DNAH2 (NM_020877) Human Untagged Clone
CAT#: SC304854
DNAH2 (untagged)-Human dynein, axonemal, heavy chain 2 (DNAH2)
CNY 85,220.00
货期*
14周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | DNAHC2; DNHD3 |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_020877, the custom clone sequence may differ by one or more nucleotides
ATGTCCAGCAAAGCTGAGAAGAAGCAGCGATTGAGTGGCCGAGGAAGCTCCCAGGCAAGC TGGTCAGGGCGGGCCACTCGGGCTGCTGTGGCCACACAGGAGCAGGGGAATGCCCCGGCT GTCAGTGAGCCAGAGCTGCAGGCTGAGCTCCCCAAGGAGGAGCCTGAGCCACGGTTGGAG GGACCTCAAGCACAGAGTGAAGAATCAGTGGAGCCCGAGGCAGATGTGAAGCCCCTCTTC CTTTCCCGAGCTGCGCTGACAGGACTGGCGGATGCAGTGTGGACACAGGAGCATGATGCC ATTCTGGAACACTTTGCCCAGGACCCTACAGAATCCATCCTCACCATCTTCATTGACCCT TGTTTTGGGCTGAAGCTAGAGCTGGGCATGCCTGTACAGACCCAGAACCAGCTTGTCTAC TTCATTCGCCAAGCACCAGTTCCCATCACCTGGGAGAACTTCGAGGCAACTGTGCAGTTT GGGACGGTGCGGGGCCCCTATATCCCGGCCCTGCTTCGGCTGCTCGGTGGAGTCTTTGCC CCTCAGATCTTTGCAAACACAGGCTGGCCTGAGAGCATTAGAAATCATTTTGCTTCTCAT CTGCACAAGTTCTTGGCCTGCCTGACAGACACTCGGTACAAACTGGAGGGGCACACGGTC CTCTACATCCCTGCAGAGGCCATGAACATGAAGCCTGAGATGGTGATAAAGGACAAAGAG CTGGTGCAACGGCTAGAGACCTCCATGATCCACTGGACCCGGCAGATAAAGGAGATGCTC AGTGCCCAGGAGACTGTGGAGACAGGAGAAAATTTAGGTCCTCTGGAGGAGATTGAGTTC TGGCGCAACCGATGCATGGACCTGTCTGGCATCAGTAAGCAGCTGGTGAAGAAGGGAGTG AAGCACGTTGAATCCATCCTGCACCTTGCCAAGTCGTCCTACTTGGCGCCCTTTATGAAA CTGGCACAGCAGATCCAGGATGGCTCTCGTCAAGCACAGTCAAACCTGACCTTTTTGTCA ATCCTGAAGGAACCTTACCAGGAGTTGGCTTTCATGAAGCCCAAGGACATCTCTAGCAAG CTCCCTAAGCTGATCAGTCTCATCCGCATCATCTGGGTCAACTCTCCCCACTACAACACT CGGGAGAGACTGACCTCGCTCTTCCGAAAGGTATGTGACTGTCAGTATCACTTCGCCCGC TGGGAAGATGGCAAGCAGGGTCCCCTTCCTTGCTTCTTTGGTGCCCAGGGGCCACAGATA ACACGGAACTTGCTGGAGATTGAGGACATCTTTCATAAAAATCTGCACACGCTGCGAGCC GTTCGCGGGGGTATCCTGGATGTCAAGAACACCTGTTGGCATGAAGACTACAATAAGTTC CGTGCCGGAATCAAGGACCTGGAGGTGATGACCCAGAACCTGATCACCTCAGCCTTCGAG TTGGTGCGGGACGTGCCGCACGGCGTGCTTCTGCTGGACACCTTCCACAGGCTTGCCTCC CGCGAGGCTATCAAGCGGACTTATGACAAGAAGGCGGTGGATCTCTACATGCTGTTCAAT AGCGAGCTGGCCCTGGTGAACCGTGAACGGAACAAGAAATGGCCAGACCTGGAGCCCTAC GTGGCCCAGTATTCCGGAAAGGCGCGCTGGGTGCACATCCTCCGGCGTCGCATCGACAGA GTCATGACCTGCCTTGCTGGTGCTCATTTCCTGCCCCGTATTGGGACTGGAAAGGAGAGT GTGCACACCTATCAGCAGATGGTCCAGGCCATTGATGAGCTGGTTCGAAAAACCTTCCAA GAGTGGACATCAAGTCTGGACAAGGATTGCATTCGGCGGTTGGATACCCCATTGCTGCGA ATCAGCCAGGAGAAGGCGGGCATGCTGGATGTCAACTTTGACAAGTCCCTTCTGATTCTC TTTGCGGAAATTGACTACTGGGAGCGGCTGCTGTTTGAGACGCCCCATTACGTGGTGAAC GTAGCTGAGCGAGCCGAGGACCTGCGCATTCTGCGTGAAAATCTGCTACTCGTTGCTAGA GACTACAATAGGATTATTGCCATGCTGTCCCCAGATGAGCAGGCCCTATTCAAAGAGCGT ATTCGGCTCCTGGATAAGAAGATCCACCCGGGACTCAAGAAACTGCACTGGGCCTTGAAG GGGGCCAGTGCCTTCTTCATCACGGAGTGCCGTATACATGCCAGCAAGGTGCAGATGATT GTGAATGAGTTCAAGGCATCCACTCTGACCATTGGCTGGCGAGCCCAAGAGATGTCAGAG AAGCTGCTGGTACGCATTAGTGGCAAACGGGTATACAGGGACCTGGAATTTGAAGAGGAC CAAAGAGAGCATCGGGCAGCTGTACAGCAGAAATTGATGAACCTGCACCAGGATGTGGTG ACCATCATGACCAACTCCTATGAGGTCTTCAAGAATGATGGTCCTGAGATTCAGCAGCAG TGGATGCTGTACATGATTCGGCTGGACCGCATGATGGAGGATGCCCTGCGCCTGAATGTG AAGTGGTCACTGCTAGAACTATCCAAGGCTATCAACGGGGATGGAAAGACCAGCCCAAAC CCACTCTTCCAAGTCCTTGTCATTTTGAAGAATGATCTGCAAGGAAGTGTGGCACAGGTG GAATTCTCACCCACTCTGCAGACTTTGGCAGGTGTGGTCAATGACATTGGCAACCACCTC TTTTCCACCATCTCTGTCTTCTGCCACCTCCCTGACATTCTCACCAAGCGCAAGTTACAT CGTGAACCCATCCAAACAGTTGTGGAGCAAGATGAGGACATCAAGAAGATCCAGACCCAA ATCAGCAGCGGCATGACTAACAACGCAAGCCTGCTGCAGAACTACCTCAAGACCTGGGAC ATGTACCGGGAGATCTGGGAGATCAACAAGGACTCCTTCATTCATCGCTACCAGCGCCTC AACCCTCCTGTCTCTTCTTTTGTTGCCGACATTGCCCGCTACACGGAAGTTGCTAATAAC GTGCAGAAGGAGGAGACAGTCACCAACATCCAGTTTGTGCTGCTGGACTGTTCGCACCTC AAGTTCTCCCTGGTGCAGCACTGCAATGAATGGCAGAACAAGTTCGCGACTCTGCTCAGG GAGATGGCTGCTGGGCGCCTCCTGGAGCTGCACACCTACCTGAAGGAGAACGCAGAGAAA ATCAGCCGCCCTCCGCAGACACTGGAGGAACTGGGGGTCAGCTTGCAGCTCGTGGATGCC CTGAAGCACGACTTGGCCAACGTGGAGACTCAGATCCCTCCCATACACGAGCAATTTGCC ATTCTTGAAAAGTACGAGGTGCCAGTCGAGGACAGTGTCCTGGAGATGCTGGACAGTCTC AACGGGGAGTGGGTTGTCTTCCAACAAACTCTGCTGGACAGTAAGCAAATGCTGAAGAAA CACAAGGAGAAATTCAAGACAGGCCTGATCCACTCGGCAGATGACTTCAAGAAGAAAGCA CATACACTTCTGGAAGATTTCGAATTCAAAGGCCATTTCACCAGCAACGTGGGATACATG TCTGCCTTAGACCAGATTACACAAGTGCGGGCCATGCTGATGGCCATGCGGGAAGAGGAA AATAGTCTCCGAGCCAACCTGGGCATCTTCAAGATCGAGCAGCCACCCTCCAAGGACCTT CAGAACCTGGAGAAGGAGCTCGATGCCCTCCAGCAAATCTGGGAGATCGCACGAGACTGG GAGGAGAACTGGAATGAGTGGAAGACTGGCCGGTTCCTGATCCTGCAGACGGAAACCATG GAGACCACGGCCCACGGGCTGTTTCGTCGCCTCACAAAATTAGCCAAAGAGTATAAGGAC CGAAACTGGGAAATTATTGAAACCACTCGCTCAAAAATAGAGCAGTTCAAGAGGACCATG CCTCTCATCTCAGACCTGCGGAACCCTGCCCTTAGAGAGAGGCACTGGGACCAGGTCCGG GATGAGATCCAGCGGGAGTTTGATCAGGAATCTGAAAGCTTCACCTTGGAGCAGATTGTG GAGCTTGGGATGGATCAGCATGTGGAGAAAATTGGGGAGATCTCTGCTTCAGCAACTAAA GAGCTGGCTATAGAAGTGGCTTTACAAAACATTGCCAAGACCTGGGATGTGACTCAGCTC GACATAGTACCCTACAAGGATAAGGGCCATCATCGGCTCAGAGGTACAGAAGAAGTATTC CAGGCACTGGAAGATAACCAGGTAGCTCTGTCTACCATGAAGGCATCACGCTTTGTCAAG GCCTTTGAGAAGGATGTGGACCACTGGGAACGCTGCCTCTCCCTCATTTTGGAGGTTATT GAGATGATTCTCACAGTGCAGCGTCAGTGGATGTACTTAGAGAATATCTTCCTAGGAGAA GACATCCGCAAGCAGCTGCCCAATGAATCGACCTTATTTGACCAGGTCAACAGCAACTGG AAAGCCATCATGGACAGGATGAACAAGGACAACAATGCTCTCCGGAGCACCCATCACCCA GGCCTCCTGGACACATTGATAGAAATGAATACAATCCTGGAAGATATTCAGAAATCTCTG GATATGTATTTAGAGACCAAGCGACATATTTTCCCCCGCTTCTACTTCTTGTCCAATGAT GACCTGCTGGAGATTCTGGGCCAGTCCCGAAACCCAGAGGCTGTGCAGCCACACCTCAAA AAATGCTTTGACAACATCAAGTTGCTGAGAATCCAGAAGGTTGGAGGGCCCAGCAGCAAA TGGGAAGCTGTGGGGATGTTCTCGGGCGACGGCGAGTACATTGACTTCCTCCACTCAGTA TTTTTAGAAGGCCCTGTGGAGTCCTGGCTTGGCGATGTGGAACAGACCATGAGGGTGACC CTGCGGGACCTTCTCCGGAACTGCCACCTGGCCCTCAGGAAGTTCCTCAACAAGAGGGAC AAATGGGTGAAGGAGTGGGCTGGCCAGGTGGTGATCACTGCCAGTCAGATCCAGTGGACG GCTGATGTCACCAAGTGCCTGCTGACAGCGAAGGAGCGGGCAGACAAGAAAATCCTCAAG GTCATGAAGAAGAACCAGGTGTCAATCCTGAATAAGTATTCAGAAGCCATCAGGGGGAAC TTGACCAAGATCATGCGGCTTAAAATTGTGGCTCTGGTGACGATAGAAATTCATGCCCGG GATGTGTTGGAGAAGCTTTACAAGAGTGGCCTCATGGATGTCAATTCCTTTGACTGGCTC AGCCAACTTCGGTTCTACTGGGAGAAGGATCTTGATGACTGTGTGATCCGCCAGACCAAC ACGCAATTTCAGTATAATTATGAGTACTTGGGTAACTCGGGCCGGCTCGTCATCACCCCC CTGACGGACAGGTGTTACATGACACTGACCACGGCATTGCACCTGCACCGAGGGGGCTCC CCCAAAGGCCCTGCAGGCACAGGCAAGACCGAGACCGTCAAGGACCTGGGCAAGGCCCTG GGCATATATGTCATTGTGGTCAACTGCTCTGAGGGCCTGGACTACAAGTCCATGGGCCGA ATGTACTCAGGTCTGGCCCAGACTGGAGCTTGGGGCTGCTTTGATGAGTTTAACCGCATC AACATCGAGGTGCTGTCAGTGGTGGCCCACCAGATCCTGTGCATCCTGTCTGCCCTGGCT GCCGGCCTCACCCATTTCCATTTTGATGGCTTTGAAATAAATCTGGTGTGGTCCTGTGGG ATCTTCATTACCATGAATCCTGGCTATGCTGGCCGCACAGAGCTTCCCGAAAATCTTAAA TCCATGTTCCGCCCAATTGCCATGGTGGTGCCTGACTCCACCCTCATTGCAGAAATCATT CTCTTTGGAGAGGGCTTTGGCAACTGCAAGATTCTGGCCAAGAAGGTGTACACACTCTAC TCACTGGCTGTGCAGCAGCTGTCCAGACAGGACCACTATGACTTTGGCCTGCGTGCCCTC ACCTCCCTTCTGCGCTATGCTGGCAAGAAGCGCCGCCTACAGCCGGATCTGACTGATGAA GAGGTTCTGCTGCTCTCAATGAGAGATATGAACATCGCCAAGCTCACTTCAGTTGATGCA CCCCTGTTCAATGCCATCGTGCAAGATCTGTTTCCCAACATTGAGCTGCCTGTCATTGAC TATGGCAAGCTGCGGGAGACCGTTGAGCAGGAGATTCGAGACATGGGCCTGCAAAGCACG CCGTTCACCCTCACCAAGGTTTTCCAGTTGTATGAAACCAAGAACTCCCGCCACTCCACC ATGATCGTGGGCTGCACGGGCAGCGGCAAGACTGCCTCATGGCGCATTCTACAGGCCTCC CTGTCCTCTCTGTGCCGCGCCGGAGACCCTAACTTCAACATTGTTAGAGAGTTCCCTTTG AACCCCAAGGCATTGTCCCTAGGGGAACTGTATGGGGAATATGACCTCAGCACCAATGAA TGGACAGATGGCATCTTGTCCAGTGTCATGCGGACGGCATGTGCAGATGAGAAACCCGAC GAGAAGTGGATCCTGTTCGATGGCCCCGTGGACACACTGTGGATCGAGAACATGAACTCC GTCATGGACGATAACAAGGTGTTGACCCTCATCAACGGCGAGCGCATCGCGATGCCCGAG CAGGTGTCTCTCCTGTTTGAAGTGGAGGACCTGGCAATGGCCTCTCCGGCCACTGTATCC CGCTGCGGGATGGTCTACACTGACTACGCTGACCTGGGCTGGAAGCCCTATGTTCAGTCA TGGCTGGAGAAGAGGCCAAAGGCTGAGGTGGAGCCCCTTCAACGCATGTTCGAAAAGCTC ATCAACAAGATGCTGGCCTTTAAGAAGGACAACTGCAAGGAGCTGGTGCCCCTGCCCGAG TACAGCGGTATCACCTCCCTCTGCAAGCTGTACTCTGCCCTGGCCACGCCAGAGAATGGG GTGAACCCAGCTGACGGCGAGAACTATGTCACCATGGTAGAGATGACATTTGTGTTCAGC ATGATCTGGTCTGTGTGTGCCTCTGTGGATGAGGAGGGCCGGAAGAGGATCGACAGCTAC CTCCGAGAGATCGAGGGCTCCTTTCCCAATAAGGACACGGTATATGAGTATTTTGTGGAC CCCAAAATACGGAGTTGGACATCATTTGAGGACAAGCTCCCTAAGAGTTGGCGCTACCCT CCAAACGCCCCCTTCTATAAGATCATGGTGCCCACCGTCGACACTGTTCGCTACAACTAC CTGGTGAGCAGCTTGGTGGCCAACCAGAATCCCATTCTGCTGGTGGGTCCCGTGGGGACT GGGAAGACCTCCATCGCCCAGAGCGTTCTGCAGTCCCTGCCCTCCAGCCAGTGGTCGGTG CTCGTTGTCAACATGTCCGCACAGACCACATCCAATAACGTGCAGAGCATCATTGAGAGC AGGGTTGAGAAGCGAACCAAGGGTGTCTACGTGCCATTCGGGGGCAAAAGCATGATCACC TTTATGGATGACCTAAATATGCCCGCTAAGGACATGTTTGGGTCCCAGCCACCCCTGGAG CTGATCCGCCTCTGGATTGACTATGGCTTCTGGTATGACCGTACGAAGCAGACCATCAAG TACATTCGAGAAATGTTCCTGATGGCTGCCATGGGCCCCCCTGGGGGTGGACGGACTGTC ATCTCCCCAAGGCTACGGAGTCGCTTCAACATTATCAACATGACCTTCCCCACAAAGTCC CAGATCATCCGCATATTCGGCACCATGATCAATCAGAAGCTTCAGGACTTTGAGGAAGAG GTGAAGCCCATTGGGAACGTGGTGACAGAGGCCACCCTGGACATGTACAACACCGTGGTA CAGCGCTTCCTGCCCACGCCCACCAAGATGCATTACCTCTTCAACCTTCGAGACATCTCC AAGGTGTTCCAGGGCATGCTTAGAGCCAACAAGGACTTCCATGATACCAAGTCCAGCATC ACACGGCTCTGGATCCATGAATGTTTCAGAGTCTTCTCTGACCGGCTGGTTGATGCGGCA GACACAGAAGCCTTCATGGGCATCATAAGCGACAAGCTCGGCTCCTTCTTTGACCTCACA TTTCATCATCTCTGTCCCAGCAAGCGTCCTCCTATCTTTGGGGATTTCCTGAAGGAGCCC AAGGTGTATGAAGACCTCACGGATCTGACAGTGCTGAAGACAGTCATGGAGACAGCTCTA AATGAGTATAACCTGTCACCCTCTGTCGTGCCCATGCAGCTAGTGCTCTTCCGAGAGGCT ATTGAACACATCACACGGATCGTGCGGGTCATTGGACAGCCTCGGGGCAACATGCTCCTG GTGGGTATCGGGGGCAGCGGACGCCAGAGTCTGGCCCGCCTGGCTTCATCCATCTGCGAC TACACCACCTTCCAGATCGAGGTCACCAAACATTATCGGAAGCAGGAGTTCCGAGATGAT ATCAAGCGTCTGTATCGCCAGGCTGGGGTGGAGCTCAAGACCACGTCCTTCATTTTTGTG GACACCCAAATAGCTGATGAGTCCTTCCTAGAGGACATCAACAACATCCTCAGCTCAGGC GAGGTGCCCAATCTCTACAAGCCTGATGAATTTGAAGAGATCCAGTCGCATATCATAGAC CAGGCCCGGGTGGAGCAGGTGCCTGAGTCATCGGACAGCCTCTTCGCCTACCTCATTGAA CGCGTGCAGAACAACCTGCACATCGTGCTCTGCCTCAGCCCCATGGGGGATCCCTTCAGG AACTGGATCCGCCAGTACCCAGCCTTGGTGAACTGCACAACCATCAACTGGTTCTCAGAG TGGCCCCAAGAGGCCCTGCTCGAGGTGGCTGAGAAGTGCCTCATAGGAGTAGACCTGGGA ACTCAGGAGAATATCCACAGGAAGGTGGCCCAGATCTTTGTCACTATGCACTGGTCAGTA GCTCAGTATTCCCAGAAGATGCTGTTGGAACTGCGGAGACACAACTATGTCACACCCACC AAATACCTGGAACTCCTGTCTGGATATAAGAAGTTGCTGGGAGAAAAACGGCAGGAGCTG CTGGCCCAAGCCAATAAACTGCGGACAGGCTTGTTCAAGATCGACGAAACTAGGGAAAAG GTGCAAGTGATGTCGTTGGAGCTGGAGGATGCCAAGAAGAAGGTGGCTGAGTTCCAGAAG CAGTGTGAGGAGTACCTGGTCATCATTGTGCAGCAGAAGCGGGAGGCAGATGAGCAGCAG AAGGCCGTAACAGCCAACAGTGAAAAGATTGCAGTTGAGGAAATCAAGTGTCAGGCACTG GCTGACAATGCCCAGAAAGATCTAGAAGAGGCACTGCCCGCCCTGGAAGAGGCCATGCGG GCCCTGGAGTCTCTGAACAAGAAGGATATAGGAGAGATCAAGTCTTATGGACGGCCCCCA GCCCAAGTGGAGATAGTGATGCAGGCAGTTATGATTCTTCGAGGCAACGAGCCCACATGG GCAGAGGCCAAGAGGCAGCTAGGGGAACAGAACTTCATCAAGTCACTGATCAACTTTGAT AAAGACAATATCTCAGATAAGGTTCTGAAGAAGATTGGGGCCTACTGCGCCCAGCCTGAC TTCCAGCCTGATATCATCGGCCGCGTCTCCCTGGCTGCCAAGTCCCTCTGCATGTGGGTG CGGGCCATGGAGCTGTATGGGCGGCTATATCGGGTGGTGGAGCCCAAGCGAATCCGAATG AACGCTGCCTTGGCTCAGCTTCGGGAGAAGCAAGCCGCGCTCGCTGAGGCCCAGGAGAAG CTGCGGGAGGTAGCTGAGAAACTGGAGATGCTAAAGAAACAGTATGATGAGAAGCTGGCA CAGAAGGAGGAGCTTCGCAAGAAGTCTGAAGAGATGGAGCTGAAGCTGGAGCGAGCTGGG ATGCTCGTGTCGGGGTTGGCTGGCGAGAAGGCCAGATGGGAGGAGACAGTCCAGGGCCTG GAGGAGGACCTGGGCTACCTGGTGGGGGACTGTCTCCTGGCAGCTGCCTTCCTGTCCTAC ATGGGACCCTTCCTGACCAACTACCGGGATGAGATTGTCAACCAAATCTGGATCGGGAAG ATCTGGGAGCTTCAGGTTCCTTGCTCCCCTTCTTTCGCCATCGATAACTTCCTGTGCAAT CCTACCAAAGTCCGGGACTGGAACATCCAAGGGTTGCCCTCAGACGCCTTCTCCACTGAG AATGGCATCATCGTCACCCGAGGCAACAGGTGGGCACTGATGATCGACCCTCAGGCCCAG GCCCTGAAATGGATTAAGAACATGGAAGGAGGCCAGGGCCTGAAGATCATCGACCTGCAG ATGAGCGATTACCTGCGAATCCTAGAACACGCCATTCACTTTGGATACCCGGTGCTACTT CAGAACGTGCAGGAATATCTGGACCCCACACTGAACCCCATGCTCAACAAATCTGTAGCC CGAATCGGTGGTCGGCTGTTGATGCGCATTGGCGATAAGGAGGTGGAATATAATACCAAT TTCCGTTTCTACATCACCACCAAGCTCTCCAACCCCCACTACAGCCCAGAGACCTCAGCC AAGACCACCATCGTCAACTTTGCTGTTAAAGAACAGGGCCTGGAGGCCCAGCTGCTGGGC ATTGTGGTGCGGAAGGAGCGGCCTGAGCTGGAGGAGCAGAAGGACTCACTGGTCATCAAC ATCGCGGCTGGTAAAAGGAAGCTCAAGGAGCTGGAGGATGAGATCCTGCGGCTGCTGAAT GAGGCCACCGGCTCCCTGCTGGATGATGTGCAGCTGGTGAACACGCTGCATACCTCCAAG ATCACAGCCACAGAGGTGACTGAGCAGCTGGAGACCAGTGAGACCACAGAGATCAACACT GACTTGGCGCGGGAGGCTTACCGCCCATGCGCCCAGCGGGCATCAATCCTGTTCTTCGTG CTCAATGATATGGGCTGCATCGACCCCATGTACCAGTTCTCACTGGATGCCTACATCAGC CTCTTTATTCTCAGCATTGACAAAAGCCACCGCAGCAATAAGCTGGAGGACCGCATTGAC TACCTGAATGACTACCACACCTACGCTGTCTACAGGTACACCTGCCGTACCCTTTTCGAA CGCCACAAACTACTATTCAGTTTTCATATGTGTGCCAAAATCTTGGAGACTTCTGGCAAG CTCAACATGGATGAATACAACTTCTTTCTACGTGGGGGTGTGGTCTTGGATCGGGAGGGC CAAATGGACAATCCATGTAGTAGCTGGCTTGCAGATGCCTACTGGGATAACATCACAGAG CTAGACAAACTGACCAACTTCCACGGACTCATGAACTCCTTTGAGCAGTACCCTCGTGAC TGGCACCTGTGGTATACCAATGCTGCCCCGGAGAAGGCGATGCTGCCAGGTGAGTGGGAA AATGCCTGCAATGAAATGCAACGGATGCTGATCGTTCGCTCCCTGCGCCAGGACCGCGTG GCCTTCTGCGTGACCTCCTTCATCATCACCAACCTTGGCTCCCGCTTCATCGAGCCGCCT GTGCTGAATATGAAGTCGGTGCTGGAGGATTCAACCCCACGATCCCCACTCGTGTTCATC CTGTCCCCTGGTGTGGACCCCACCAGTGCCCTGCTGCAGCTGGCAGAGCACATGGGCATG GCCCAGCGCTTCCACGCCCTGTCCCTGGGCCAGGGCCAGGCCCCCATCGCTGCTCGGCTC CTCCGAGAGGGTGTGACTCAGGGACACTGGGTGTTCCTGGCAAACTGCCACCTGTCACTG TCTTGGATGCCTAATCTGGACAAGCTGGTGGAGCAGCTGCAGGTGGAGGATCCTCATCCA TCCTTCCGCCTCTGGCTCAGCTCCATCCCCCACCCAGACTTCCCTATCTCAATCTTGCAG GTCAGCATCAAGATGACCACAGAGCCACCAAAGGGCCTAAAGGCCAACATGACACGTCTT TACCAACTGATGTCAGAACCACAGTTTTCCCGCTGCTCCAAACCTGCCAAATATAAGAAG CTGCTGTTTTCACTCTGTTTCTTCCACTCTGTGTTACTTGAACGCAAAAAGTTCCTGCAG CTTGGCTGGAACATCATCTATGGCTTCAATGACTCCGACTTTGAGGTGTCAGAAAACTTG CTGAGCCTCTATCTCGATGAGTACGAGGAGACACCTTGGGACGCACTTAAGTACCTCATT GCCGGCATCAACTATGGTGGACATGTCACAGATGACTGGGACCGGCGCCTGCTGACCACC TACATCAATGATTATTTCTGTGACCAGTCTCTATCAACTCCCTTCCACCGGTTGTCAGCA CTGGAGACTTATTTCATCCCCAAGGATGGCAGCCTCGCTTCTTACAAGGAATACATCAGC TTATTGCCTGGCATGGACCCCCCTGAGGCCTTTGGCCAGCACCCCAATGCTGATGTGGCC TCTCAGATCACTGAGGCACAAACCCTCTTTGATACTTTGCTTTCCTTGCAACCTCAGATT ACACCCACCAGGGCTGGAGGCCAGACCCGGGAAGAGAAGGTCCTTGAGTTGGCCGCTGAT GTGAAGCAGAAGATCCCTGAAATGATCGACTATGAGGGGACTCAAAAACTGCTAGCTCTC GACCCCTCCCCCCTCAATGTGGTCCTTCTGCAGGAGATCCAGAGATACAACACACTGATG CAGACCATCCTGTTCTCACTGACAGACCTAGAGAAAGGCATCCAGGGTCTCATCGTCATG TCTACAAGCCTGGAAGAGATTTTCAATTGCATCTTTGATGCCCATGTTCCTCCGCTCTGG GGAAAGGCATACCCCTCACAAAAGCCATTGGCTGCCTGGACCCGGGACTTGGCCATGCGT GTGGAGCAGTTTGAGCTGTGGGCCAGCCGGGCCCGGCCTCCTGTGATCTTCTGGTTGTCT GGTTTCACCTTTCCCACTGGCTTCCTCACTGCTGTGCTGCAGTCTTCAGCTCGCCAAAAC AACGTTTCAGTGGACAGCCTCTCCTGGGAGTTTATCGTTTCCACTGTGGATGACAGCAAC CTAGTGTATCCCCCCAAGGATGGTGTCTGGGTCCGGGGCCTGTACCTGGAAGGTGCTGGC TGGGACCGGAAGAACTCCTGCTTGGTGGAGGCAGAGCCCATGCAGCTTGTCTGCCTCATG CCCACGATCCACTTCCGGCCTGCAGAGAGCCGCAAGAAGAGCGCCAAGGGCATGTACTCC TGCCCCTGCTATTACTATCCCAACCGGGCAGGCAGCTCAGACCGAGCCTCCTTTGTCATC GGCATTGACCTGCGGTCTGGGGCCATGACACCTGATCATTGGATCAAGAGGGGCACTGCT CTACTCATGAGCCTGGACAGCTGA |
Restriction Sites | Please inquire |
ACCN | NM_020877 |
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_020877.2, NP_065928.2 |
RefSeq Size | 13505 bp |
RefSeq ORF | 13284 bp |
Locus ID | 146754 |
UniProt ID | Q9P225 |
Protein Pathways | Huntington's disease |
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. DNAH2 is an axonemal inner arm dynein heavy chain (Chapelin et al., 1997 [PubMed 9256245]).[supplied by OMIM, Mar 2008] Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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