DNHD1 (NM_144666) Human Untagged Clone
CAT#: SC328119
DNHD1 (untagged)-Human dynein heavy chain domain 1 (DNHD1) transcript variant 1
CNY 91580.00
货期*
8周
规格
Product images
推荐一起购买 (3)
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | C11orf47; CCDC35; DHCD1; DNHD1L |
| Vector | pCMV6-XL5 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>NCBI ORF sequence for NM_144666, the custom clone sequence may differ by one or more nucleotides
ATGGTCCCGGAGGAGAGGAGGGTAGGTTTGTCTTCTGATGAGACATCATCTGATTCCCTT AAGTCTTGGCACTCCATATGTGTCTTGGACAGCAAAGAACAGCCCTTGGCCTGCCAGCAG AAACAGAGGCAGTTCGTGAAGCCAGTGACTGAGTCAGAGCAGCCCACAGTGCTGGAACTC CTGCTAGCTGAGCTCCGAACTCTGTTCTCAGCTGTGTTGCAGGACAGTAGCCCTGCAGCT TGGCGCTATCTTCATGCAGTACTGGGTCTACTGCCTCCATATCGTGAGTTGCTAGTTGGC CACCTTGATTTGCTGCCCTTCCTGGAGCAGCTGTACTGCTGGGCACCCTGGGTCCAAACC CACCTCCATCTGGACCTGCTAGGTGCCATTGTCCAGGCCTTTCCTCCAGACAGCTCTTTG TTAGACAGTGCTTCCCATGCTGACTGCTGTCCCCAGAAGCGGAGGCTCCATCACAGGCCC CCATGCCCAGCTTGCCCTTTTGTGCAGGCCCAGTGGAGCAGGCAGCAAGTAAAGGAGGAG CTGGCCACCTGGCTGCGACCATTGACACTGCCTGAGCTACAGCGCTGCCTGGGCATTGTT GGTGCTCAGGTGGCCCTAGAAGAGGCTGTGTGGCTGGATGGACTTAGTCTCCTTCCCTTG GCACTGGCAGCGGACATCCCTGTACGGTATGAAAGCAGTGACACTGACAATGCAGAGGTG GAGCCTGTTGGAAGAAAAGAGACCAGGTCTCAGCTTGACTATGAAGTTCCCAGGGAAAAG GCCTTCCAAAAGAGCAGCACCGGCTTTTCACCTGAGACTTCCTTCCTGGATAGCCAGGTG ATGACTGCTCTGAAGATGGAGAGATACCTGAAGAAGATCCACTTCCTCTATCTCAATGTG GCTCCCAGCCGGTACTTTAGGCCTTACAGCCTGATGGTGGTGCCACCCGACAAGGTGAAT CCCGAGCACTACATCTTCTCTCCCTTTGGGATCTTGCATGTACATCCTGTGGAAGGTAGC GAGACGATGACACTGGGTACCTGGCACCATCACTGTGTTCTCTGGCAGCAGCTCCAGTTC ATTCCATTCTTTAAGTATTGCCTCTTACGCAAGTCCTTTACCTGTTGGAAGAAGAATGTG AGATTACAGGGGCTGCATCGACTCCAGAAATTCCTAGAGAATCATCTGCTCTTGGCTGTG CCCCACTTTGGAGCTGGGCTACTCCATATTAGCAGGCTTCTGCAGGAGCTACACTCTGTG TCCTGGCTACCCCAGGAACTGGATCGGTGCTATGAGCTGCTGGACCTGCAGACGGCTCTA GCCGAGGAGAAGCATAAGGCTCTACGGCTGCTCCATCGTTGCCTAAACCTCTGCACATCC ATTCTTCGACTGGTTCACGAGGACACATACCACATGCAACAGTGCCTACAGGAGCGAGTA CAAAACTGTGACAGGATCAGGACAGGCCAAGGCTCCATATACCTTCAGAGGGTACAGCAC AAGCAACTGGAGCAGAAGCTGAAGCAAGCAGAGGCCTGGTGGCTGCAGCTGGGAAAGTTT GCCCGCCTGGTTGACTACATGATTTGTCAGAGCCTCATTTCTGTCTTGGAAGAGCAGATA ACCTCTTTTGTGGCCAACATCCTTCAAGCCCCAAGGCAGAAACCCTTTCTCTCATCACAG CTGGTCTTTGATGATCATGGTCAACTGTCTCATGTGCCCTGTGTTGAAAATATGATCCAG ACTCTAACTGGAGGCCTACAGTCTGTCAAGACCTCTGCCTTGCAGGTAGTGCAGTCTGCA GACCTGAAGACCTCCTCGGATTCCCTGTATTCTGAAGAAGAAGATGAAGAGGAGGACTCA AAAGACGAATTTCTGATGCCCAAGTTCCAGGGCCAGCCCAGCGATGCTGTGAGCATCTTC TGTGGCCCGAATGTGGGATTGGTGTGGCCCTGGAAGTCTCACCCAATTGCTGGTATCTTG GAGGTCCGTGGATGTCGGCTGCGGGGCCAATACTTCCCCCACAATTATAAGCAGCTGGAG GAAGACCTGGACAACAACCCTAAGATCCAGCAGGCACTGAATATACAACAGGTGCTGCTG GAGGGCGTGCTGTGCAAGGTGCAGGAATTCTGCAGGGAACATCATTGGATAACAGGCATT TATGAATTCCTGCAATCCTGGGGGCCTCAGAAGCTGGAAGACATGAGAGGTGGTCCCATC AAGAACTACGTGACGCTGGTGAGCCGCCTGAATGTTTGGCAGGCCCGTGTCTCCAGTATG CCTATCGAGTTGCTCACAAAAGGCGGGTTGCTGCTACTTAGCTGCCATGATGTACAGGCA GAGATGGAATCCAAGCTGAACAGCATAAGGAAGGACATTCTTGCACACGTGCAAAATGAG TGCTGGAACCTCAGTCAACAACTCATGACAGAGCTCACAGATTTCATGCATATCTTCCGA ACCATCAACTCAGATATTCATGCCATTGCACAGTGCACCCAGAAGTTGAATGAAGCCAAT GAACAGTACGTCGAGCTGGAGGAGCGAATGGAATACGTACGGGCACTCCACGAACTCATC CGCAACCACTTTAGCCTCTTTAGTGCTGAGAATGAAGCACTGGACATCTCGGTGAGAAGG CAATTCGGGGAGTCACCCATCCCTCCCTGCCCTCCTCCCCCACAACCACATCTACTCCAC TGCCCTCTGCTTGCCCCACAGCTTCTGGATATGTGGGAGGCATTTCAGTTTGAGAAAAGC CAGGCTTCAGAGTTCCTGCTCAGCAAGCGACATGCCATTATGCCCAAGCTGCAGCAGCTG ATGGCAGCAGCATTGGCAGAGCTGGAAGGCCTGCTTGCGAAGGCCCTCTCCGGTCCCTTT ATGGACCCCACACAAGATCAGAGGAGTACTGAGCACCAGCTCGTCTCCCTAGAGCGTCAG TTCCAGAACACAGTCAGCGACCTCAGTGAACTGCACCACGCCTATGCCATCTTCACTGAG GATGAGACTCCTGTGCCCTTGCCAATCTGTGGGACACGTCCTATTGTGCAGCAGCAGCGC ATATGGCACCTGTACCGAGTCATCTCCGAAAACATCAGCGAGTGGAAGTGCATGGCTTTT GCCAAGTTCAGCCCAGCTATGGCCCAGGAGAAGACAGAGGGCTGGCTGACAGAGGCAGCA CGGATGAGCACAACCCTGGAGCTGCACAGCCCCGTGCTGCAGCACTGCATGCGCATCCTG GGGGAGTTTCGCAGCTACCTGCCCCTGCTCACTAAGCTGGGCAGCCTCCACCCACAGAGC CTCAACTGCCAGTGTCTCCTGCGTGCCCTTGGGCTGGGCAGTCTCCAAACTATAGAACTC CTAACGCTGGGCCAGCTGCTTACTTATCCACTGCTGGAGTTTGCAGATCGAATCAACCAG GTCTGGCAGAATGAAAATGAACGAATTCATGCCCAAGAGACTATACGGCGGTTGCAGCGG TACTGGGAAGCGCGCCAGCTGCGCCTGCTCAACTTCATCCTGCATGTACCCTACGAGCCC CCAGCCTCAGAGCGCTCCAAGAGGCAGGTGCTCCGCAGCCCCCAATGGGAGGTAGTGGAC AAAGATAGTGGCACCTTCATCCTCTCAGATTACAGCAACCTGCAGGATTCCATCCAGGAA AGTCTTCAGGTGTTGTCCAAGATCTTGGCCATCGAAAAGTCAGGAGATTTAAACAAAATA GCTTTGGAGTGGGTGGCCATCATGCATGGCCTGGGTGCCCTGCTGGAGGTGTGGCTGACT TTCCAGCAGAAGTGGATTTTTCTGAATAAAGTTCTGCATGAGATGAAGATCCAGTTTCCT AATGCTGACCTGAACTCTCGTTTCAAGGTCATGGATGACCAGTATCGAACCCTGATGCGC ATCTCTGTAGCTGACCCCATGGTTCTGTCACTTGTAGTGCCCAGTGCCGAGAGGAGCCCT TACTTCCAAGGCCAGCAGCTGCAACAACTGCTGCAAGCAGGATCGGTGGAGCTGGAGGGC ATCATCATGAGTCTGGAGAGCGTGCTCTATGGGGTGTGTGCTCACTTCCCCCGCCTCTTC TTCCTTAGTGACAGTGAGCTGGTAGCCCTGCTGGCTGCTCGACTGGAATCATGCGAAGCC CAGCTATGGGTACGACGCTGCTTTCCTCATGTGCATGCTGTGAGCTTCAGGTCTTGCCCA ACTGGTGAGAAAAACACAGATGACTGGGAGTCAAGCCCAAACACACAGACTCAGGTGGAG GCACTTGCAGTGCTAGGGGCAGGTGGGGAGGAGGTGAAGCTGCAGGGTCCCCTTCCTCTG CATCCAGATCTCCCTAAGTGGCTGGCCTCTCTGGAGAAGTGTCTGCGCTTGGCACTGGTG CACATGCTGCAGGGCTGTGTGGCTGCTCGCCTTGCTCGAGGCCCATCTCTAGGTGAGGCC CTCAAGCAACTGCCCAAGCAAAACAAGTTGTACCTGCAACTGTATGTCCAGCACTGGATC GACTTAGTCCAGGCCTTCCCATGGCAGTGTGTGCTGGTGGCAGAGGAGGTGGTATGGCGG GCCGAGATGGAGGAGGCTCTGCTTGAGTGGGGTACCCTGGCCATGGTCTCCATGCATATG CGCAAGCTTGAGGTACTGGTGAATTTTATGCGGGCCCAGAGGGCTTCCCAAGGTGGGCAG TCCCTGCCTTCTGTCCGCCAGACCAGCCTTCTCAGTGCCCTGCTGGTCATGGCAGTGACT CACCGGGATATAGCACAGCTGCTGGAACAGCACCAGGTCAGTGATCTCACAGACTTTCAC TGGGTCCGCCAACTCAAGTATCACTTGGGTTCACCTCACATAATCCCCAAAAGCCCCCTA CAGAGTCTTAAGACTATTGCATCTTCTGAACCCTCTCTGTCACCAGCGGCATGCTGGATA GATGTGCTAGGCAGGTCCTTCCTGTACAATTACGAGTATCTGGGACCTAGACTAGGGCCT CTACCCAGCCTACTGCCTGAACGGCCAGCCCTGGTACTATTATTGGCCCTAGAGGAGGTG GCCTGTGGGACCGTACTGGGTCCTAATGGTGTGGGCAAGAGAGCTATAGTGAACAGCCTG GCACAGGCCCTGGGCCGCCAGCTGGTGATGCTACCCTGCTCACCTCAGATAGAGGCTCAA TGCCTGAGCAACTATCTGAATGGTGCCCTGCAGGGTGGTGCCTGGCTGCTGTTGGAGAAA GTTCATCAGCTGCCCCCTGGCTTGCTCTCTGCCCTGGGCCAGCGCCTGGGTGAACTGCAC CACTTGTATGCCCCACTGTACCAGGAGGCTTCCCGAAACACAAGCACCATAGACCCCACC CAGCCCCAGCTCCTTGGCAGTAGCTTCTTTGAAAAACATCACGTGTCTGTGCGCCTTGGC TATGGCTGTCTCCTGGTACTGCGTGCCCTGAGCTCTGCTGTGCCTGCCAACCTGCACCTG CTGCTGCGGCCTGTGGCATTGGCATTGCCTGATCTGCGGCAAGTGGCAGAGCTGACTCTG CTGGGTGCAGGGATGAGGGATGCCTTCCAGATGGCTACCCGCCTATCCAAATTCTTCTCT CTAGAGCGTGAGCTGGTGTCTGGGCCCCTGCCCTGCCGCCTGCCACTGCTCAAGCAGATA CTGGAAGACACAATACGGACACTAAATGTGACCAAGGAGGAACCGAAGTGCCAGAAGCCT CGCAGCCTAGCTGCCATTGAGGAGGCTGCCCTACTGCGCTCACCACTGTTTAGCATTCTC AATGGGCTCCACCTGCACAACCTCCGAGGGCTGTTGTGTGCGCTTTTCCCTAGCGCCAGC CAAGTGCTGGCAGAACCTATGACTTACAAGCTGATGAAGCCATTGGTGGTGGAGGAACTG CAACAGGTAGGTCTGGATCCCAGCCCTGACATTTTGGGGTCCTTGGAACAGTTGAGCCAG GCCCTGAGCCGGGCCTCAGGCATTCTGCTCCTGGGCCCTGCGGGCAGCGGCAAGACCACT TGTTGGCACAGCTTATTTAAGATCCAGAATCGGCTGGCAGCCATGGAGGACACCTCAACC CAAGGCTGCCAGCCTGTGGAAATTACCCACCTGTACCCCAGTGGCCTCAGCCCCCAGGAG TTCCTGGGATGGCTAGAGGGCTCCTGCTGGCATCATGGCATCTTTCCCAAGGTACTTCGT GCAGCCGGTCAGTGTAACAACATGGGCCAAAAGAGGCAGACAGAGGAATCAATCGGGATC CAGCACTGGATAATATGTGATGGAGCCTCCAATGGTGCTTGGCTGGACTCCATCACTTGC CTCCTGAGTGAGCTTCCCCAGCTTAGTCTCCCCAGTGGACAGCAGATAGCACGACCCCCA GGCACCTTTCTCTTGATGGAGGTGGCTGACACAACAGGCATATCCCCCACAGTGGTAGGC TGTTGTGCCCTAGTCTGGTGTGGTGGAGAGCAGACTTGGCAGTGTATACTTAGTGCCCTG ATGGCATCCCTTCCTTATGAGTACCGCCTGCAGCACCGGACAGTCGCTGAGCTCAACCAC ATGGCTGAGGTTCTGGTGCCTGCAACATTGCGATTCCTCACCTGCCAAGGTGTCAGCTCT CTGCTGCAGGTACACGGGCAGCAGGCTGTTTGTGCAGGTGTGGCAGAAGTTACCAGCATG GCACGCATCTTGCATAGTCTGCTTGACCTCCACCTTCGCCTAAAGGAGGAGAAGGCCCCT GGCCCAGAGGACCTCAGCTATAGTGATCCTGTGGCCCAAAGCTTCAGGTCTTCAAAAAGC AGCTTTCTAAACCGGTCCCAGGTTGACAGTGACGATGTGCCAGATAAGTGCAGGGAACAC TTGCTGGCTGTCAGCAGTTTTCTTTTTGCCTTGATCTGGGGCTTTGGAGCCCACCTTCCC TCCAGGTTCTGGCCCATCTTTGATACCTTCATAAGGGATTCTATTAGTCGCCTCTCCAAC TACCCTGAGCCACCACCCTCAGCCTTGGTGTTTGATCTACATGTAAGCCCTGAAGATGGA ACACTGGTCCCCTTCACTGGCCAATACCTGAGCAGCCACATCAAAGGAACTTTGGGCACC TTTCACCCTTCTATCCAGACTGAACGGCTCTTGTATGTGGTGGACCTGCTTCTGTCAGGG GGACAGCCAGTGTTGCTGGCTGGAGAGGCAGCAACAGGGAAGTCAGCCTTTGTGGAGGTG CTGGTAGAGCCACATCACCCTTACATATACAGCCCCATCCACCCTGCCTTCAGTTCCTCC CACCTCCGTCTCCTGCTGAGCAGAGGAATCCAGGGCCAAACACAAGCCAGCCCACAGCCT GGGCATCACCAGGATTCTAAACCCTCCCTCCTCTTCTTGCTGGAGGACCTGCACCTAGCC ACTTCTGACCCAGAGAAGAGCTGCCAGCCAGTGTTGGAGACTCTGCGCCAGGCCATGGAT GGCACTGTGTATGCCCACAGCACCTTGGAACTGCAGACGCTGCAGCCTACAGTCAACTTC CTTGCCACTGTCACAGTGCCAGGATACTGTGAGCGCCCACTGTGTCCACGCCTCTTTCGA CTCTTCACAGTCCTGGCCCTGGAAAGCATGACCCAGGCCACCCTGCTGGAAAGACATGTG CCTATCATTCAGGCTTGGCTTGAGCGTTTCCCTTCTGTGGAACGGGAGCGTGCTCTGGCA CGAGGTCTGGTTAGGGCCTCAGTAGAGGCCTGGGAGGCTGTGTGCAATTGCTTCATGCCT TCACCCCTCCACCCACACTACCACTTCTCCCTACACTCTGTGAGCCACCTACTGAGCAGC CTGCAGCTGCTGCCCAACAGAACAGGCTCCCGAGGTTTTGTGGACTATCCCAACCACCAG GAGCACTTGCGCCGGGTGTCAGGCCTGCGAGGCACTTGTCTGACCGTTATGATGGCCACA CGCAATGTGGTGCGTCTTTGGTTGCATGAGGCACAGAGAACCTTTTGCGACCGGCTGGAC AGCCCCAGGGAACGCTCCTACTGTGCCAAGCTGCTCCTAGTAGTAGCTCAAAGTGTCTTC TGCTGTGGGCCAGGGCCCCAGCACCTGGGCAAGGACCATCAGGAGAGTGAGGAGGAGGAG GAGGAGGAGAGGGTGCCCGAAGTAGAATCTGAAGGGGAGTTGGCCCAGTGGGAGGACTTC AGCAACAGCAATAGTGAAACAGAGGAGGAAGAGGAACCTTATGGCCTTCAGGTCGCCAGA GTCTCAAACTCCAGAGATCCAAGTCTAACACCATCCATAGGACCAGTAAGCAGGGGGATG AAGGAAAGCATAAGTCACAAGATAAGGCAAGAGAAAGGCACAAGGGCATCCAACTATAGG CTCCAGGTAAGGAGATCATTCAAGACTTGGTGGCAGAAGAAACCCCAGATGGACCTGATC TCACCCTTGTTGTTACCAGTGTTACTACTACATCCCCAGGAAAAGCCCTCAGACCTGGTC TTCAGTCAGGAGCTGATACTGGGGCCTAACTCTGAGACCCCCAACTTGTACCTGGAACGA CAGTGGGAGAAGCTAGAGGAGCAGTTGGCCACCTCAGCTGCTCAACTGAAGTTGAGCCCC CACCTGGCCCGGTGTCATTCCATGGCCCAGCACGTGGCCCGCCTGGTCCGGGTGCTGGCC AGGCCCCGGCAGCATGGCCTGCTGCTCTCGGGGGCTCTGGGTACTGGGCGCCACACTGCC ATCACTCTGGCTTCTAGCATTTGTCAGGCCCATTTCTTTCATCTACCATCTGGGTCAGAG GAGGCCATTCTCCAATGTCTACGAGATGCCAGCTGGCATGCTGGCATGTTAAGCCAGCCA GTGGCTCTGTTGGTACCCAGTGGTGTGGATCTCACTACACTTCATCGCCTCCTGGCCCTG GCAACCTCAGGCAGTTTCCCTGGCCAGTACACAGAAGCAGATTTGGACCGCATTGGAGAA CACCTCCCCAGGGAGAACCTTGGTGTCAAACAGAACATCAAGAAGGAAATGGTGTTGCAG AGGTTCCACCAGCAAGTGTGCAGCCACCTTCACCTGTTCTTCCTGATTGGAGATAAACAG GCCCACAAGCAGCTGCCCTCCACCCTTTTCCTGAGGCTCCTTCAACTGGCCACTGCCAGC ATTGACCGCTATGAACCCTGGGACCAAGCTGCCCTGGCCAAGGTGGCCCAGCATCACCTG GAGGGTGCTCAGAGTGTGCCCCTTGATGACGGCTCCTGGAAGTACCCAGACCTCCAGGCC TCAATTCCCAGTGTGGCCAAAGCCATGGCTCTTATCCACCTTTCGGCCACCCACTACCAT GAGCACCTGTGCCCTGCATTGCCACTCGTCACCCCCAAGACCTTCCTAGACTTCCTGGAC ACTTTCCTGATGCTGCAGCAACAGACAATCCTGAAGATTAAGAACAAGGCCCAGCGGGTC CAGAATGCCTTGGAGAATCTGAGAATGCTGATTAAGGAGCACGGTACCCATGCCAATCTG ATCTTTGACTTGGAACAGCAGCTGAAAGACTCCGGCAAGAGTCTCAGCATGTTTCAGCAG CAGCTAGAGCAAAGCAAGCTCCTATACAAGCAGCAGCTGGAAGAGTGTCGGCATCAAGAG AACCTCATTGAGAACCTGGCCAGGCAACGGGATGCCCTGCAAGCTCAGCGAGAGGCTTTC CTGGAGCAGATGAGCAAGGCATTTCTGGAGCCTCTGAGCCAGCTGCAGGTGGCTGACTTT GAGGAGATACGGAGCTATCGAGCACCACCAGAATCTGTGGTCCGGGTAACTGATGCAATG TGTGACTTGTTCCACCATGAAACAGGCTGGGCCAGTGCCAAACAGCTGTTATGCACTGAG GATTTTTATCAGGAGCTGGTGTTCTTCCCCAAGGAGAAGATAACAGACTCAGAGCTGATA AAGTTACATCTAATTCTGAAGGCTCCAGGTATGGACGATGCAGCCCTGCGGGCAGTGAGC CGACCTGCAGCCAGCCTGGCAGCCTGGCTCTGGGCTGTTCTGCACTATGGGCTGGCGCAT TGCCGGGGACTGCCCACGGACCTGCTGCTGCAGCAAGTGGAGGCAACACTCACTCGGGAG CAGGCCCGCCTGGGCTACTACCAGTTTCAGGCCCAGGAGACCCTGGAGCATAATTTGGCC CTGGCTAAGATGGTGGAGGATGCCCAAGCTTCCCACAACTGCGTGGCAAAGACCCTCAGT CAAGCACAGTGTGGGCAGTATCACAAATGGCCCATGAAGGCTGCACTGCTCACGCCTATG CGTGCCTGGACTACACAGCTCCAGAAGCTGAAGGGACGCTGCATGACTGTGTTTGGAGAT ACCCTCCTATGTTCAGCTGCCATCATCTACCTGGGTCCCTTCCCACCATTGCGGCGCCAA GAGCTACTGGACGAGTGGTTAGCTCTGTGTAGGGGCTTTCAGGAGGCTCTGGGCCCAGAT GATGTGGCACAGGCACTGAAGCGGAAGCAAAAATCTGTCAGCATACCACCAAAGAACCCC CTGCTGGCTACACACTCTCCCTTCAGTATTCTGTCCTTGCTGAGCTCTGAATCGGAGCAG TACCAGTGGGATGGAAACCTGAAGCCACAGGCAAAGTCGGCCCACCTGGCAGGCTTGCTT CTGCGAAGCCCCACACACTACAGTAGTTGCCGTTGGCCTCTGCTGCTTGACCCCAGCAAC GAGGCCCTCATCTGGTTGGACCCGCTGCCTCTGGAAGAGAATCGATCTTTTGCGCCAGCC CTCACTGAGGGTAGAGGGAAAGGCCTCATGAGAAATCAAAAGAGAGAGAGTAAAACGGAC ATGAAAGAGGAAGATGATGAGAGTGAAGAGAGTAATGAGGCTGAGGACCAGACAAAAGAG CAGAAGGCAGAGGAAAGAAAAAATGAGCAGGAGAAAGAGCAAGAGGAAAATGAAGAGAAA GAGGAGGAGAAGACAGAGAGCCAGGGGTCAAAGCCAGCCTATGAGACTCAGCTTCCATCC CTTCCCTACCTTAGTGTTCTTTCAGGTGCTGACCCAGAGCTGGGTTCTCAGCTCCAGGAG GCAGCTGCTTGTGGCCTGCCTGTGTTACTGACCAATGTGGAGCTGGGTCTAGGGTGCGAA GAACTGCAATGGCTGCTGCAACGGGAGCAGCTGAGTCCACCCCAGGTGCAGCCTGGCTTC TGTCTGTATCTCAGCACCACCCTCTCCCTCTGTGCCATGGAAAAAGTGCTAGGTTGTGAA CTGCTAAAGGGGCTGAATGTGTTGGATCTGGGCCTGAACATGGAAATACTGGAAGAACAG ATGCTGCATGAAATCTTGTGCAGAGAGTATCCTGAACTCGAGACCCGCTGGCAGGACCTA AAGATCAGAGCCCTAGATACCTGCAAGGCTGTGGAGGCTGCTGAGGAGCGGCTGCTGACG ATGCTGCTGTTCCAGAATCCGAAGCGTCAGAAGCCAGCCAAGTTTCTGCGGAACATAGTG AGGGCCCAAGGAAAGCTATGCCAGCTGCGTGCTCATTGTGAAGAGTTAGAAGGGCAGAAA CTACAGGAGATGGTATTGTGGGCACCCTATCGACCTGTGGTTTGGCATGGAATGGCCATG GTAAAGGCCCTAAGCCAACTGCAGAACCTGCTGCCACTTTTCTGTATGAGCCCAGAGAAC TGGCTGGCAGTCACTAAGCAGGCTCTGGACAGCATGAAGCCACGTGAGATTAATCACGGG GAGGACCTGGCCAGCCATCTACTGCAATTGAGAGCACACCTGACCCGCCAGCTGCTGGGC AGCACCGTGACTGCACTGGGCCTTACCCAAGTACCCTTGGTGGGTGCATTGGGCGCTTTG GCTCTGCTGCAAGCAACAGGGAAAGCATCAGAGCTGGAAAGACTGGCACTCTGGCCTGGA CTAGCAGCCTCTCCCAGCACAGTCCACAGCAAGCCAGTCTCAGATGTGGCTCGACCGGCC TGGCTTGGGCCAAAAGCCTGGCATGAATGTGAGATGTTAGAGCTGCTGCCCCCATTTGTT GGCCTGTGTGCCTCCCTGGCAGGCCACTCCAGTGCTTGGCAGGCTTACCTGTCACTGTCA TCCACAGTGCTGGGTCCTGCACCTGGGCCAGGGCCTGAGCCACTCAGCCTCCTCCAGAAG CTGATCCTGTGGCGCGTTCTGCGACCTGAGTGCCTGGCAGGTGCCCTGGCAGACTTCACC ACTAGCCTCCTGGGTCGGCCCCTGGATGAAAACACGTATGCTCCCACCATGCCCTTTAAA CATAGTCAGGCTACTCAGCCCATGCTGATCTTGTTGCCACCGCCTGGCCACCCCTCAGCC ACTCTGCATCCTCTGACTGTCATCCAGAAACTGGCTGCCAAGTATCAGCAGGGGCAGAAG CAACTGCAGGTGATAGCCCTGGGCTCTGAAGCCTGGGACCCAGTCTCAGTTGTGGTCAGC ACTCTATCCCAGGCTATGTATGAGGGGCACTGGCTGGTGCTGGACAACTGTCATCTGATG CCCCATTGGCCGAAAGAGCTGCTACAGCTCTTGCTGGAACTGTTAGGCAGAGCCAAGGTG GTTGCAGACCTGGAATCAGAACAGCTTTTAGACCAACCTGAAAGCAGGAATGTAAGCACT GTTCACAGAGATTTTCGTCTTTGGCTTATTGTGCCTGCAGAGTCTAGTGCTTCTTTGCCA GCTGTGCTGACTCAGCACTCCATGCCTGTTTTCTGGAACCAGTCCCTGGAGCTGGGCCAT GTTTTGATTGACAGTGTGGAGCTAGCCCAGCAAGTACTCTACATGCAACCCCCCACCCAG GCACTACCTCTGCTCCTCCTCCATGGCCTCCTGCTACACCGGCAGCTCTATGGAACAAGG CTGCAGGCACACAGGGGGCGCTGGAGTCAAGTGACTCTAACCCAGGTTCTTCAGACCCAA GACCAGCTGTGGGCAAGTCTTAGCAATCCCCGTGCTGCCATGCAAGAGCTGGCTGCTTCA GTTTTCTACGGGGGTCCTCTGGGGGACACTGAGGACAGGGAGGCCCTGATTAGCCTCACA CAAGCCTGCCTGAGCCCCAGTAGTGGGAGCTGGGTCCAGCCACACACACCTCAGTCTTTG CTGGCCACGCTCATGCCCCTCCCAGAGCTAAGGGAGCTGGATGCAATGGCAGAGTGCAAG GCCCAGATGCACCTACTGCCCTCACCACCTGAACCCCGGCTCTGCGGACTGAGTGAGGGC CCCCAAGCCTGGCTGTTGCGACGCCAGAGTCGCGCTCTCTTGAGTGCGCTGCAGCGGAGT TCACCCGTGTGGGTTCCTGAGTCTCGAAGAGGCGCCCAGCTTGCGGAAAGGCGACTGCGG CAACGCCTAGTGCAAGTCAACCGGAGGCTGGAGTCACTGCAGGATCTGCTGACCCACGTG ATTCGCCAAGACGAGTCCGACGCCCCGTGGTCAGTGCTGGGGCCAAATGCACGGCGGCCT CTGGAGGGCGTCTTAGAGACCGAGGCTCTAGAACTGAGCCAGTTGGTGGGCACGCTACAA CGCGACCTTGATTGCCTGTTGCAGCAGCTGAAGGGCGCACCCCCGTGCCCCTCCCGCCGC TGTGCTGCGGTGGCCCACGCTCTCTGGACTGGCCGCCTACCCTTGCCTTGGCGACCTCAT GCGCCGGCCGGTCCGCAGCCGCCCTGGCACTGGCTGCGACAGTTGTCGCGCCGTGGGCAA CTGTTGGTTCGTTACTTGGGCGTGGGCGCGGACGCGAGCAGTGATGTACCAGAGCGCGTC TTCCACCTGTCAGCCTTTCGCCACCCGCGCCGCCTGCTGCTGGCATTGCGTGGGGAAGCT GCCCTGGACCAGAATGTGCCCAGCTCGAATTTCCCTGGTAGCCGAGGCTCGGTCTCCAGT CAGCTCCAGTATAAACGTCTGGAGATGAACAGCAACCCTCTGCACTTCAGGGTGGAGAAT GGTCCAAATCCCACGGTTCCAGAGAGAGGGCTGCTGCTGATCGGGCTACAGGTCCTACAT GCGGAGTGGGACCCAATAGCTGGAGCCTTGCAGGACAGTCCTTCCAGCCAACCCAGCCCT CTGCCTCCCGTCAGCATCAGCACACAGGCCCCGGGCACCAGTGACCTGCCAGCCCCAGCC GACCTGACTGTGTACTCGTGTCCTGTGTACATGGGAGGGCCCCTTGGCACCGCTAAGCTG CAGAGCAGGAACATCGTGATGCATCTGCCTTTACCCACCAAGCTCACCCCCAACACCTGT GTCCAAAGGAGGGTCCATGTGTGCAGCCCACCCCTGTCT |
| Restriction Sites | Please inquire |
| ACCN | NM_144666 |
| 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_144666.2, NP_653267.2 |
| RefSeq Size | 14882 bp |
| RefSeq ORF | 14262 bp |
| Locus ID | 144132 |
| UniProt ID | Q96M86 |
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Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC229484 | DNHD1 (Myc-DDK-tagged)-Human dynein heavy chain domain 1 (DNHD1), transcript variant 1 |
CNY 67740.00 |
|
| RG229484 | DNHD1 (tGFP-tagged) - Human dynein heavy chain domain 1 (DNHD1), transcript variant 1 |
CNY 74480.00 |
|
| SC306174 | DNHD1 (untagged)-Human dynein heavy chain domain 1 (DNHD1), transcript variant 1 |
CNY 91580.00 |
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