCGTGCCTGAGGCGTAC
  ATCACTGCCACCAGGCAGTATGTGGCCCAGGCCAACAGCTGGTCCCTGGAGGAGCTCTGC
  CTGGAAGTCAACGTCACCACCTCACAGGGCGCCACCCTTGACGCTTGCAGCTTCGGAGTC
  ACGGGTTTGAAACTTCAAGGGGCCACGTGCAACAACAACAAGCTGTCACTGTCCAATGCC
  ATCTCAACCGCCCTTCCCCTGACGCAGCTGCGCTGGGTCAAGCAGACAAACACCGAGAAG
  AAGGCCAGTGTGGTAACCTTACCTGTCTACCTGAACTTCACCCGTGCAGACCTCATCTTC
  ACCGTGGACTTCGAAATTGCTACAAAGGAGGATCCTCGCAGCTTCTACGAGCGGGGTGTC
  GCAGTCTTGTGCACAGAGTAA
  
• Restriction Sites: Please inquire
• ACCN: NM_001376
• 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.
  
  Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
• OTI Annotation: This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
• 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_001376.2, NP_001367.2
• RefSeq Size: 14220 bp
• RefSeq ORF: 13941 bp
• Locus ID: 1778
• UniProt ID: Q14204
• Cytogenetics: 14q32.31
• Protein Families: Druggable Genome
• Gene Summary: Dyneins are a group of microtubule-activated ATPases that function as molecular motors. They are divided into two subgroups of axonemal and cytoplasmic dyneins. The cytoplasmic dyneins function in intracellular motility, including retrograde axonal transport, protein sorting, organelle movement, and spindle dynamics. Molecules of conventional cytoplasmic dynein are comprised of 2 heavy chain polypeptides and a number of intermediate and light chains.This gene encodes a member of the cytoplasmic dynein heavy chain family. [provided by RefSeq, Oct 2008]