Dync1h1 (NM_019226) Rat Untagged Clone

Specifications

Product Data
Type	Rat Untagged Clone
Tag	Tag Free
Synonyms	DHC1a; Dnch1; Dnchc1
Vector	pCMV6-Entry
E. coli Selection	Kanamycin (25 ug/mL)
Mammalian Cell Selection	Neomycin
Sequence Data	Fully Sequenced ORF (showhide) >RN201999 representing NM_019226 Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGTCGGAGACCGGCGGCGGTGAGGACGGCTCGGCCGGCCTGGAGGTGTCCGCGGTGCAGAATGTGGCGG ACGTGTCGGTGCTGCAGAAGCACCTTCGTAAGCTGGTTCCGCTGCTGCTGGAGGACGGCGGCGACGCGCC GGCTGCGCTGGAGGCGGCGCTGGAGGAGAAGAGCGCCCTGGAGCAGATGCGCAAGTTCCTGTCAGACCCG CAGGTCCACACGGTCCTGGTGGAGCGCTCCACCCTCAAAGAGGACGTTGGTGATGAAGGAGAAGAGGAGA AAGAATTCATTTCCTATAACATCAACATAGACATTCATTACGGGGTGAAGTCCAATAGCTTGGCGTTCAT CAAGCGAGCCCCTGTGATTGATGCAGACAAGCCGGTGTCTTCCCAGCTCCGAGTCCTCACGCTGAGCGAA GACTCGCCCTACGAGACCCTGCACTCCTTCATCAGCAATGCAGTGGCTCCTTTCTTTAAGTCCTACATCA GAGAGTCTGGCAAAGCAGACAGGGATGGAGATAAGATGGCTCCTTCGGTTGAGAAAAAGATTGCAGAGCT TGAGATGGGGCTCCTTCACCTGCAGCAGAACATTGAGATCCCGGAGATCAGCTTGCCAATCCACCCCATT ATCACCAACGTCGCTAAGCAGTGCTACGAGCGTGGAGAAAAGCCCAAAGTTACAGATTTCGGTGATAAGG TTGAAGACCCAACCTTTCTTAACCAGTTACAGTCTGGAGTTAATCGGTGGATCCGAGAAATTCAAAAGGT GACCAAGCTTGACCGAGATCCAGCATCAGGAACTGCCTTGCAGGAAATCAGCTTTTGGCTAAACTTGGAG CGTGCATTGTACCGCATCCAGGAGAAGCGGGAGAGCCCAGAGGTGCTCCTGACTCTGGACATCTTGAAGC ATGGCAAACGTTTCCATGCCACTGTCAGTTTTGACACAGACACAGGTCTTAAGCAGGCGTTGGAAACGGT GAATGACTACAATCCTCTGATGAAAGACTTCCCCCTGAATGACTTGCTGTCTGCCACTGAGCTGGACAAG ATAAGGCAGGCACTTGTTGCAATTTTCACACATCTGAGAAAGATCCGAAACACAAAATACCCCATTCAGC GGGCCCTGCGACTTGTGGAGGCAATTTCCAGAGACTTGAGTTCTCAGTTGCTCAAAGTCTTGGGCACGAG GAAGTTGATGCATGTAGCGTATGAAGAGTTTGAAAAGGTCATGGTGGCTTGCTTCGAAGTCTTCCAGACG TGGGATGATGAGTATGAGAAACTCCAAGTGCTGCTGAGGGACATCGTCAAGAGGAAGAGGGAGGAGAACC TGAAGATGGTGTGGCGCATCAACCCTGCTCACAGGAAGCTGCAGGCCCGCCTGGACCAGATGAGGAAGTT CCGCCGCCAGCACGAGCAGCTGAGAGCTGTCATTGTCAGAGTCCTGCGCCCACAGGTCACAGCAGTTGCA CAGCAGAACCAAGGAGAGGCACCTGAACCCCAAGACATGAAAGTGGCCGAGGTCCTCTTTGATGCTGCAG ATGCCAACGCCATCGAGGAGGTGAACCTGGCCTATGAGAACGTCAAGGAAGTAGATGGGCTGGATGTTTC CAAAGAAGGGACGGAGGCTTGGGAGGCTGCAATGAAGAGATACGATGAGAGGATCGACCGCGTGGAGACC CGCATCACTGCCCGCCTCCGAGATCAGCTCGGCACAGCCAAGAATGCCAATGAGATGTTCAGGATTTTCT CCAGGTTCAACGCACTGTTCGTCCGCCCACACATCCGAGGGGCCATTCGTGAATACCAGACCCAGCTGAT CCAGCGTGTAAAAGATGACATTGAGTCTCTGCACGACAAGTTTAAGGTCCAGTACCCACAAAGCCAAGCT TGTAAAATGAGTCATGTCCGCGACTTGCCCCCTGTGTCAGGGTCTATCATCTGGGCTAAACAGATTGACC GACAGCTCACTGCCTACATGAAGCGAGTGGAAGACGTCCTGGGCAAGGGTTGGGAGAACCACGTGGAAGG GCAGAAGCTGAAGCAGGATGGTGACAGCTTTCGAATGAAGCTCAACACCCAGGAAATCTTCGATGACTGG GCGAGGAAGGTTCAGCAACGCAACCTTGGTGTTTCCGGGCGCATCTTCACCATTGAGAGCGCTCGCGTGC GGGGCCGCTCTGGAAACGTCCTCAAGCTAAAGGTGAACTTCCTTCCAGAGATCATAACACTCTCCAAAGA AGTCCGGAACCTCAAGTGGCTTGGCTTCCGCGTGCCACTTGCAATTGTGAACAAGGCTCACCAAGCCAAC CAGCTCTACCCATTTGCCATCTCGCTGATTGAAAGCGTCCGCACTTACGAACGTACCTGTGAGAAGGTGG AGGAGCGCAATACCATTTCACTGCTAGTGGCCGGCCTGAAGAAGGAGGTGCAAGCCTTGATCGCAGAAGG CATCGCGTTGGTGTGGGAGTCCTACAAACTCGACCCCTATGTGCAGCGCCTGGCAGAGACGGTTTTCAAC TTCCAAGAGAAGGTGGACGACCTCCTGATTATCGAGGAGAAGATAGACCTGGAAGTCCGTTCCTTGGAAA CCTGCATGTATGATCACAAGACATTCTCTGAAATCTTGAACAGAGTGCAGAAAGCAGTGGACGACCTCAA CCTGCACTCCTACTCCAACCTGCCCATCTGGGTCAACAAGCTGGACATGGAGATTGAAAGGATACTGGGT GTCCGCCTGCAAGCTGGCCTTCGAGCTTGGACCCAGGTTCTCCTCGGACAAGCTGAAGATAAAGCAGAGG TAGACATGGACACCGATGCTCCACAAGTTAGTCACAAGCCTGGTGGAGAGCCCAAGATCAAAAACGTTGT TCATGAGCTAAGAATAACAAATCAGGTAATCTATTTGAATCCACCCATCGAAGAGTGCAGGTACAAGCTA TACCAGGAGATGTTTGCTTGGAAGATGATTGTGCTGTCCCTGCCCAGGATCCAGAGTCAGAGGTACCAGG TGGGAGTGCATTATGAGTTGACCGAGGAAGAGAAGTTCTATCGGAATGCCTTGACACGCATGCCTGACGG CCCTGTCGCACTGGAAGAGTCCTACTCGGCGGTCATGGGCATTGTGACTGAAGTCGAGCAGTATGTTAAG GTTTGGCTTCAGTACCAGTGTCTGTGGGACATGCAGGCAGAGAACATTTACAACAGGCTGGGGGAGGACC TCAGCAAGTGGCAAGCGCTCCTGGTGCAGATCAGGAGAGCCCGAGGGACCTTCGACAATGCCGAGACCAA GAAGGAGTTTGGACCAGTGGTGATAGATTACGGCAAGGTCCAGTCCAAGGTGAACTTGAAGTATGACTCC TGGCATAAGGAGGTTCTCAGCAAATTTGGGCAGATGCTGGGCTCAAACATGACAGAATTCCATTCCCAGA TCTCAAAGTCTCGCCAAGAGCTGGAGCAGCACTCCGTTGACACAGCCAGCACCTCTGACGCGGTGACCTT CATCACCTATGTGCAGTCTCTGAAACGGAAGATCAAGCAGTTCGAGAAGCAAGTTGAACTCTACCGCAAT GGTCAGCGTCTGCTGGAAAAACAAAGGTTCCAGTTCCCACCTTCTTGGCTTTACATTGACAACATCGAGG GTGAGTGGGGGGCCTTCAATGACATCATGCGTCGGAAGGACTCTGCCATTCAGCAACAGGTTGCAAACCT GCAAATGAAGATCGTGCAGGAGGACCGAGCTGTGGAAAGCCGGACTACCGATCTGTTGACAGACTGGGAG AAGACCAAACCTGTCACAGGCAACCTACGTCCTGAGGAGGCTCTTCAGGCCCTCACCATCTATGAAGGGA AGTTCGGCCGACTGAAGGATGACAGGGAGAAGTGTGCCAAGGCCAAGGAGGCACTGGAGCTCACAGACAC GGGGCTCCTCAGCGGCAGTGAAGAACGAGTCCAGGTGGCCTTGGAGGAGTTACAAGACCTCAAGGGGGTG TGGTCAGAGCTTTCTAAGGTCTGGGAACAAATTGATCAAATGAAGGAGCAGCCATGGGTCTCAGTTCAGC CTCGTAAGCTTCGACAAAACCTAGACGGCCTCCTGAACCAGCTGAAGAACTTCCCTGCAAGGCTTCGGCA GTACGCCTCCTATGAGTTTGTTCAGAGGCTGCTGAAAGGCTACATGAAGATAAACATGTTGGTAATTGAA TTGAAATCGGAAGCACTTAAAGACCGGCACTGGAAGCAGCTGATGAAGAGGCTTCACGTTAATTGGGTGG TTTCTGAGCTGACCCTGGGCCAGATCTGGGATGTTGACCTTCAGAAGAACGAAGCCATTGTCAAGGATGT GCTGCTAGTGGCACAAGGAGAGATGGCTTTGGAAGAATTTTTGAAGCAGATACGGGAAGTGTGGAACACA TACGAACTAGACTTGGTCAACTATCAGAACAAGTGCCGTCTGATCCGAGGCTGGGATGACCTCTTCAACA AGGTCAAGGAGCACATCAACAGCGTCTCTGCCATGAAGCTCTCTCCGTATTACAAGGTGTTTGAAGAAGA TGCCCTGAGCTGGGAGGACAAGCTGAACCGAATCATGGCTCTCTTTGACGTGTGGATTGATGTGCAGAGG CGCTGGGTCTACTTGGAAGGCATCTTCACAGGCAGTGCAGACATCAAACATCTGCTGCCTGTGGAAACCC AGCGCTTTCAGAGTATCAGCACGGAGTTTTTGGCTCTGATGAAAAAGGTCTCCAAGTCTCCACTTGTGAT GGATGTTCTGAACATACAGGGAGTCCAGAGGTCTCTGGAAAGGTTGGCCGACCTGCTTGGAAAGATCCAG AAAGCATTAGGGGAGTACCTGGAACGAGAGCGCTCATCTTTCCCCAGGTTCTACTTTGTGGGTGATGAGG ATTTGCTTGAAATCATTGGAAATAGCAAGAATGTGGCTAAGTTGCAGAAGCACTTCAAGAAAATGTTCGC TGGCGTTTCCAGCATCATCTTAAATGAGGACAGCTCTGTGGTCCTCGGCATTTCCTCCCGAGAAGGGGAG GAGGTTATGTTTAAAACTCCAGTGTCCATCACTGAACACCCCAAAATCAACGAGTGGCTCACTCTGGTGG AAAAGGAGATGAGAGTCACCTTGGCCAAACTTCTGGCAGAATCTGTAACAGAAGTGGAGATTTTTGGAAA AGCAACTTCTATTGACCCAAATACCTACATTACTTGGATTGATAAATACCAGGCCCAGCTAGTGGTTTTG TCGGCCCAGATAGCCTGGTCTGAGAACGTGGAGAATGCACTAAGCAACGTCGGAGGAGGCGGAGACGTGG GGCCCTTGCAGTCTGTGCTCAGCAACGTGGAGGTCACACTCAACGTCTTAGCAGATTCTGTCCTCATGGA GCAGCCCCCTCTCCGGAGAAGGAAACTGGAGCACTTGATCACAGAGTTGGTTCACCAAAGAGATGTTACC AGGTCCTTGATCAAAAGCAAGATTGACAACGCCAAATCTTTCGAATGGCTCAGCCAGATGCGATTTTACT TTGACCCTAAGCAAACGGACGTGTTACAGCAGCTGTCCATCCAGATGGCAAATGCCAAGTTTAACTACGG CTTTGAGTACCTGGGCGTTCAAGACAAGCTGGTTCAGACGCCCCTCACGGACCGCTGCTACTTGACAATG ACACAGGCTCTGGAGGCCAGGCTCGGGGGCTCCCCGTTCGGACCGGCTGGAACAGGAAAGACGGAGTCTG TCAAAGCCCTCGGCCATCAGCTGGGGCGATTCGTCTTAGTTTTCAACTGTGACGAAACCTTTGATTTCCA GGCGATGGGACGGATCTTCGTGGGGCTTTGCCAAGTGGGCGCGTGGGGCTGCTTCGATGAGTTTAACCGG CTGGAGGAGCGGATGCTGTCCGCTGTGTCCCAGCAGGTGCAGTGCATACAAGAGGCACTGCGGGAGCACT CCAACCCCAACTACGACAAGACCTCAGCCCCCATTACTTGTGAGCTGCTGAACAAACAAGTCAAGGTTAG CCCAGATATGGCTATCTTCATCACCATGAATCCAGGCTACGCAGGCCGCTCAAACCTCCCTGACAACCTC AAGAAGCTCTTCCGGAGCCTGGCGATGACCAAGCCTGACCGGCAGCTGATCGCCCAGGTCATGCTGTACT CACAGGGCTTCCGGACTGCTGAGGTCCTTGCCAACAAAATCGTCCCGTTCTTTAAACTGTGTGACGAGCA GCTGTCTTCTCAAAGCCATTATGACTTTGGTCTGCGGGCTTTGAAGAGCGTGCTCGTGAGTGCAGGCAAC GTGAAGAGGGAGAGGATCCAGAAGATAAAGAGGGAGAAAGAAGAGCGAGGGGAAGCCGTCGATGAAGGAG AGATCGCTGAGAACCTGCCTGAGCAGGAGATTCTGATCCAGAGTGTCTGCGAGACGATGGTGCCCAAGCT CGTGGCGGAAGACATCCCGCTGCTCTTCAGTCTCCTGTCAGACGTGTTCCCTGGGGTGCAGTACCACCGT GGGGAGATGACAGCCCTTCGAGAAGAGCTGAAGAAAGTGTGTCAGGAGATGTACTTGACGTATGGTGATG GAGAAGAAGTTGGCGGGATGTGGGTTGAAAAGGTTCTCCAGCTCTATCAGATCACCCAGATTAACCATGG CCTGATGATGGTTGGGCCTTCAGGAAGCGGGAAGAGCATGGCCTGGCGTGTGCTGCTGAAAGCTCTTGAG AGGCTCGAGGGTGTGGAGGGTGTGGCCCACATAATTGACCCCAAGGCCATCAGCAAAGACCACCTCTACG GAACCTTGGATCCCAACACCAGGGAGTGGACAGACGGACTCTTCACACATGTGCTGAGAAAGATCATAGA CAATGTGAGAGGCGAGCTGCAGAAGCGCCAGTGGATTGTCTTCGATGGTGATGTGGACCCCGAGTGGGTG GAGAACCTCAACTCCGTGCTCGACGACAACAAGCTCTTGACATTGCCCAATGGAGAGCGTCTTAGCCTGC CACCCAATGTGCGAATAATGTTTGAGGTGCAGGACTTGAAGTATGCAACCCTGGCCACCGTGTCTCGCTG CGGCATGGTGTGGTTCAGTGAGGACGTGCTGAGCACGGACATGATCTTCAACAACTTCCTGGCCAGGCTG CGCAGCATTCCCCTGGATGAGGGGGAGGATGAGGCACAGCGAAGGCGCAAAGGCAAAGAAGACGAGGGTG AAGAGGCCGCCTCTCCAATGCTGCAGATTCAAAGAGATGCAGCAACGATCATGCAGCCATACTTCACGTC CAATGGCCTGGTCACCAAGGCGCTGGAGCATGCCTTCAAGCTGGAGCACATCATGGACCTGACCCGCCTG CGCTGCCTGGGCTCACTCTTCTCCATGCTGCACCAGGCCTGCCGCAATGTGGCCCAGTACAATGCCAACC ATCCTGATTTCCCCATGCAGATTGAGCAGCTGGAGCGCTACATTCAGCGCTATCTGGTGTATGCCATCCT CTGGTCCTTATCTGGAGACAGCCGGCTGAAAATGAGAGCAGAGCTGGGCGAGTACATCAGAAGGATCACC ACTGTGCCTCTGCCCACCGCGCCCAACATCCCCATCATTGACTATGAGGTGTCCATCAGTGGAGAATGGT CACCGTGGCAGGCCAAGGTGCCTCAGATTGAAGTGGAGACACACAAGGTAGCAGCCCCAGATGTCGTCGT GCCAACCCTAGATACAGTCCGCCATGAAGCTCTCTTGTACACCTGGCTGGCTGAGCACAAACCCCTGGTC TTATGCGGCCCTCCTGGGTCTGGCAAGACCATGACACTCTTCAGCGCCCTCCGAGCCTTGCCTGACATGG AGGTTGTGGGCCTGAACTTCTCAAGTGCCACTACACCAGAGCTGTTGCTGAAGACGTTTGACCACTACTG CGAATACCGGCGCACCCCTAACGGTGTTGTCTTGGCTCCTGTTCAGCTTGGAAAGTGGCTAGTCCTGTTT TGTGATGAAATCAACTTGCCAGATATGGATAAGTACGGTACCCAGAGAGTCATCTCCTTCATCAGACAGA TGGTGGAGCATGGAGGCTTCTATCGTACCTCAGACCAAACATGGGTGAAGCTAGAGAGAATCCAGTTTGT TGGAGCTTGCAATCCGCCCACTGACCCTGGGAGAAAGCCCCTCTCACATAGGTTCTTGCGCCACGTGCCT GTTGTGTATGTGGATTACCCAGGACCAGCCTCCCTGACGCAGATCTATGGCACCTTCAACCGCGCCATGC TGAGACTCATTCCCTCGCTCCGCACCTATGCAGAACCCCTCACCGCAGCCATGGTGGAGTTCTATACCAT GTCCCAGGAGAGATTTACTCAGGACACACAGCCACACTATATCTATTCACCCCGTGAGATGACTCGGTGG GTAAGAGGAATCTTTGAAGCACTGAGACCCCTGGAGACATTGCCTGTTGAAGGTCTCATTCGCATTTGGG CACATGAAGCCCTCCGTCTCTTCCAAGACAGGCTTGTGGAGGATGAAGAGCGGCGCTGGACTGATGAGAA CATCGACATGGTTGCCTTGAAGCATTTCCCTAACATAGACAAAGAGAAAGCCATGAGCCGGCCTATCCTG TACAGCAACTGGCTGTCAAAGGACTATATCCCAGTTGACCAAGAGGAGCTAAGGGATTATGTCAAGGCTA GGCTGAAGGTCTTCTATGAAGAAGAGCTTGACGTTCCCCTGGTCTTGTTCAATGAAGTGCTGGACCATGT GCTCAGGATTGACAGGATATTCCGACAACCTCAAGGCCACTTGCTTCTCATTGGTGTTAGTGGAGCTGGA AAGACCACCCTGTCTCGGTTTGTCGCCTGGATGAATGGCTTGAGTGTCTATCAGATTAAGGTCCACAGGA AATACACTGGGGAAGACTTTGATGAAGACCTCAGGACAGTGCTGCGACGCTCGGGCTGCAAAAATGAGAA GATAGCATTCATAATGGATGAATCCAATGTCTTAGACTCTGGGTTCCTGGAACGAATGAATACTCTGCTG GCCAACGGCGAGGTTCCTGGGCTCTTTGAAGGGGACGAGTATGCCACGTTGATGACTCAGTGCAAAGAGG GAGCACAGAAGGAGGGCCTCATGCTGGACTCACATGAGGAGCTCTACAAGTGGTTCACCAGCCAGGTGAT CCGCAACCTGCACGTGGTGTTCACCATGAACCCGTCCTCAGAGGGGCTCAAGGACAGGGCGGCCACGTCA CCAGCCCTTTTCAACAGGTGTGTGCTGAACTGGTTTGGTGACTGGTCCACAGAAGCACTCTATCAAGTTG GCAAAGAATTCACCAGTAAAATGGACCTGGAGAAGCCAAACTATATAGTGCCTGACTACATGCCAGTTGT GTACGATAAACTTCCACAGCCCCCAACACACCGGGAAGCCATTGTGAACAGCTGTGTGTTTGTTCATCAG ACTCTTCACCAGGCTAACGCACGCCTGGCAAAGCGAGGCGGCAGAACAATGGCCATCACACCTCGGCACT ACCTGGACTTCATCAACCACTACGCCAACCTCTTCCATGAGAAGCGCAGCGAGTTGGAGGAGCAGCAGAT GCACCTGAACGTTGGGCTCCGAAAAATCAAAGAGACTGTGGACCAGGTGGAAGAACTGCGCCGTGACCTG AGGATCAAGAGCCAAGAGCTGGAGGTCAAGAACGCAGCAGCCAATGACAAGCTGAAGAAAATGGTGAAAG ACCAGCAAGAGGCTGAGAAGAAAAAGGTCATGAGCCAAGAAATTCAGGAGCAGCTGCACAAGCAGCAGGA AGTGATTGCAGATAAGCAGATGAGTGTCAAGGAGGATCTGGATAAAGTAGAGCCTGCTGTCATCGAGGCC CAGAATGCTGTGAAGTCCATCAAGAAGCAGCACCTGGTGGAGGTAAGGTCCATGGCCAACCCTCCAGCTG CCGTGAAGCTGGCTCTGGAGTCCATCTGCCTGCTGCTTGGTGAGAGCACCACGGACTGGAAGCAGATCCG CTCCATCATCATGAGAGAGAACTTCATCCCCACCATCGTCAACTTCTCAGCCGAGGAGATCAGTGACGCC ATAAGAGAGAAGATGAAGAAAAACTACATGTCCAACCCCAGTTACAACTACGAAATCGTCAACCGGGCTT CTCTGGCTTGCGGCCCTATGGTGAAGTGGGCAATTGCACAGCTCAATTATGCAGACATGTTAAAGCGAGT GGAGCCCCTGCGGAATGAGCTGCAGAAGCTGGAAGATGATGCCAAGGACAACCAGCAGAAAGCCAATGAG GTGGAGCAGATGATCCGGGATCTGGAAGCCAGCATCGCCCGCTACAAGGAGGAGTATGCTGTCCTCATCT CGGAGGCCCAGGCCATCAAGGCAGACCTGGCAGCTGTCGAAGCGAAAGTAAACCGAAGCACTGCACTTCT AAAGAGTTTATCTGCTGAAAGGGAACGTTGGGAAAAGACAAGTGAAACGTTCAAAAACCAGATGTCTACC ATTGCTGGGGACTGCCTCCTGTCGGCGGCCTTCATTGCTTATGCAGGCTACTTTGACCAGCAGATGCGCC AGAACTTGTTCACCACCTGGTCTCATCACTTACAGCAAGCCAACATCCAGTTCCGCACAGACATTGCCAG GACGGAGTACCTCTCCAATGCTGACGAGCGCCTCCGCTGGCAGGCCAGCTCCCTGCCTGCTGACGACCTG TGCACAGAAAACGCCATCATGCTAAAGCGGTTCAATAGGTACCCGTTGATCATTGACCCCTCCGGACAGG CCACAGAATTCATCATGAATGAGTATAAGGACCGGAAGATCACAAGGACCAGCTTCTTAGACGATGCCTT CCGGAAGAATTTGGAGAGTGCTCTGAGATTTGGCAATCCCCTTCTCGTCCAGGATGTGGAGAGCTACGAT CCAGTTTTGAATCCAGTACTGAACCGTGAAGTCCGGCGAACAGGAGGGAGAGTGCTGATTACCCTCGGTG ACCAAGACATTGACCTGTCACCATCCTTTGTCATCTTTCTGTCTACCCGAGACCCAACTGTGGAGTTCCC ACCAGATCTCTGTTCCCGGGTGACCTTCGTGAACTTCACGGTCACCCGCAGCAGTTTACAGAGCCAGTGT CTCAATGAAGTTCTTAAAGCAGAAAGGCCCGATGTGGATGAGAAGCGTTCTGACCTCTTGAAGCTGCAAG GGGAGTTCCAGCTCCGTTTACGGCAACTGGAAAAGTCTCTGCTCCAAGCTCTGAACGAGGTAAAAGGCCG CATTCTGGATGACGACACCATCATTACAACCCTGGAAAATCTGAAGCGGGAAGCCGCCGAGGTCACCAGA AAGGTGGAGGAGACGGACATTGTCATGCAGGAGGTAGAGACCGTGTCCCAGCAGTACCTGCCGCTGTCCA CTGCATGCAGCAGCATCTACTTCACTATGGAGTCCCTGAAGCAGGTTCACTTCCTGTATCAGTACTCACT GCAGTTCTTCCTGGACATCTACCACAATGTGCTCTATGAGAACCCCAACCTGAAGGGCGCCACCGATCAC ACACAGCGCCTCTCTGTCATCACCAAGGACCTCTTCCAGGTGGCCTTTAACCGGGTGGCCCGAGGCATGC TGCACCAGGACCACATCACCTTCGCCATGCTGCTGGCGAGGATCAAGCTGAAAGGCACCATGGGGGAGCC CACCTATGACGCAGAGTTCCAGCACTTCCTCCGAGGGAAGGAGATCGTGCTGAGTGCTGGCTCCACCCCC AAAGTCCAGGGCCTGACTGTGGAGCAGGCGGAAGCTGTGGCAAGGTTGAGCTGTCTGCCTGCCTTTAAAG ATCTCATTGCCAAGGTTCAGGCAGATGAGCAGTTTGGCATTTGGCTGGAGAGCAGTTCACCAGAGCAGAC AGTGCCATACCTCTGGACTGAGGAGACGCCTGCAACTCCCATCGGGCAGGCCATCCACCGCCTACTCCTG ATTCAAGCTTTCCGACCCGACCGCCTGCTGGCCATGGCCCACATGTTTGTTTCCACAAACCTCGGAGAGT CCTTCATGTCCATCATGGAGCAGCCACTTGACCTCACCCACATTGTGGGCACAGAGGTGAAGCCAAACAC ACCTGTCCTGATGTGCTCTGTGCCTGGGTATGATGCCAGCGGACATGTCGAGGACCTCGCCGCAGAGCAG AACACACAGATCACTTCTATTGCCATTGGCTCAGCAGAAGGCTTTAACCAAGCAGATAAGGCGATCAACA CCGCGGTGAAGTCAGGCAGGTGGGTGATGCTGAAGAATGTGCACCTGGCCCCCGGGTGGCTGATGCAGCT GGAAAAGAAGCTTCACTCCCTGCAGCCACACGCCTGCTTCCGACTCTTCCTCACCATGGAGATCAACCCC AAGGTGCCCGTGAACCTGCTCCGTGCAGGTCGGATCTTTGTGTTTGAGCCGCCACCTGGCGTGAAGGCCA ACATGCTGAGGACCTTCAGCAGCATCCCCGTCTCCAGGATGTGCAAGTCTCCAAATGAGCGAGCCCGCTT GTACTTCCTGCTGGCCTGGTTCCATGCTGTCATCCAAGAGCGCCTGCGCTATGCTCCACTCGGGTGGTCC AAGAAATACGAATTTGGAGAATCTGACCTTCGATCGGCTTGTGACACGGTGGACACATGGTTGGATGACA CAGCCAAGGGCCGACAGAACATCTCACCAGATAAGATCCCATGGTCTGCCCTGAAGACATTGATGGCCCA GTCCATCTATGGTGGGCGGGTGGACAATGAGTTTGACCAGCGTCTGCTCAATACCTTCCTGGAGCGCCTG TTTACCACCCGGAGTTTCGATAGTGAATTCAAGCTGGCGTGCAAGGTCGATGGGCACAAGGACATTCAGA TGCCTGACGGTATCAGGCGAGAGGAGTTTGTGCAGTGGGTGGAGCTGCTGCCTGACGCCCAGACACCCTC ATGGCTGGGCCTCCCCAACAATGCTGAAAGGGTCCTGCTTACCACCCAAGGCGTGGACATGATCAGCAAG ATGCTGAAGATGCAGATGCTGGAGGACGAGGACGACCTGGCCTACGCAGAGACGGAGAAGAAGACAAGGA CGGACTCCACCTCAGACGGCCGTCCAGCCTGGATGAGAACACTGCACACGACGGCCTCAAACTGGCTGCA CCTCATCCCACAGACACTGAGCCCACTGAAGCGCACGGTGGAGAACATCAAGGACCCTTTGTTTAGGTTC TTCGAGAGAGAGGTGAAGATGGGGGCCAAGTTACTGCAAGATGTGCGCCAAGACCTTGCTGACGTCGTCC AAGTGTGCGAGGGGAAAAAGAAGCAGACAAACTACCTGCGCACGCTCATCAATGAGCTGGTGAAAGGGAT CTTGCCCCGGAGCTGGTCCCATTACACAGTACCTGCAGGCATGACGGTGATCCAGTGGGTGTCAGATTTC AGCGAGAGGATCAAACAGCTGCAGAATATCTCACAGGCTGCTGCAGCCGGGGGTGCCAAGGAACTGAAGA ACATCCACGTGTGCCTGGGTGGCCTGTTTGTGCCTGAGGCCTACATCACTGCCACCAGACAGTATGTGGC ACAAGCCAACAGCTGGTCCCTGGAGGAGCTCTGCCTCGAAGTCAATGTCACCGCCTCCCAGAGTACCACC CTTGATGCGTGCAGCTTTGGGGTCACAGGTCTGAAGCTCCAAGGGGCCACGTGCAGCAACAACAAACTCT CGCTGTCCAATGCGATCTCCACAGTCCTCCCCCTCACACAGCTACGCTGGGGGAAGCAAACTAGTGCTGA GAAGAAGGCCAGTGTGGTGACTTTACCTGTCTATCTGAACTTCACGCGGGCAGACCTCATCTTCACTGTA GACTTTGAAATTGCTACAAAGGAAGATCCTCGAAGCTTCTATGAGCGTGGAGTTGCAGTTCTGTGCACTG AGTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites	SgfI-MluI
ACCN	NM_019226
Insert Size	13935 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. 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).
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_019226.3, NP_062099.3
RefSeq Size	14279 bp
RefSeq ORF	13935 bp
Locus ID	29489
UniProt ID	P38650
Gene Summary	cytoplasmic motor protein that propels membranous organelles towards (-) ends of polarized microtubules using ATP hydrolysis; may be responsible for retrograde axonal transport and (-) end-directed organelle movements [RGD, Feb 2006]

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