DNAH3 (NM_017539) Human Tagged ORF Clone

CAT#: RC213544

  • TrueORF®

DNAH3 (Myc-DDK-tagged)-Human dynein, axonemal, heavy chain 3 (DNAH3)

ORF Plasmid: DDK tGFP

Datasheet
SDS
Plasmid Map

  "NM_017539" in other vectors (2)

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CNY 58,620.00

货期*
详询
规格
    • 10 ug

Product images

经常一起买 (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

CNY 5,420.00

添加到购物车
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

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

CNY 1,280.00

暂停销售
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

CNY 300.00

添加到购物车

【特别福利】购一抗正装产品,免费领10ul抗体试用装

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]
*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
RG213544 DNAH3 (tGFP-tagged) - Human dynein, axonemal, heavy chain 3 (DNAH3)
    • 10 ug

CNY 64,510.00

SC304477 DNAH3 (untagged)-Human dynein, axonemal, heavy chain 3 (DNAH3)
    • 10 ug

CNY 79,140.00

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