DNAH10 (NM_207437) Human Untagged Clone

CAT#: SC308543

DNAH10 (untagged)-Human dynein, axonemal, heavy chain 10 (DNAH10)

Datasheet
SDS

  "NM_207437" in other vectors (3)

CNY 86070.00

货期*
5周
规格
    • 10 ug

Product images

推荐一起购买 (3)
TF81001
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4090.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Vector pCMV6 series
Sequence Data
>NCBI ORF sequence for NM_207437, the custom clone sequence may differ by one or more nucleotides
ATGGTGCCGGAGGAGGTGGAGGTGGAGATTGATGAGATACCTGTCCTGTCTGAAGAGGGA
GAAGAGGAAGAAGAGACTTATTCTCAAAAAGTGGAGTCCGTGGATAAAGTGCGAGCTAAG
CGTGTGTCACTGAGAACCGAATCTCTAGGCCAACCTCTAAACAGAGAGGATGAAGAAATG
GACAAAGAGATTTCAGAAAAACTCCCTTCCAAAAGAACTGCGAAGCACATCATGGAAAAG
ATGCATCTCCACATGCTCTGTACCCCTCTTCCCGAGGAGTTCCTGGACCAAAACGTGGTG
TTTTTCCTCAGAAATACCAAAGAGGCAATCTCTGAAGCTACCGACATGAAGGAAGCTATG
GAAATTATGCCAGAAACACTGGAGTATGGAATTATAAACGCTAATGTGCTCCATTTTCTG
AAGAATATTATATGTCAGGTTTTTTTGCCAGCATTGTCCTTCAATCAGCACAGGACGAGT
ACAACCGTGGGAGTCACATCTGGAGAAGTCTCTAATTCCTCTGAGCATGAATCAGACCTG
CCGCCCATGCCTGGGGAGGCAGTAGAATATCACAGTATTCAATTAATACGGGATGAATTT
TTAATGAACGTGCAGAAATTTGCAAGTAATATTCAAAGAACCATGCAGCAACTTGAAGGT
GAGATCAAGTTAGAAATGCCAATCATCAGTGTGGAGGGAGAGGTGTCTGACCTGGCAGCT
GACCCGGAAACCGTTGACATCTTGGAGCAGTGTGTGATAAACTGGCTGAATCAGATATCC
ACAGCGGTTGAGGCCCAACTGAAGAAGACACCTCAGGGTAAAGGCCCTCTGGCTGAAATT
GAATTCTGGAGGGAAAGAAATGCAACCTTAAGTGCGCTGCATGAACAAACAAAGCTTCCA
ATAGTCAGAAAAGTCTTGGATGTGATCAAGGAATCCGACTCCATGCTTGTGGCTAATCTG
CAGCCAGTGTTCACCGAGTTATTCAAGTTCCACACGGAGGCCTCAGACAATGTGCGCTTT
CTCTCCACCGTGGAGCGTTATTTCAAGAACATAACGCACGGGTCTGGCTTCCACGTGGTC
CTGGACACCATCCCCGCCATGATGAGTGCCCTGCGGATGGTGTGGATCATCTCCCGACAC
TACAACAAAGACGAGAGGATGATTCCGCTCATGGAGCGCATCGCCTGGGAAATCGCTGAG
AGAGTCTGCCGAGTGGTCAACCTGCGGACTTTGTTCAAAGAAAATCGAGCGAGTGCCCAA
AGCAAAACCTTGGAAGCCAGGAACACCCTCAGGCTGTGGAAAAAGGCCTATTTTGACACC
CGGGCCAAGATAGAGGCTTCGGGGAGGGAAGATCGGTGGGAGTTTGACCGGAAGCGGCTG
TTCGAGAGGACGGATTATATGGCCACCATCTGCCAGGACCTCTCCGACGTTCTGCAGATT
TTGGAGGAATTTTATAACATATTTGGTCCAGAACTAAAGGCAGTGACGGGGGACCCCAAG
CGCATTGATGATGTCCTATGCAGAGTGGACGGCCTAGTCACCCCCATGGAAAACCTGACC
TTTGACCCCTTCAGCATCAAGTCCTCCCAGTTCTGGAAATATGTGATGGATGAATTCAAG
ATTGAAGTTCTGATTGACATCATTAATAAAATCTTTGTCCAGAACCTTGAAAATCCACCA
CTGTATAAGAATCACCCTCCAGTAGCAGGTGCAATATACTGGGAACGATCTCTGTTCTTT
CGGATTAAGCATACCATCCTCCGATTTCAAGAGGTACAAGAGATACTGGACAGTGATCGA
GGACAGGAGGTCAAACAAAAATATTTGGAAGTAGGTAGGACAATGAAGGAGTATGAAGAC
AGAAAGTATGAGCAGTGGATGGAGGTGACGGAGCAGGTGCTGCCAGCTCTCATGAAGAAG
AGCCTTTTGACCAAGTCTTCCATCGCCACAGAGGAGCCTTCGACTTTAGAAAGGGGAGCT
GTTTTTGCAATCAACTTTTCACCGGCTCTCAGAGAGATTATTAATGAAACAAAGTACTTA
GAGCAGCTGGGGTTCACTGTCCCTGAATTAGCAAGAAATGTTGCTCTCCAGGAAGACAAA
TTCCTTAGGTACACAGCTGGGATACAGCGCATGTTGGATCATTATCACATGCTCATAGGA
ACGTTAAACGATGCGGAGTCTGTGCTTCTCAAAGATCATTCCCAGGAACTGCTCCGAGTG
TTTAGGTCGGGATATAAGAGGTTGAACTGGAACTCACTAGGTATCGGTGACTATATAACT
GGTTGCAAACAGGCCATTGGGAAATTTGAGTCTCTCGTCCACCAGATTCATAAGAATGCA
GATGACATTTCTTCCAGGCTGACATTAATAGAGGCCATAAATCTCTTTAAATATCCAGCC
GCTAAAAGTGAGGAAGAACTCCCAGGCGTGAAGGAATTTTTTGAACACATTGAGCGAGAA
AGGGCCAGCGACGTGGACCACATGGTCCGGTGGTATCTTGCCATTGGACCACTGCTGACC
AAAGTTGAGGGCCTGGTCGTCCACACCAACACAGGCAAGGCCCCCAAGCTGGCCTCCTAC
TACAAATACTGGGAAAAGAAAATTTATGAGGTCCTGACAAAGCTCATCCTGAAGAACTTG
CAGTCTTTTAATTCTTTGATCCTTGGAAATGTCCCTCTGTTCCACACTGAAACCATTCTG
ACGGCACCTGAGATCATCCTTCATCCCAACACAAATGAGATCGACAAGATGTGCTTCCAT
TGTGTCCGGAATTGCGTGGAGATCACCAAGCATTTTGTTCGTTGGATGAATGGCAGCTGC
ATAGAATGCCCACCTCAGAAGGGGGAGGAAGAGGAAGTTGTTATAATAAACTTTTACAAT
GATATCTCTCTGAACCCTCAGATAATTGAACAAGCTGTTATGATCCCCCAAAATGTCCAC
AGGATTCTGATCAATCTTATGAAGTATCTACAAAAATGGAAGCGGTATCGACCTCTCTGG
AAATTGGACAAAGCTATTGTGATGGAGAAATTTGCTGCCAAGAAACCTCCTTGTGTAGCA
TATGATGAAAAGTTGCAGTTCTATTCCAAGATAGCTTATGAGGTTATGCGCCACCCTCTA
ATTAAGGATGAGCATTGCATCAGACTTCAGCTCAGGCATCTGGCAAACACAGTGCAGGAA
AATGCCAAGTCCTGGGTGATTTCGCTTGGAAAACTTCTCAATGAGTCAGCAAAAGAGGAG
CTCTATAATCTCCATGAAGAGATGGAGCACCTGGCCAAAAACCTTAGGAAGATCCCCAAT
ACCCTTGAAGATCTCAAGTTTGTCCTTGCAACAATTGCAGAAATTAGAAGTAAATCTCTA
GTCATGGAACTCAGATATAGGGACGTCCAGGAGCGATACCGTACCATGGCAATGTATAAC
CTCTTTCCTCCTGATGCAGAGAAAGAACTGGTTGATAAGATTGAGAGCATATGGTCCAAT
CTGTTTAATGATTCAGTGAATGTGGAGCATGCTCTTGGGGACATAAAGAGAACTTTCACA
GAGCTTACTCGAGGCGAAATAATGAACTACAGAGTTCAGATAGAGGAGTTTGCAAAGCGT
TTTTACAGTGAAGGCCCTGGTTCTGTTGGTGATGATCTTGATAAAGGAGTAGAGCTTTTA
GGTGTTTATGAAAGAGAGCTGGCAAGACATGAAAAGAGCCGTCAGGAACTGGCTAACGCT
GAGAAACTTTTCGATCTTCCTATTACAATGTACCCAGAGCTGCTGAAAGTGCAGAAGGAA
ATGAGTGGGCTGAGGATGATTTACGAGCTCTATGAAGGACTAAAGGTTGCAAAAGAAGAA
TGGTCTCAGACCCTTTGGATCAACCTGAATGTGCAGATTCTCCAGGAAGGAATTGAAGGT
TTTCTCAGGGCTCTCAGAAAGCTACCTCGGCCAGTCCGTGGCTTATCAGTGACCTACTAC
TTGGAAGCAAAAATGAAGGCATTCAAAGACTCGATTCCTTTACTTCTTGACTTGAAAAAC
GAGGCACTAAGAGACAGGCATTGGAAAGAACTTATGGAAAAAACGTCTGTCTTTTTTGAA
ATGACCGAAACGTTCACCTTGGAAAATATGTTTGCTATGGAACTGCACAAACACACAGAT
GTTCTCAATGAGATTGTCACAGCAGCAATCAAGGAGGTTGCCATTGAGAAGGCTGTGAAG
GAAATCCTAGACACGTGGGAAAATATGAAATTCACTGTAGTCAAGTATTGCAAAGGCACA
CAGGAGCGAGGCTACATCCTGGGTTCTGTTGACGAAATTATTCAGTCTCTTGATGACAAC
ACTTTCAACCTGCAGAGCATCTCAGGAAGCAGATTTGTGGGGCCTTTTCTGCAAACTGTT
CACAAATGGGAAAAAACGCTTTCTCTAATAGGGGAAGTCATTGAGATTTGGATGTTGGTT
CAGAGAAAATGGATGTATCTTGAAAGTATTTTTATTGGTGGAGATATAAGATCACAACTT
CCGGAAGAGGCAAAAAAGTTTGACAACATCGATAAAGTATTTAAAAGGATCATGGGTGAG
ACCTTAAAAGACCCCGTGATCAAGAGGTGCTGTGAAGCCCCAAACCGCCTCAGTGACCTA
CAGAACGTCAGCGAGGGCCTGGAGAAATGCCAGAAAAGCCTCAACGACTACTTAGATTCG
AAGAGAAATGCTTTCCCAAGGTTCTTCTTCATTTCTGACGATGAGTTGCTTAGCATTCTG
GGGAGCAGCGACCCACTCTGCGTCCAGGAGCACATGATCAAGATGTACGACAACATAGCA
TCACTGAGGTTTAATGACGGCGATAGTGGAGAAAAACTGGTGTCCGCGATGATTTCAGCA
GAAGGAGAAGTCATGGAGTTTCGGAAGATCTTGCGGGCTGAAGGGCGCGTGGAGGACTGG
ATGACGGCAGTTTTGAATGAGATGAGAAGAACTAATAGACTAATTACCAAAGAGGCTATT
TTTAGATACTGTGAAGACAGAAGCAGAGTCGACTGGATGCTCCTGTACCAGGGCATGGTG
GTGCTGGCCGCTAGCCAGGTGTGGTGGACCTGGGAGGTGGAAGACGTCTTCCACAAAGCG
CAAAAAGGGGAGAAGCAGGCCATGAAGAACTATGGCAGGAAAATGCACCGGCAGATCGAT
GAGTTGGTAACGCGCATCACCATGCCGCTAAGCAAAAACGACAGGAAAAAATACAACACT
GTTCTCATCATTGATGTGCATGCCAGAGACATAGTTGATTCTTTCATAAGAGGCAGTATC
CTGGAGGCCCGAGAGTTTGACTGGGAAAGTCAGTTGCGGTTTTATTGGGACCGGGAGCCG
GATGAGCTGAACATCCGCCAGTGCACGGGAACCTTTGGCTACGGCTACGAGTACATGGGC
CTGAACGGCAGGCTGGTCATCACGCCCCTCACCGATCGGATTTACCTGACGCTCACCCAG
GCGCTGTCCATGTATCTAGGTGGGGCCCCCGCCGGCCCAGCAGGAACCGGCAAAACCGAG
ACCACCAAGGACCTGGCGAAAGCCTTGGGCTTGCTCTGTGTTGTCACCAACTGTGGCGAA
GGCATGGATTACAGGGCCGTGGGGAAGATTTTCTCTGGCCTGGCACAGTGCGGGGCTTGG
GGCTGCTTTGATGAGTTTAATCGAATCGATGCTTCTGTGCTCTCCGTGATCTCCTCCCAG
ATCCAGACGATCCGAAATGCTCTGATCCATCAGTTAACCACGTTCCAGTTTGAAGGGCAG
GAGATTTCCCTGGACTCCCGCATGGGCATCTTCATCACCATGAACCCCGGCTACGCAGGC
CGCACGGAGCTGCCCGAGTCGGTGAAGGCGCTGTTCAGGCCTGTGGTCGTGATCGTGCCC
GACCTGCAGCAGATCTGTGAGATCATGCTCTTCTCTGAGGGCTTCCTGGAGGCCAAGACT
CTGGCGAAAAAGATGACGGTTCTGTATAAGCTGGCCCGGGAGCAGCTGTCCAAGCAGTAT
CACTATGATTTTGGACTCAGAGCCCTGAAATCGGTGCTGGTCATGGCTGGTGAGCTGAAG
AGAGGCTCCTCTGACCTTAGGGAGGACGTGGTGCTGATGAGGGCCTTGCGAGACATGAAC
TTGCCCAAATTTGTGTTTGAAGATGTTCCTCTTTTCCTTGGTTTGATTTCGGATCTGTTT
CCTGGGCTGGACTGCCCTCGCGTCCGCTACCCTGACTTCAACGATGCGGTAGAGCAGGTC
CTGGAGGAGAACGGCTACGCGGTCCTACCCATCCAGGTGGATAAAGTGGTTCAAATGTTC
GAGACCATGTTAACCCGCCACACGACGATGGTGGTGGGGCCCACCAGAGGGGGCAAGTCC
GTCGTCATTAACACTCTGTGTCAGGCCCAGACCAAGCTTGGGCTGACGACAAAGTTGTAC
ATCCTGAACCCCAAAGCCGTGAGTGTCATAGAACTCTACGGCATCCTGGACCCAACCACC
CGAGACTGGACAGATGGGGTGTTGTCAAACATCTTCAGGGAAATCAACAAGCCAACAGAC
AAGAAGGAGCGAAAGTATATTTTATTTGATGGTGATGTGGATGCTCTATGGGTGGAAAAC
ATGAATTCTGTGATGGATGACAACAGGTTGTTGACATTGGCCAACGGGGAACGCATCCGG
CTCCAAGCACACTGTGCCCTGCTCTTTGAGGTTGGAGATTTACAGTATGCCTCCCCTGCA
ACTGTCTCTCGATGTGGAATGGTTTATGTGGATCCTAAAAACTTGAAATATCGACCATAC
TGGAAAAAATGGGTTAATCAAATACCAAACAAGGTGGAGCAATACAATTTGAATAGTCTC
TTTGAGAAGTATGTGCCCTATCTCATGGATGTGATAGTGGAAGGAATTGTGGATGGAAGA
CAAGCAGAAAAGCTGAAGACAATAGTTCCTCAGACAGACCTCAATATGGTAACCCAGTTA
GCCAAGATGTTGGATGCGTTGCTAGAAGGAGAAATAGAAGACCTTGACCTGCTGGAGTGC
TACTTCCTGGAGGCTTTGTACTGCTCTCTGGGAGCCTCCCTGCTTGAGGATGGAAGGATG
AAATTTGACGAATATATCAAACGCCTTGCTTCTTTGTCTACTGTTGACACAGAAGGAGTT
TGGGCCAACCCTGGGGAACTGCCAGGTCAACTTCCAACCTTGTATGACTTTCATTTTGAT
AACAAACGGAATCAATGGGTCCCATGGAGTAAATTAGTTCCAGAGTATATTCATGCCCCC
GAGAGGAAATTCATCAACATCCTGGTTCACACAGTGGATACCACTCGGACTACCTGGATA
TTGGAACAAATGGTTAAAATTAAGCAACCTGTTATTTTTGTTGGTGAATCTGGCACTTCT
AAGACAGCCACTACCCAGAATTTCCTCAAAAATCTGAGTGAAGAAACTAACATTGTGTTA
ATGGTCAACTTCTCCTCCCGCACCACGTCCATGGATATCCAAAGAAATTTAGAAGCAAAT
GTGGAAAAGCGAACCAAAGATACTTACGGCCCACCCATGGGAAAACGCCTGCTGGTGTTC
ATGGATGACATGAATATGCCAAGGGTGGATGAATATGGCACGCAGCAGCCCATTGCCTTG
CTGAAGCTGCTGTTGGAAAAAGGCTACTTATATGACCGTGGGAAGGAGCTGAACTGTAAA
AGCATTCGAGACCTTGGCTTTATTGCTGCAATGGGAAAGGCTGGAGGAGGCCGCAATGAA
GTTGACCCAAGATTTATTTCGCTATTCAGTGTCTTCAATGTGCCATTTCCTTCAGAGGAG
TCTCTGCATTTAATTTATTCCTCCATCCTGAAAGGCCACACCTCGACGTTTCATGAGAGC
ATTGTGGCTGTGAGTGGCAAGCTGACATTCTGCACGCTAGCACTTTACAAAAATATTGTG
CAAGACCTACCTCCCACTCCGTCAAAGTTCCATTACATCTTCAACCTTCGAGATCTCTCA
CGGGTTTTTAATGGTCTTGTCCTCACTAACCCGGAGCGATTCCAGACGGTGGCCCAGATG
GTGAGAGTCTGGAGGAATGAGTGTCTGAGAGTCTTCCACGACCGGCTGATCAGTGAAACA
GACAAGCAGCTGGTACAACAGCACATAGGCAGCTTGGTTGTGGAACATTTTAAAGATGAC
GTGGAGGTGGTGATGAGGGATCCCATATTGTTTGGAGACTTCCAGATGGCTCTGCACGAA
GGAGAACCACGCATTTATGAAGACATCCAGGACTACGAGGCGGCCAAGGCTCTGTTCCAG
GAAATTCTTGAAGAGTATAATGAAAGCAACACCAAAATGAACTTGGTTCTCTTCGACGAT
GCTCTGGAGCATTTAACCCGGGTGCACCGTATCATCCGCATGGACCGCGGCCACGCCCTG
CTGGTCGGGGTAGGGGGCTCAGGGAAGCAGTCTCTTTCGAGGCTGGCTGCCTTCACAGCC
AGCTGTGAGGTGTTTGAGATCCTGCTGAGCCGAGGCTACTCGGAGAACAGTTTCCGGGAA
GACCTGAAGAGCCTCTATTTGAAACTTGGGATTGAGAACAAAGCGATGATCTTTCTGTTC
ACGGATGCCCATGTGGCTGAGGAGGGCTTCCTGGAGCTCATCAACAACATGCTGACCTCA
GGAATTGTACCTGCGCTTTTTTCTGAAGAGGAGAAAGAGTCTATCCTGAGTCAGATTGGA
CAGGAAGCTCTGAAGCAAGGCATGGGGCCGGCCAAGGAGTCTGTGTGGCAGTACTTCGTG
AACAAAAGTGCAAATAACCTGCACATTGTCCTGGGCATGTCGCCAGTGGGGGACACCCTG
AGGACCTGGTGCAGAAACTTCCCAGGTATGGTAAATAACACTGGTATTGACTGGTTCATG
CCCTGGCCTCCCCAAGCCCTCCATGCGGTCGCAAAGTCCTTTCTAGGGTATAATCCAATG
ATCCCGGCAGAAAATATAGAAAATGTGGTGAAGCATGTTGTCTTGGTTCACCAATCCGTG
GACCACTACAGCCAACAGTTTCTACAGAAATTGAGGCGCAGCAACTATGTCACTCCCAAG
AACTACCTTGATTTTATTAACACCTATTCAAAATTGCTGGATGAGAAAACTCAGTGTAAT
ATAGCTCAGTGCAAGCGTCTGGATGGGGGACTGGACAAGCTGAAGGAGGCCACCATCCAG
CTGGACGAGCTGAACCAGAAGCTGGCCGAGCAGAAGATCGTGCTGGCGGAGAAGTCCGCC
GCCTGCGAGGCCTTGCTGGAGGAGATCGCCGTCAACACCGCTGTAGCCGAGGAGAAGAAG
AAACTGGCAGAGGAAAAGGCCATGGAGATAGAGGAGCAGAACAAAGTCATTGCCATGGAG
AAGGCCGAGGCCGAGACGACCCTGGCAGAGGTCATGCCCATCCTGGAGGCCGCCAAGCTG
GAACTGCAGAAGCTGGACAAGTCGGACGTGACTGAGATTAGGTCGTTTGCTAAGCCCCCG
AAGCAGGTGCAGACGGTCTGCGAATGCATCCTCATCATGAAAGGGTACAAAGAGCTGAAC
TGGAAAACAGCCAAGGGCGTGATGTCCGACCCGAATTTCCTGCGGTCTCTGATGGAGATT
GATTTTGATTCGATTACCCAGAGCCAAGTGAAAAACATCAAAGGCCTCTTGAAGACTCTT
AATACCACAACTGAAGAAATGGAAGCTGTCAGCAAAGCCGGGCTGGGGATGCTGAAATTT
GTTGAAGCTGTAATGGGCTACTGTGATGTTTTCAGAGAAATCAAGCCCAAAAGAGAGAAG
GTGGCCAGGCTGGAGCGGAATTTTTACCTCACTAAACGGGAACTGGAAAGGATCCAGAAT
GAGTTGGCAGCAATTCAGAAAGAGCTGGAAACATTGGGTGCCAAATATGAGGCCGCCATA
CTGGAAAAGCAGAAGCTGCAGGAAGAAGCCGAGATCATGGAGAGGCGGCTGATTGCCGCA
GACAAACTCATCTCGGGTCTGGGGTCAGAAAACATCAGGTGGCTGAACGACCTGGATGAG
CTGATGCACCGGCGCGTGAAGCTGCTGGGGGACTGCCTGCTCTGCGCGGCTTTCCTCAGC
TACGAGGGAGCCTTCACCTGGGAGTTCCGTGACGAGATGGTCAATCGGATTTGGCAAAAT
GACATCCTGGAGCGGGAGATCCCCCTGAGCCAGCCTTTCCGGCTGGAAAGCCTGCTCACG
GATGATGTTGAGATCAGCAGATGGGGATCCCAGGGCCTTCCCCCCGATGAGCTCTCCGTT
CAGAATGGCATCCTCACCACCCGGGCCAGCCGCTTCCCTCTGTGTATCGACCCCCAGCAG
CAGGCCCTCAACTGGATCAAGAGAAAAGAGGAGAAGAACAATCTGCGGGTCGCTTCCTTT
AATGACCCTGACTTCCTCAAGCAGCTAGAGATGTCCATAAAGTACGGGACCCCTTTCCTG
TTCCGCGATGTTGATGAATACATCGATCCTGTGATTGACAACGTCTTAGAAAAAAATATA
AAAGTCTCCCAAGGACGGCAGTTTATTATCCTGGGAGACAAGGAAGTGGACTATGATTCA
AATTTCAGACTGTACCTGAACACCAAGCTGGCCAATCCCAGATATTCCCCATCCGTGTTT
GGGAAAGCTATGGTGATCAATTACACTGTCACGCTGAAGGGCCTGGAGGACCAGCTGCTG
AGCGTGCTGGTGGCTTACGAGAGGCGGGAGCTGGAGGAGCAGCGGGAGCACCTCATCCAG
GAGACCAGCGAGAACAAGAACCTGCTCAAGGACCTGGAAGATTCCCTCCTTCGGGAGCTG
GCCACGTCCACGGGGAACATGCTGGACAATGTGGACCTGGTGCACACCCTGGAGGAGACC
AAATCCAAGGCAACAGAGGTCTCAGAGAAACTCAAGCTGGCGGAGAAGACAGCCTTGGAC
ATCGACAGGCTGCGGGATGGCTACCGGCCAGCAGCCAGGAGGGGGGCCATCCTGTTCTTC
GTCCTGTCTGAGATGGCCCTGGTGAACTCCATGTACCAGTACTCCCTGATTGCCTTCTTA
GAGGTCTTCAGGCTGTCACTGAAGAAGTCGCTGCCTGATTCCATCCTCATGAAACGCCTG
AGGAACATCATGGACACGCTGACCTTCAGCATCTATAACCACGGCTGCACAGGGCTGTTT
GAGAGGCACAAGCTACTCTTTTCTTTTAATATGACCATCAAGATAGAACAAGCAGAAGGG
AGAGTCCCTCAAGAAGAACTAGATTTCTTTTTAAAAGGAAACATTTCCCTGGAGAAAAGC
AAAAGAAAAAAGCCCTGCGCTTGGTTGTCTGACCAAGGATGGGAAGATATCATTCTTTTA
TCAGAAATGTTTTCAGACAACTTTGGGCAACTTCCTGATGATGTTGAGAATAATCAGACT
GTCTGGCAGGAGTGGTATGACCTGGATTCACTGGAGCAGTTTCCCGTCCCCTTGGGTTAC
GATAACAACATCACCCCTTTCCAGAAGTTGCTTATTTTGCGCTGTTTCCGTGTGGATCGG
GTCTATCGGGCCGTGACTGACTATGTGACTGTAACAATGGGAGAGAAGTATGTGCAGCCC
CCAATGATCAGCTTTGAAGCTATTTTTGAGCAGAGCACTCCACATTCGCCCATTGTGTTT
ATCCTGAGTCCTGGCTCCGACCCTGCCACTGATCTTATGAAATTAGCAGAGCGAAGTGGT
TTTGGAGGAAATCGCCTCAAATTCCTTGCAATGGGTCAAGGTCAAGAAAAGGTGGCCCTG
CAGCTGCTGGAGACGGCGGTGGCTCGGGGGCAGTGGCTGATGCTGCAGAACTGCCACCTC
CTGGTCAAGTGGCTGAAAGATCTGGAGAAGTCCCTGGAGAGGATCACCAAGCCCCACCCA
GACTTCCGCCTGTGGCTCACCACGGACCCCACCAAGGGCTTCCCCATTGGGATTCTGCAG
AAGTCCCTAAAGGTTGTCACCGAGCCACCCAATGGGCTGAAACTCAACATGAGGGCAACT
TACTTCAAGATCTCTCACGAAATGCTGGACCAGTGCCCGCACCCTGCCTTCAAGCCGCTG
GTCTACGTGCTGGCGTTCTTTCATGCTGTGGTGCAGGAGAGAAGGAAGTTTGGGAAGATT
GGCTGGAACGTGTACTATGACTTCAATGAGTCTGACTTCCAGGTCTGCATGGAAATTCTG
AACACGTACTTAACGAAAGCCTTCCAGCAACGGGACCCAAGGATCCCGTGGGGCAGCCTC
AAGTACCTAATTGGAGAGGTCATGTATGGAGGACGGGCCATCGACAGCTTTGATCGCCGC
ATCCTGACCATCTACATGGATGAGTACCTGGGGGACTTCATTTTTGATACTTTCCAGCCA
TTCCACTTCTTCCGGAACAAGGAAGTGGACTACAAAATCCCTGTTGGTGATGAAAAGGAG
AAATTTGTTGAAGCCATCGAGGCCCTCCCGCTTGCCAACACGCCAGAAGTGTTTGGTCTC
CACCCCAACGCTGAGATTGGCTATTACACGCAGGCGGCTCGAGACATGTGGGCTCACCTG
CTGGAGCTGCAGCCTCAGACAGGGGAATCCAGCAGTGGTATCAGCCGCGATGATTATATT
GGCCAAGTGGCCAAAGAAATAGAAAACAAGATGCCCAAAGTCTTTGACTTGGACCAGGTG
AGGAAGCGCCTCGGAACAGGACTCTCCCCCACTTCGGTGGTGCTCCTGCAGGAACTGGAA
CGCTTCAACAAGCTTGTGGTCCGGATGACGAAGTCTCTGGCTGAACTTCAAAGGGCCTTG
GCTGGAGAAGTTGGAATGAGCAATGAGTTAGATGATGTGGCCAGGTCTCTTTTTATCGGG
CATATCCCTAATATCTGGAGAAGGCTTGCTCCTGACACCTTAAAGTCCCTTGGAAACTGG
ATGGTCTACTTCCTGCGGCGGTTCAGCCAGTACATGTTGTGGGTGACCGAGAGCGAGCCC
AGCGTGATGTGGCTCTCGGGGCTGCACATCCCTGAGTCCTACCTCACGGCGCTGGTGCAG
GCCACCTGCCGGAAGAACGGCTGGCCACTGGACCGCTCCACCTTGTTCACACAAGTGACC
AAGTTCCAGGATGCAGATGAAGTGAATGAGCGGGCGGGACAAGGATGCTTTGTCTCAGGA
CTGTACCTGGAAGGTGCTGACTGGGATATAGAAAAAGGATGTCTTATCAAGAGCAAACCC
AAGGTGCTGGTTGTGGACCTGCCGATCCTGAAGATCATCCCCATTGAAGCCCATCGCCTC
AAGCTGCAGAATACTTTCCGGACCCCCGTCTACACCACCTCCATGAGAAGGAACGCCATG
GGAGTCGGCTTGGTTTTTGAAGCTGATCTCTTTACCACGAGGCACATTTCTCACTGGGTG
CTGCAAGGAGTATGCCTCACCCTGAATTCTGATTAA
Restriction Sites Please inquire     
ACCN NM_207437
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_207437.1, NP_997320.1
RefSeq Size 3423 bp
RefSeq ORF 2742 bp
Locus ID 196385
UniProt ID Q8IVF4
Gene Summary Dyneins are microtubule-associated motor protein complexes composed of several heavy, light, and intermediate chains. The axonemal dyneins, found in cilia and flagella, are components of the outer and inner dynein arms attached to the peripheral microtubule doublets. DNAH10 is an inner arm dynein heavy chain (Maiti et al., 2000 [PubMed 11175280]).[supplied by OMIM, Mar 2008]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

Other Versions

SKU Description Size Price
RC229482 DNAH10 (Myc-DDK-tagged)-Human dynein, axonemal, heavy chain 10 (DNAH10)
    • 10 ug

CNY 63750.00

RG229482 DNAH10 (tGFP-tagged) - Human dynein, axonemal, heavy chain 10 (DNAH10)
    • 10 ug

CNY 70110.00

SC328117 DNAH10 (untagged)-Human dynein axonemal heavy chain 10 (DNAH10)
    • 10 ug

CNY 86070.00

其它DNAH10产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
相关产品 (4)

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4090.00

RC229482

DNAH10 (Myc-DDK-tagged)-Human dynein, axonemal, heavy chain 10 (DNAH10)

    • 10 ug

CNY 63750.00

SC328117

DNAH10 (untagged)-Human dynein axonemal heavy chain 10 (DNAH10)

    • 10 ug

CNY 86070.00

RG229482

DNAH10 (tGFP-tagged) - Human dynein, axonemal, heavy chain 10 (DNAH10)

    • 10 ug

CNY 70110.00

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