DNAH3 (NM_017539) Human Untagged Clone
CAT#: SC304477
DNAH3 (untagged)-Human dynein, axonemal, heavy chain 3 (DNAH3)
CNY 79,140.00
货期*
13周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | DNAHC3-B; DNAHC3B; HDHC8; HEL-36; HSADHC3 |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_017539, the custom clone sequence may differ by one or more nucleotides
ATGGGAGCTACAGGGCGCCTCGAGCTCACACTGGCCGCCCCTCCCCATCCGGGCCCAGCC TTTCAGCGTTCAAAAGCCAGGGAGACCCAAGGAGAGGAGGAAGGGAGTGAAATGCAGATC GCCAAAAGTGACTCCATACATCACATGAGCCACTCCCAGGGGCAGCCAGAGCTGCCTCCT CTGCCTGCTTCTGCTAATGAGGAACCGTCTGGACTCTATCAGACTGTCATGTCACACAGC TTTTACCCGCCCTTGATGCAACGCACGTCATGGACCTTGGCTGCACCCTTCAAAGAACAG CATCACCACCGTGGACCCAGTGATTCCATCGCCAACAACTACTCCTTGATGGCCCAGGAC CTGAAGCTGAAAGATCTGCTGAAGGTCTACCAACCGGCCACCATCAGTGTCCCTAGGGAC AGGACCGGTCAGGGGCTGCCATCATCAGGAAATAGAAGCTCATCAGAGCCCATGAGGAAA AAAACGAAGTTTTCCTCCAGAAACAAAGAGGATTCCACTAGGATCAAGTTGGCCTTCAAG ACGTCAATCTTCTCACCCATGAAGAAGGAGGTAAAGACATCTTTGACGTTCCCAGGAAGC AGACCAATGAGTCCAGAACAGCAGCTCGATGTCATGTTACAGCAGGAGATGGAAATGGAA AGTAAAGAAAAGAAGCCATCTGAATCGGACCTGGAGAGATACTATTACTATCTGACCAAT GGAATTCGCAAAGACATGATTGCCCCTGAGGAGGGTGAAGTGATGGTTCGGATTTCAAAG CTGATTTCTAACACGCTGCTGACGAGTCCCTTCCTGGAGCCCCTGATGGTGGTCCTCGTG CAGGAGAAGGAGAATGACTATTACTGTAGCCTCATGAAAAGCATCGTTGATTACATCCTC ATGGACCCAATGGAGAGAAAACGGCTCTTTATTGAGAGCATCCCCCGCTTGTTTCCTCAA AGAGTGATCCGGGCCCCTGTGCCCTGGCACAGTGTCTACAGGAGCGCCAAGAAGTGGAAC GAGGAGCATCTGCACACGGTGAACCCCATGATGCTCAGGCTGAAAGAACTGTGGTTTGCA GAATTCAGAGACCTCAGGTTTGTTCGAACAGCAGAAATACTAGCGGGAAAATTGCCTCTG CAGCCTCAGGAATTTTGGGATGTGATCCAGAAACACTGCCTGGAGGCACACCAGACTCTT CTCAACAAGTGGATCCCCACCTGCGCCCAGCTTTTTACCTCACGGAAGGAGCACTGGATT CATTTTGCTCCCAAGAGCAACTATGACTCAAGTCGAAACATTGAGGAATATTTTGCTTCT GTGGCATCATTCATGTCGCTGCAGCTTAGGGAGCTGGTCATTAAGTCACTTGAGGACCTC GTTTCCCTTTTCATGATACACAAAGATGGGAATGATTTTAAGGAGCCCTACCAAGAGATG AAGTTTTTCATACCTCAGCTAATCATGATCAAACTTGAAGTCAGTGAACCCATTATTGTC TTCAATCCATCTTTTGATGGCTGCTGGGAATTAATACGTGACTCTTTCCTGGAAATTATT AAGAACTCTAATGGGATCCCCAAGCTGAAATACATACCACTTAAGTTCTCCTTCACTGCT GCTGCTGCTGATCGGCAATGTGTGAAAGCAGCTGAGCCAGGAGAGCCCAGCATGCACGCG GCTGCCACTGCAATGGCAGAGCTGAAAGGATATAATCTGCTCCTTGGAACTGTTAACGCA GAAGAAAAACTTGTTTCTGATTTTTTGATTCAAACTTTCAAGGTATTTCAGAAAAATCAA GTTGGCCCCTGCAAATATTTAAATGTCTACAAAAAGTATGTTGACTTATTGGATAACACG GCAGAGCAAAACATCGCTGCGTTCCTGAAAGAAAATCATGACATTGATGATTTTGTGACG AAGATCAATGCCATAAAGAAACGGAGAAATGAAATTGCATCCATGAACATCACCGTGCCT TTAGCCATGTTCTGCCTTGATGCTACGGCCCTAAATCATGATCTCTGTGAGCGAGCTCAA AATCTTAAAGACCATCTGATTCAATTCCAAGTGGATGTAAACCGAGACACCAATACCAGC ATTTGTAATCAGTACAGCCACATCGCAGACAAAGTCAGTGAGGTTCCTGCCAACACTAAG GAGCTGGTATCCCTCATTGAATTCCTAAAGAAATCCAGTGCTGTCACTGTGTTCAAACTC AGGAGGCAACTTAGAGATGCAAGTGAACGGCTGGAGTTCCTGATGGACTATGCAGACTTG CCGTACCAGATTGAAGATATCTTTGACAACAGCCGGAACTTGCTCCTTCACAAGAGGGAT CAGGCAGAAATGGATCTGATTAAAAGATGCTCAGAATTTGAGTTGAGACTTGAGGGCTAC CACAGAGAACTGGAAAGTTTTAGGAAGCGCGAAGTGATGACTACAGAAGAAATGAAGCAC AATGTTGAAAAGCTTAATGAGCTTTCAAAGAACCTAAATCGGGCGTTTGCAGAGTTTGAG TTGATCAATAAGGAGGAAGAGCTATTGGAAAAGGAGAAGAGTACTTACCCTCTTCTGCAG GCCATGCTGAAGAACAAAGTACCTTATGAGCAGCTGTGGTCGACAGCCTATGAGTTCAGC ATCAAGTCAGAGGAATGGATGAATGGACCCCTCTTCTTACTGAATGCTGAGCAAATTGCG GAGGAGATAGGGAATATGTGGAGGACAACGTATAAACTGATCAAGACCTTGTCTGATGTG CCTGCACCCAGGCGCTTAGCAGAGAATGTGAAGATCAAGATCGATAAGTTCAAGCAGTAC ATTCCCATCCTCAGTATTTCCTGCAACCCAGGAATGAAAGACCGACACTGGCAGCAGATC AGTGAGATTGTTGGCTATGAGATAAAGCCCACCGAAACGACCTGCCTCTCAAATATGCTC GAATTTGGATTCGGCAAATTCGTTGAAAAATTGGAGCCCATTGGTGCAGCTGCCAGCAAG GAATACTCTCTGGAGAAAAACTTGGATAGAATGAAGTTGGATTGGGTTAACGTGACGTTC AGCTTCGTGAAATACAGGGACACTGATACAAACATCTTGTGTGCAATTGATGACATTCAA ATGCTACTTGATGATCACGTGATAAAGACCCAGACCATGTGTGGCTCCCCATTCATCAAA CCAATAGAAGCAGAATGCCGGAAATGGGAAGAAAAGCTAATTCGCATACAAGACAATTTG GATGCCTGGTTGAAATGCCAAGCCACCTGGCTGTACCTGGAACCAATCTTCAGTTCAGAG GACATCATAGCCCAGATGCCAGAAGAGGGGAGGAAATTTGGCATTGTTGATAGTTACTGG AAATCACTTATGTCCCAAGCGGTGAAAGATAACAGGATTCTGGTGGCAGCCGACCAGCCA CGGATGGCAGAGAAGCTTCAAGAAGCCAACTTTCTCTTGGAGGACATCCAGAAAGGGCTG AATGATTACTTGGAGAAGAAGAGACTATTCTTCCCCAGATTCTTCTTCCTATCAAACGAT GAGCTGCTGGAAATCTTGTCCGAGACAAAGGACCCTCTCCGAGTGCAGCCGCACTTGAAG AAGTGCTTTGAAGGAATTGCCAAGCTTGAGTTTACAGACAATCTGGAAATTGTGGGCATG ATCAGCTCGGAAAAAGAAACTGTTCCATTCATACAGAAAATCTACCCAGCTAATGCCAAG GGCATGGTGGAAAAGTGGCTCCAGCAGGTGGAGCAGATGATGCTGGCCAGTATGCGAGAA GTCATTGGACTTGGGATTGAAGCATATGTCAAGGTCCCTCGAAATCACTGGGTCTTACAG TGGCCTGGACAGGTGGTTATCTGTGTCTCCTCCATCTTTTGGACCCAGGAGGTGTCCCAA GCCCTGGCGGAAAATACCTTACTGGATTTTCTGAAAAAGAGCAATGATCAGATTGCGCAG ATTGTCCAGCTGGTGCGAGGGAAGCTGAGCAGTGGAGCTCGACTCACTCTCGGGGCCCTC ACGGTCATCGATGTCCACGCCCGCGACGTGGTGGCCAAGTTATCTGAGGACAGGGTCTCC GATCTGAATGATTTCCAATGGATCTCACAGCTGCGCTACTACTGGGTGGCCAAGGATGTG CAGGTGCAGATTATCACCACAGAAGCCTTGTATGGCTATGAGTACCTGGGAAACTCCCCC CGGCTGGTGATCACACCCCTCACCGACCGCTGCTACAGGACACTGATGGGAGCTTTGAAG CTGAACCTTGGGGGTGCTCCAGAGGGTCCAGCTGGGACTGGCAAGACAGAAACCACCAAA GATTTGGCCAAAGCCTTGGCTAAGCAGTGTGTGGTCTTCAACTGCTCCGATGGTTTGGAT TACAAAGCTATGGGGAAGTTCTTCAAGGGGCTGGCACAGGCTGGAGCATGGGCGTGCTTT GATGAGTTCAACAGGATCGAGGTAGAAGTGCTGTCTGTGGTCGCTCAGCAGATCCTCAGC ATCCAACAAGCCATCATTCGGAAGCTAAAGACATTCATCTTTGAAGGGACTGAGCTCTCT CTGAACCCAACCTGCGCTGTGTTCATCACCATGAACCCCGGGTATGCTGGCAGGGCTGAA CTGCCCGACAATCTCAAGGCCTTGTTCCGGACAGTGGCCATGATGGTCCCAGATTACGCC CTCATTGGAGAAATCTCCCTCTACTCCATGGGGTTTCTGGACTCCAGAAGTCTCGCCCAG AAGATCGTTGCGACCTACCGCCTGTGCTCGGAACAACTGTCCTCTCAGCATCACTATGAC TACGGTATGCGCGCTGTCAAGTCTGTGCTTACTGCCGCAGGAAACCTGAAGCTCAAGTAT CCAGAGGAGAATGAAAGTGTCCTGCTGCTCCGGGCATTGCTTGATGTCAATCTGGCCAAG TTCTTAGCGCAAGATGTCCCTCTGTTTCAGGGAATTATATCTGATTTATTTCCTGGAGTT GTTCTTCCAAAGCCAGACTATGAAGTTTTTCTGAAAGTGCTGAATGATAACATCAAAAAG ATGAAACTCCAGCCAGTACCTTGGTTTATAGGGAAAATTATCCAGATCTACGAAATGATG CTGGTGAGACATGGCTATATGATTGTAGGAGACCCCATGGGCGGCAAGACCTCTGCTTAT AAAGTGTTGGCTGCAGCTCTCGGCGATTTACACGCAGCCAATCAGATGGAGGAGTTTGCT GTGGAGTACAAGATCATCAACCCCAAGGCTATCACGATGGGGCAGCTGTATGGGTGCTTT GACCAAGTGAGCCACGAGTGGATGGATGGTGTCCTTGCCAATGCTTTCCGGGAGCAAGCG TCTTCACTCTCTGATGATCGCAAGTGGATTATATTTGATGGGCCAGTGGATGCTATTTGG ATTGAAAATATGAACACTGTTCTGGATGACAATAAAAAGCTGTGTCTCATGAGTGGGGAA ATTATCCAGATGAACTCCAAGATGAGCCTGATCTTCGAGCCCGCCGACCTCGAGCAAGCC TCTCCAGCCACTGTGAGCAGGTGTGGGATGATCTACATGGAGCCCCATCAACTAGGCTGG AAGCCCCTGAAGGATTCCTACATGGACACCCTGCCCTCCAGTCTCACCAAGGAGCACAAA GAATTGGTCAATGACATGTTCATGTGGCTTGTCCAGCCCTGCCTGGAATTTGGTCGCCTT CATTGTAAATTTGTTGTCCAGACATCTCCCATCCACCTTGCCTTCTCAATGATGAGACTG TACTCTTCTCTGCTTGATGAAATCAGGGCAGTAGAAGAGGAGGAAATGGAATTAGGTGAA GGCCTGTCAAGTCAACAGATCTTTCTCTGGCTCCAAGGACTGTTTCTCTTTTCCTTGGTG TGGACCGTGGCTGGCACCATCAACGCAGACAGCAGAAAGAAATTTGATGTGTTTTTCCGC AACCTGATCATGGGCATGGATGATAACCACCCAAGGCCCAAAAGCGTCAAACTCACCAAA AACAACATCTTTCCAGAAAGAGGAAGCATCTATGATTTTTATTTTATCAAACAAGCTAGT GGACATTGGGAAACGTGGACACAGTATATCACCAAAGAGGAGGAAAAAGTTCCAGCTGGT GCAAAGGTCTCAGAACTCATCATCCCCACAATGGAGACAGCCCGGCAGTCCTTCTTCTTG AAAACCTACTTAGACCATGAGATTCCAATGCTGTTCGTGGGTCCCACAGGCACTGGCAAA TCAGCCATCACCAACAACTTCCTTCTCCACCTTCCCAAAAATACGTACCTACCCAACTGC ATCAATTTCTCTGCCAGAACCTCAGCCAATCAGACCCAGGATATCATCATGTCCAAGCTG GATCGACGACGGAAGGGCCTTTTCGGGCCTCCCATAGGGAAGAAAGCAGTGGTGTTTGTG GATGACCTCAACATGCCAGCCAAAGAGGTGTATGGGGCCCAGCCACCCATCGAGCTCCTG AGGCAGTGGATTGACCATGGTTACTGGTTTGACAAGAAAGACACAACCAGGCTGGACATC GTGGACATGCTGCTCGTGACAGCCATGGGGCCCCCCGGGGGAGGAAGGAATGACATTACT GGACGATTCACTCGCCATCTGAATATCATTTCCATCAATGCCTTTGAGGATGACATTTTA ACCAAGATTTTCAGTTCGATTGTTGACTGGCACTTCGGGAAAGGGTTTGATGTGATGTTT TTAAGGTACGGAAAGATGCTGGTCCAAGCTACTAAGACAATTTATAGAGATGCAGTGGAG AACTTCTTGCCAACTCCCTCGAAGTCACATTACGTCTTTAACCTGCGGGACTTCTCACGA GTGATTCAAGGGGTCCTGCTGTGCCCTCACACACACCTGCAGGATGTAGAAAAATGTATC CGGCTTTGGATCCATGAGGTTTATCGGGTCTTCTATGATCGTCTGATTGACAAGGAGGAC AGACAGGTCTTTTTCAACATGGTGAAGGAAACCACCTCCAATTGCTTCAAGCAGACCATA GAGAAGGTGCTTATCCACTTGTCACCCACTGGAAAGATAGTCGATGATAACATTCGAAGC CTCTTCTTTGGAGATTATTTCAAGCCAGAAAGTGACCAAAAAATCTACGATGAGATCACT GACCTGAAACAGCTGACTGTGGTCATGGAGCACTATCTGGAAGAATTCAACAACATCAGC AAGGCCCCCATGTCCCTGGTCATGTTCAGGTTTGCCATTGAGCACATCTCTAGGATCTGC CGTGTCCTGAAGCAGGACAAAGGCCACCTGCTCCTGGTGGGCATAGGGGGCAGCGGGCGG CAAAGTGCCGCCAAACTGTCCACATTCATGAACGCATACGAGCTATACCAGATTGAGATC ACCAAGAACTACGCAGGCAATGACTGGCGAGAAGATCTTAAGAAGATCATACTGCAGGTC GGTGTGGCCACCAAGAGCACCGTGTTCCTCTTCGCCGACAACCAGATCAAGGATGAATCA TTCGTGGAGGACATCAACATGCTTCTGAACACAGGTGACGTGCCTAACATCTTCCCTGCT GACGAGAAGGCTGACATCGTGGAGAAGATGCAGACTGCAGCCAGGACCCAAGGAGAGAAG GTTGAAGTCACTCCTCTTTCTATGTATAACTTCTTTATTGAGAGGGTAATTAACAAAATC TCCTTTTCATTAGCCATGAGTCCAATAGGGGATGCCTTCAGGAACCGCCTGCGGATGTTC CCTTCGCTGATCAATTGCTGTACGATTGATTGGTTCCAGTCCTGGCCCACAGATGCCCTA GAGTTGGTGGCTAACAAATTTCTAGAGGATGTGGAGCTTGATGACAACATTCGGGTAGAG GTCGTGTCCATGTGCAAATATTTCCAAGAGAGCGTCAAGAAGCTGTCACTCGATTATTAC AACAAACTTCGAAGACACAACTATGTTACCCCCACCTCCTACCTTGAATTGATTCTAACC TTCAAGACGCTCCTGAATAGCAAGAGGCAAGAGGTGGCTATGATGAGGAACCGCTACCTG ACAGGCTTGCAGAAACTCGACTTTGCAGCTTCTCAGGTAGCGGTTATGCAAAGAGAACTG ACAGCTCTTCAACCTCAACTCATCCTCACCTCCGAGGAAACTGCCAAGATGATGGTGAAA ATTGAAGCGGAGACGAGAGAAGCTGATGGAAAGAAACTTCTGGTGCAGGCAGATGAAAAA GAAGCCAATGTTGCTGCTGCCATTGCCCAAGGAATCAAGAACGAATGTGAGGGGGACCTA GCTGAGGCAATGCCTGCACTCGAGGCTGCACTAGCTGCTCTGGACACCCTGAACCCGGCC GACATCTCGCTGGTGAAGTCGATGCAGAACCCACCAGGCCCTGTCAAACTGGTCATGGAG AGCATCTGCATCATGAAAGGGATGAAGCCAGAGAGGAAGCCAGACCCCAGTGGCTCCGGT AAGATGATAGAAGATTACTGGGGGGTATCCAAAAAGATTCTTGGGGATCTGAAATTCTTG GAGAGTCTTAAGACATATGACAAAGACAACATCCCCCCACTGACCATGAAGCGGATCCGG GAAAGGTTTATCAATCACCCGGAATTCCAGCCAGCTGTCATTAAAAATGTATCGTCGGCC TGCGAGGGTCTGTGCAAGTGGGTGAGGGCCATGGAGGTGTACGATCGCGTGGCCAAGGTG GTGGCTCCCAAACGGGAGCGACTGAGGGAGGCAGAGGGGAAGCTGGCTGCACAGATGCAG AAGCTGAACCAGAAAAGAGCAGAGCTGAAGCTGGTGGTAGATCGGCTCCAGGCCCTGAAT GACGACTTTGAAGAGATGAACACCAAGAAAAAGGACTTGGAGGAAAACATTGAAATCTGC TCCCAAAAGCTGGTCAGGGCAGAGAAACTGATCAGTGGTCTTGGGGGAGAGAAGGACAGA TGGACCGAAGCTGCCCGACAGCTGGGGATCCGCTATACTAATCTGACTGGTGACGTGTTG CTGTCCTCAGGAACTGTGGCTTACCTGGGCGCTTTTACAGTGGATTATCGGGTCCAGTGC CAAAATCAGTGGTTGGCTGAATGTAAGGACAAGGTCATCCCTGGCTTCAGTGACTTCAGT CTCAGCCACACGTTAGGGGATCCCATAAAAATCCGTGCCTGGCAGATTGCTGGGCTTCCC GTTGACTCCTTCTCCATCGACAATGGCATCATTGTATCCAATTCCAGACGCTGGGCCTTA ATGATTGACCCTCACGGGCAGGCCAATAAATGGATTAAGAACATGGAGAAGGCGAATAAA CTGGCTGTCATCAAGTTCTCTGATAGCAACTACATGAGGATGCTGGAAAACGCGCTGCAG TTAGGCACCCCTGTCTTGATTGAAAACATTGGAGAAGAGCTGGATGCTTCTATCGAACCT ATCTTGCTCAAGGCAACATTCAAACAGCAAGGAGTTGAGTACATGAGGCTGGGTGAAAAC ATCATTGAATATTCCAGGGATTTTAAGTTATACATCACAACCCGTTTGAGGAATCCACAT TACCTCCCAGAAGTTGCCGTGAAGGTCTGTCTCCTCAACTTCATGATCACCCCCTTGGGT CTCCAAGATCAACTCCTTGGCATCGTGGCTGCGAAGGAGAAGCCAGAGCTGGAAGAGAAA AAGAACCAGTTGATTGTGGAAAGTGCCAAGAACAAGAAGCATCTCAAGGAAATTGAAGAT AAGATCTTGGAGGTTCTCTCCATGTCCAAGGGTAACATCCTGGAGGATGAAACCGCCATC AAAGTTCTGTCCTCCTCCAAAGTGCTATCTGAAGAGATCTCAGAGAAACAGAAAGTTGCT TCCATGACAGAAACGCAGATTGACGAGACTCGGATGGGCTACAAGCCAGTGGCTGTGCAT TCTGCCACCATCTTCTTTTGTATCTCGGACCTGGCCAACATCGAGCCGATGTACCAGTAC TCCCTGACTTGGTTCATAAATCTCTACATGCATTCCTTGACCCACAGCACGAAGAGCGAG GAACTGAATCTGCGCATCAAGTACATCATTGACCATTTCACCCTGAGCATCTACAACAAC GTGTGCCGTTCTCTGTTTGAGAAGGACAAGCTACTCTTCTCTCTCCTCCTGACCATCGGC ATCATGAAACAGAAGAAGGAAATTACGGAGGAGGTGTGGTACTTCCTTCTCACTGGAGGC ATCGCACTGGATAACCCCTACCCCAATCCAGCTCCCCAATGGCTGTCTGAGAAGGCATGG GCAGAGATTGTCCGTGCATCTGCCTTACCCAAACTGCATGGCCTGATGGAGCATTTGGAA CAGAACCTGGGTGAATGGAAGCTGATCTATGACTCGGCCTGGCCCCATGAGGAGCAACTC CCTGGGTCTTGGAAGTTCTCTCAAGGATTGGAGAAGATGGTGATCCTTCGATGTTTGCGG CCTGACAAAATGGTGCCAGCGGTCCGGGAGTTCATTGCTGAACATATGGGAAAGCTGTAT ATCGAAGCCCCTACGTTCGATCTCCAGGGATCCTACAATGATTCCAGCTGCTGTGCGCCT TTGATTTTTGTGTTGTCTCCAAGTGCAGACCCAATGGCAGGCCTGCTGAAGTTTGCTGAT GATCTTGGTATGGGAGGTACCAGAACACAGACCATCTCCCTTGGCCAAGGCCAAGGCCCT ATTGCTGCCAAAATGATCAACAATGCCATCAAAGACGGGACCTGGGTGGTCTTACAGAAC TGCCACCTGGCCGCAAGCTGGATGCCTACCCTGGAGAAGATTTGTGAGGAGGTGATTGTT CCTGAGAGCACCAATGCCAGATTCAGACTCTGGCTAACCAGCTATCCATCAGAGAAGTTT CCAGTCAGCATTCTCCAGAATGGAATCAAAATGACCAATGAGCCCCCCAAAGGGCTCCGG GCCAACCTGTTGCGCTCCTACCTCAATGACCCCATCTCAGATCCTGTGTTCTTCCAAAGC TGTGCAAAGGCGGTGATGTGGCAAAAGATGTTATTTGGCCTTTGTTTCTTCCACGCCGTT GTTCAAGAGAGAAGAAACTTCGGCCCCCTAGGGTGGAATATTCCCTATGAATTCAACGAA TCTGACCTGAGGATTAGTATGTGGCAGATCCAGATGTTTCTCAATGACTACAAGGAGGTG CCCTTTGATGCTCTGACCTACCTGACAGGGGAATGTAATTACGGAGGCAGAGTGACTGAT GACAAAGACCGGCGTCTCCTGCTGTCACTTCTGTCCATGTTCTACTGTAAGGAAATTGAG GAGGACTATTACTCCCTCGCTCCTGGAGACACTTACTACATCCCTCCTCATGGCTCCTAC CAGTCCTATATCGACTATCTCAGGAATCTCCCCATCACAGCCCACCCAGAAGTGTTCGGC CTCCATGAGAACGCAGACATCACCAAAGACAACCAGGAAACCAACCAGCTGTTTGAGGGG GTCCTGCTGACCCTCCCTAGACAGTCAGGAGGAAGTGGCAAGTCCCCTCAGGAAGTGGTT GAGGAGTTGGCACAAGACATTCTCTCCAAGCTTCCCAGAGACTTTGACCTGGAAGAGGTC ATGAAGTTGTACCCCGTGGTCTATGAAGAATCCATGAATACCGTCCTAAGGCAGGAGCTC ATCAGATTCAACAGGCTGACCAAAGTGGTTCGGAGGAGCCTCATCAATCTTGGCCGAGCC ATCAAAGGACAGGTCCTGATGTCCTCGGAGCTAGAGGAAGTCTTTAACAGCATGCTTGTG GGTAAAGTGCCAGCCATGTGGGCAGCCAAGTCTTACCCATCACTGAAGCCTCTGGGGGGC TACGTGGCTGACCTGCTGGCCCGCCTGACCTTCTTCCAGGAATGGATTGACAAGGGGCCC CCTGTGGTATTTTGGATCTCTGGATTCTACTTCACACAGTCTTTTTTGACTGGCGTCTCT CAAAATTATGCCCGGAAATATACCATCCCCATTGACCACATTGGATTTGAGTTTGAGGTA ACCCCACAAGAAACAGTGATGGAGAATAACCCCGAAGATGGGGCCTACATCAAAGGGCTC TTCTTAGAAGGTGCCCGTTGGGACAGGAAAACGATGCAGATTGGGGAATCTCTCCCCAAA ATCCTCTATGACCCACTGCCCATCATTTGGCTGAAACCTGGGGAGAGCGCAATGTTTCTG CATCAGGACATCTATGTGTGTCCAGTCTACAAAACAAGTGCCCGCAGAGGAACCCTCTCC ACCACAGGCCACTCTACCAACTATGTCCTCTCCATTGAGCTTCCAACAGACATGCCCCAG AAGCACTGGATAAACCGAGGGGTGGCCTCACTGTGCCAGCTGGATAACTGA |
Restriction Sites | Please inquire |
ACCN | NM_017539 |
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_017539.1, NP_060009.1 |
RefSeq Size | 12351 bp |
RefSeq ORF | 12351 bp |
Locus ID | 55567 |
UniProt ID | Q8TD57 |
Protein Pathways | Huntington's disease |
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] Transcript Variant: Thos variant (1) encodes the longer isoform (1). |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Customer
Reviews
Loading...