Description:
HTT-Q48-PCDNA3.1, RDM,1-3144, HUMAN,CODON OPTIMIZED
Repository
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HD Community Biorepository
|
Quantity |
20 µg |
Quantitation Method |
Please see our FAQ |
Certain Third Party Licensing Requirements |
Invitrogen License for Cat# V790.20 |
Alias
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HTT-Q48-PCDNA3.1, RDM,1-3144, HUMAN,CODON OPTIMIZED
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Family History
|
N
|
Species
|
Homo sapiens
|
Common Name
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Human
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Remarks
|
|
Remarks |
DNA corresponding to tag free full
length sequence of the human
Huntingtin (Htt) gene containing 48
polyglutamine repeats (codon
optimized) in pcDNA3.1 vector. rdm:
x/CAG/CAA/x |
Construct Name |
HTT-Q48-PCDNA3.1, RDM,1-3144, HUMAN,CODON OPTIMIZED |
Insert Length |
9510 |
Vector |
pcDNA3.1 |
Concentration |
20ug |
Sequence |
ATGGCTACACTGGAGAAGCTTATGAAGGCATTTGAATCCCTGAAGAGTTTCCAGCAACA GCAACAGCAACAGCAGCAGCAACAGCAGCAGCAGCAGCAACAGCAACAGCAGCAGCAAC AGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAA CAGCAACAGCAACAGCAACCACCTCCACCTCCCCCTCCACCCCCACCTCCCCAGCTGCC TCAGCCCCCACCTCAGGCCCAGCCTCTGCTGCCACAGCCTCAGCCACCTCCCCCCCCAC CTCCTCCACCCCCTGGCCCAGCCGTGGCCGAGGAGCCTCTGCACAGACCTAAGAAGGAG CTGAGCGCCACCAAGAAGGATCGGGTGAATCACTGCCTGACCATTTGTGAAAACATTGT GGCCCAGAGTGTGAGAAACAGTCCAGAGTTCCAGAAGCTTCTGGGCATCGCCATGGAGC TGTTCCTGCTGTGCTCCGATGATGCCGAGTCTGACGTGCGGATGGTGGCCGATGAGTGC CTGAATAAGGTAATCAAGGCCCTGATGGACTCCAACCTGCCCCGGCTGCAGCTGGAGCT GTACAAGGAGATCAAGAAGAACGGCGCCCCCAGGTCCCTGAGGGCCGCCCTGTGGAGGT TCGCCGAGCTGGCCCACCTGGTGAGACCTCAGAAGTGCAGACCTTACCTGGTGAACCTG CTGCCTTGTCTGACACGGACCTCCAAGCGGCCAGAGGAGTCCGTGCAGGAGACACTGGC CGCCGCCGTGCCTAAGATCATGGCCTCCTTCGGCAATTTCGCCAATGACAATGAGATCA AGGTGCTGCTGAAGGCCTTCATCGCCAATCTGAAGTCTTCTAGCCCTACAATCCGGAGA ACAGCCGCCGGCTCTGCCGTGTCCATCTGCCAGCACTCCCGGAGGACCCAGTACTTCTA TTCCTGGCTGCTGAATGTGCTGCTGGGCCTGCTGGTGCCAGTGGAGGATGAGCACTCTA CCCTGCTGATCCTGGGCGTGCTGCTGACACTGCGGTACCTGGTGCCACTGCTGCAGCAG CAGGTGAAGGACACCTCTCTGAAGGGCTCCTTTGGCGTGACAAGAAAGGAGATGGAGGT GTCCCCCTCTGCCGAGCAGCTGGTGCAGGTGTATGAGCTGACACTGCACCACACCCAGC ACCAGGACCACAACGTGGTGACAGGCGCCCTGGAGCTGCTGCAGCAGCTGTTCCGGACA CCACCCCCTGAGCTGCTGCAGACCCTGACAGCCGTGGGCGGCATCGGCCAGCTGACAGC CGCCAAGGAGGAGTCCGGCGGCCGGTCCAGGTCTGGCTCCATCGTGGAGCTGATCGCCG GCGGCGGCTCCTCTTGTAGCCCTGTGCTGTCTAGAAAGCAGAAGGGCAAGGTGCTGCTG GGCGAGGAGGAGGCCCTGGAGGACGACTCTGAGTCCCGGTCCGACGTGAGCTCCTCTGC CCTGACAGCCTCTGTGAAGGACGAGATCAGCGGCGAGCTGGCCGCCAGCAGCGGCGTGT CTACCCCAGGCTCCGCCGGCCACGATATCATCACCGAGCAGCCCCGGTCCCAGCACACC CTGCAGGCCGATTCTGTGGATCTGGCCAGCTGTGATCTGACCAGCTCCGCCACCGACGG CGACGAGGAGGACATCCTGAGCCACTCCTCCTCCCAGGTGTCTGCCGTGCCATCCGATC CAGCCATGGATCTGAATGACGGCACCCAGGCCTCTTCCCCCATCAGCGATTCTTCCCAG ACCACCACAGAGGGCCCAGATTCCGCCGTGACCCCTTCCGATTCTAGCGAGATCGTGCT GGATGGCACCGACAACCAGTACCTGGGCCTGCAGATCGGCCAGCCACAGGATGAGGACG AGGAGGCCACCGGCATCCTGCCCGACGAGGCCAGCGAGGCCTTTCGGAACAGCTCCATG GCCCTGCAGCAGGCCCACCTGCTGAAGAATATGTCTCACTGTAGGCAGCCATCCGATAG CTCTGTGGATAAGTTCGTGCTGAGGGATGAGGCCACCGAGCCTGGCGACCAGGAGAACA AGCCCTGTAGAATCAAGGGCGACATCGGCCAGTCTACAGACGATGATAGCGCCCCTCTG GTGCACTGCGTGCGGCTGCTGTCCGCCTCTTTCCTGCTGACCGGCGGCAAGAACGTGCT GGTGCCCGATCGGGACGTGAGAGTGTCCGTGAAGGCCCTGGCCCTGTCCTGCGTGGGCG CCGCCGTGGCCCTGCACCCCGAGAGCTTTTTCTCCAAGCTGTACAAGGTGCCACTGGAT ACAACAGAGTATCCCGAGGAGCAGTACGTGAGCGACATCCTGAACTATATCGATCACGG CGACCCCCAGGTGCGGGGCGCCACCGCCATCCTGTGCGGCACCCTGATCTGTTCCATCC TGTCTAGGTCCCGCTTTCACGTGGGCGATTGGATGGGCACCATCAGAACCCTGACCGGC AATACCTTTTCTCTGGCCGATTGTATCCCACTGCTGAGAAAGACACTGAAGGATGAGTC CTCTGTGACATGCAAGCTGGCCTGCACCGCCGTGCGGAATTGCGTGATGTCTCTGTGCT CCTCCTCCTATTCTGAGCTGGGCCTGCAGCTGATCATCGATGTGCTGACCCTGAGAAAT TCTTCCTATTGGCTGGTGCGGACAGAGCTGCTGGAGACACTGGCCGAGATCGATTTTCG CCTGGTGTCTTTCCTGGAGGCCAAGGCCGAGAACCTGCACAGGGGCGCCCACCACTACA CCGGCCTGCTGAAGCTGCAGGAGAGAGTGCTGAATAACGTGGTAATCCACCTGCTGGGC GACGAGGATCCAAGAGTGAGACACGTGGCCGCCGCCTCCCTGATCCGCCTGGTGCCTAA GCTGTTTTACAAGTGTGACCAGGGCCAGGCCGACCCCGTGGTGGCCGTGGCCCGGGATC AGTCTAGCGTGTATCTGAAGCTGCTGATGCACGAGACACAGCCCCCATCCCACTTTAGC GTGTCCACCATCACAAGAATCTATCGCGGCTATAACCTGCTGCCATCCATCACAGACGT GACCATGGAGAATAACCTGTCTCGGGTAATCGCCGCCGTGAGCCACGAGCTGATCACCT CCACAACCAGGGCCCTGACATTCGGCTGTTGCGAGGCCCTGTGCCTGCTGTCTACCGCC TTTCCAGTGTGCATCTGGTCCCTGGGCTGGCACTGTGGCGTGCCTCCCCTGTCTGCCTC CGACGAGTCCAGAAAGTCCTGTACAGTGGGCATGGCCACAATGATCCTGACACTGCTGT CCTCTGCCTGGTTTCCCCTGGACCTGTCTGCCCACCAGGATGCCCTGATCCTGGCCGGC AATCTGCTGGCCGCCTCTGCCCCTAAGTCTCTGAGGTCCTCCTGGGCCAGCGAGGAGGA GGCCAACCCAGCCGCCACCAAGCAGGAGGAGGTGTGGCCTGCCCTGGGCGACAGGGCCC TGGTGCCTATGGTGGAGCAGCTGTTCTCTCACCTGCTGAAGGTAATCAATATCTGTGCC CACGTGCTGGATGACGTGGCCCCTGGCCCCGCCATCAAGGCCGCCCTGCCCAGCCTGAC AAATCCTCCCTCTCTGTCTCCAATCAGACGGAAGGGCAAGGAGAAGGAGCCTGGCGAGC AGGCCTCTGTGCCTCTGTCCCCCAAGAAGGGCAGCGAGGCCAGCGCCGCCAGCCGCCAG TCTGATACATCCGGCCCAGTGACAACCAGCAAGTCCAGCTCCCTGGGCTCTTTTTACCA CCTGCCAAGCTACCTGAAGCTGCACGACGTGCTGAAGGCCACCCACGCCAATTACAAGG TGACCCTGGACCTGCAGAATAGCACAGAGAAGTTCGGCGGCTTCCTGAGGTCCGCCCTG GACGTGCTGAGCCAGATCCTGGAGCTGGCCACACTGCAGGATATCGGCAAGTGCGTGGA GGAGATCCTGGGCTATCTGAAGTCCTGCTTTTCTAGAGAGCCCATGATGGCCACCGTGT GCGTGCAGCAGCTGCTGAAGACACTGTTCGGCACAAATCTGGCCTCCCAGTTTGACGGC CTGTCCTCTAATCCAAGCAAGTCCCAGGGCAGGGCCCAGCGGCTGGGCTCCTCCTCTGT GCGGCCCGGCCTGTATCACTACTGTTTTATGGCCCCATACACCCACTTCACCCAGGCCC TGGCCGATGCCTCCCTGAGGAACATGGTGCAGGCCGAGCAGGAGAATGATACATCTGGC TGGTTTGACGTGCTGCAGAAGGTGTCCACCCAGCTGAAGACCAATCTGACATCCGTGAC AAAGAACCGGGCCGACAAGAATGCCATCCACAACCACATCAGACTGTTTGAGCCACTGG TAATCAAGGCCCTGAAGCAGTATACCACCACCACCTGCGTGCAGCTGCAGAAGCAGGTG CTGGACCTGCTGGCCCAGCTGGTGCAGCTGCGCGTGAATTACTGCCTGCTGGATAGCGA TCAGGTGTTTATCGGCTTCGTGCTGAAGCAGTTCGAGTATATCGAGGTGGGCCAGTTTC GGGAGTCTGAGGCCATCATCCCCAACATCTTCTTCTTCCTGGTGCTGCTGAGCTATGAG CGGTATCACAGCAAGCAGATCATCGGCATCCCCAAGATCATCCAGCTGTGCGATGGCAT CATGGCCAGCGGCAGGAAGGCCGTGACCCACGCCATCCCTGCCCTGCAGCCCATCGTGC ACGATCTGTTCGTGCTGAGAGGCACCAATAAGGCCGATGCCGGCAAGGAGCTGGAGACC CAGAAGGAGGTGGTGGTGTCTATGCTGCTGAGACTGATCCAGTATCACCAGGTGCTGGA GATGTTCATCCTGGTGCTGCAGCAGTGTCACAAGGAGAACGAGGATAAGTGGAAGAGAC TGTCTAGGCAGATCGCCGATATCATCCTGCCAATGCTGGCCAAGCAGCAGATGCACATC GATTCCCACGAGGCCCTGGGCGTGCTGAATACACTGTTCGAGATCCTGGCCCCTTCCTC CCTGAGACCCGTGGACATGCTGCTGAGGAGCATGTTTGTGACACCTAATACAATGGCCT CTGTGAGCACCGTGCAGCTGTGGATCTCCGGCATCCTGGCCATCCTGCGCGTGCTGATC TCTCAGAGCACAGAGGATATCGTGCTGTCCCGCATCCAGGAGCTGTCCTTCTCTCCATA CCTGATCTCTTGTACAGTGATCAACAGGCTGAGAGATGGCGACTCCACATCCACACTGG AGGAGCACAGCGAGGGCAAGCAGATCAAGAATCTGCCCGAGGAGACATTCAGCCGCTTT CTGCTGCAGCTGGTGGGCATCCTGCTGGAGGATATCGTGACCAAGCAGCTGAAGGTGGA GATGTCTGAGCAGCAGCACACCTTCTACTGCCAGGAGCTGGGCACCCTGCTGATGTGCC TGATCCACATCTTTAAGAGCGGCATGTTTAGACGGATCACCGCCGCCGCCACCAGGCTG TTCCGGAGCGACGGCTGTGGCGGCTCCTTCTATACCCTGGACAGCCTGAATCTGCGCGC CCGGTCCATGATCACAACCCACCCAGCCCTGGTGCTGCTGTGGTGTCAGATCCTGCTGC TGGTGAACCACACCGACTACAGATGGTGGGCCGAGGTGCAGCAGACACCCAAGCGGCAC TCCCTGTCCTCTACAAAGCTGCTGAGCCCCCAGATGAGCGGCGAGGAGGAGGATTCCGA TCTGGCCGCCAAGCTGGGCATGTGCAACAGGGAGATCGTGAGAAGGGGCGCCCTGATCC TGTTTTGCGACTACGTGTGCCAGAATCTGCACGATTCCGAGCACCTGACCTGGCTGATC GTGAATCACATCCAGGACCTGATCTCTCTGTCTCACGAGCCCCCAGTGCAGGATTTCAT CTCTGCCGTGCACAGGAATTCTGCCGCCTCCGGCCTGTTTATCCAGGCCATCCAGTCCA GATGCGAGAATCTGAGCACCCCAACCATGCTGAAGAAGACCCTGCAGTGTCTGGAGGGC ATCCACCTGAGCCAGAGCGGCGCCGTGCTGACACTGTACGTGGATAGACTGCTGTGCAC ACCTTTCCGGGTGCTGGCCAGAATGGTGGACATCCTGGCCTGCAGGAGAGTGGAGATGC TGCTGGCCGCCAATCTGCAGTCCAGCATGGCCCAGCTGCCCATGGAGGAGCTGAATAGA ATCCAGGAGTACCTGCAGTCCTCTGGCCTGGCCCAGAGACACCAGCGGCTGTATAGCCT GCTGGATCGGTTCAGGCTGTCCACAATGCAGGACTCCCTGTCCCCAAGCCCACCCGTGA GCTCCCACCCCCTGGACGGCGATGGCCACGTGTCTCTGGAGACCGTGAGCCCAGACAAG GATTGGTACGTGCACCTGGTGAAGAGCCAGTGCTGGACCAGATCCGATAGCGCCCTGCT GGAGGGCGCCGAGCTGGTGAATAGAATCCCAGCCGAGGACATGAACGCCTTTATGATGA ATTCCGAGTTTAACCTGTCTCTGCTGGCCCCATGTCTGTCTCTGGGCATGTCCGAGATC TCTGGCGGCCAGAAGTCTGCCCTGTTTGAGGCCGCCCGCGAGGTGACCCTGGCCCGGGT GAGCGGCACAGTGCAGCAGCTGCCAGCCGTGCACCACGTGTTTCAGCCAGAGCTGCCAG CCGAGCCCGCCGCCTACTGGTCCAAGCTGAATGACCTGTTCGGCGACGCCGCCCTGTAC CAGTCTCTGCCAACCCTGGCCAGAGCCCTGGCCCAGTACCTGGTGGTGGTGAGCAAGCT GCCATCCCACCTGCACCTGCCCCCTGAGAAGGAGAAGGACATCGTGAAGTTCGTGGTGG CCACCCTGGAGGCCCTGTCTTGGCACCTGATCCACGAGCAGATCCCACTGTCCCTGGAT CTGCAGGCCGGCCTGGACTGCTGCTGCCTGGCCCTGCAGCTGCCCGGCCTGTGGTCTGT GGTGTCCTCTACCGAGTTCGTGACCCACGCCTGCAGCCTGATCTATTGCGTGCACTTCA TCCTGGAGGCCGTGGCCGTGCAGCCAGGCGAGCAGCTGCTGTCCCCAGAGAGGAGAACC AATACACCCAAGGCCATCTCCGAGGAGGAGGAGGAGGTGGACCCCAACACCCAGAATCC CAAGTACATCACAGCCGCCTGTGAGATGGTGGCCGAGATGGTGGAGTCCCTGCAGTCTG TGCTGGCCCTGGGCCACAAGAGGAATAGCGGCGTGCCTGCCTTTCTGACCCCACTGCTG CGGAACATCATCATCTCCCTGGCCAGGCTGCCTCTGGTGAACAGCTACACCAGAGTGCC ACCCCTGGTGTGGAAGCTGGGCTGGTCTCCCAAGCCAGGCGGCGATTTCGGCACCGCCT TCCCCGAGATCCCTGTGGAGTTTCTGCAGGAGAAGGAGGTGTTCAAGGAGTTTATCTAT AGGATCAATACCCTGGGCTGGACAAGCAGAACCCAGTTCGAGGAGACCTGGGCCACACT GCTGGGCGTGCTGGTGACCCAGCCACTGGTAATGGAGCAGGAGGAGTCCCCACCTGAGG AGGATACAGAGAGAACCCAGATCAACGTGCTGGCCGTGCAGGCCATCACCTCCCTGGTG CTGTCTGCCATGACCGTGCCAGTGGCCGGCAACCCAGCCGTGAGCTGTCTGGAGCAGCA GCCCAGAAACAAGCCACTGAAGGCCCTGGATACAAGATTCGGCAGAAAGCTGAGCATCA TCAGAGGCATCGTGGAGCAGGAGATCCAGGCCATGGTGTCTAAGAGGGAGAACATCGCC ACCCACCACCTGTATCAGGCCTGGGATCCTGTGCCCTCTCTGTCCCCTGCCACCACCGG CGCCCTGATCTCCCACGAGAAGCTGCTGCTGCAGATCAACCCTGAGAGAGAGCTGGGCT CTATGAGCTATAAGCTGGGCCAGGTGTCTATCCACAGCGTGTGGCTGGGCAATTCTATC ACCCCACTGCGGGAGGAGGAGTGGGATGAGGAGGAGGAGGAGGAGGCCGATGCCCCAGC CCCATCCAGCCCACCCACCTCCCCCGTGAATTCCCGGAAGCACAGAGCCGGCGTGGATA TCCACAGCTGTTCCCAGTTTCTGCTGGAGCTGTATAGCCGGTGGATCCTGCCTTCTTCC TCTGCCAGACGCACACCTGCCATCCTGATCAGCGAGGTGGTGCGGAGCCTGCTGGTGGT GTCCGATCTGTTCACCGAGAGGAATCAGTTCGAGCTGATGTATGTGACACTGACCGAGC TGCGCAGGGTGCACCCATCTGAGGACGAGATCCTGGCCCAGTATCTGGTGCCCGCCACC TGTAAGGCCGCCGCCGTGCTGGGCATGGATAAGGCCGTGGCCGAGCCAGTGTCTCGGCT GCTGGAGAGCACACTGAGATCCAGCCACCTGCCCTCTAGAGTGGGCGCCCTGCACGGCG TGCTGTACGTGCTGGAGTGCGATCTGCTGGATGACACCGCCAAGCAGCTGATCCCCGTG ATCTCTGATTACCTGCTGTCCAATCTGAAGGGCATCGCCCACTGTGTGAACATCCACTC TCAGCAGCACGTGCTGGTAATGTGCGCCACAGCCTTTTACCTGATCGAGAATTATCCTC TGGATGTGGGCCCAGAGTTCTCCGCCTCTATCATCCAGATGTGCGGCGTGATGCTGAGC GGCTCCGAGGAGTCTACACCATCCATCATCTATCACTGCGCCCTGAGAGGCCTGGAGAG ACTGCTGCTGTCTGAGCAGCTGTCTAGACTGGACGCCGAGTCCCTGGTGAAGCTGTCCG TGGATAGAGTGAACGTGCACTCCCCACACCGGGCCATGGCCGCCCTGGGCCTGATGCTG ACCTGTATGTACACCGGCAAGGAGAAGGTGAGCCCCGGCAGAACAAGCGACCCAAATCC CGCCGCCCCAGATTCCGAGAGCGTGATCGTGGCCATGGAGCGCGTGTCCGTGCTGTTCG ACAGGATCAGAAAGGGCTTCCCATGCGAGGCCCGGGTGGTGGCCAGAATCCTGCCTCAG TTTCTGGACGACTTCTTTCCTCCTCAGGACATCATGAACAAGGTAATCGGCGAGTTTCT GTCCAATCAGCAGCCCTACCCCCAGTTTATGGCCACAGTGGTGTACAAGGTGTTTCAGA CCCTGCACTCCACAGGCCAGAGCTCCATGGTGCGGGATTGGGTAATGCTGAGCCTGTCT AATTTCACCCAGCGGGCCCCTGTGGCCATGGCCACATGGTCTCTGAGCTGCTTCTTCGT GTCCGCCTCTACAAGCCCATGGGTGGCCGCCATCCTGCCACACGTGATCTCCCGGATGG GCAAGCTGGAGCAGGTGGACGTGAATCTGTTCTGTCTGGTGGCCACCGATTTCTACAGG CACCAGATCGAGGAGGAGCTGGACCGCAGGGCCTTTCAGTCTGTGCTCGAGGTGGTGGC CGCCCCAGGCAGCCCCTATCACCGCCTGCTGACATGCCTGCGGAATGTGCACAAGGTGA CCACCTGTTGA
|
Cloning Information |
DNA corresponding to tag free full length sequence of the human Huntingtin (Htt) gene containing 48 polyglutamine repeats (codon optimized) in pcDNA3.1 vector. rdm: x/CAG/CAA/x |
Remarks |
DNA corresponding to tag free full
length sequence of the human
Huntingtin (Htt) gene containing 48
polyglutamine repeats (codon
optimized) in pcDNA3.1 vector. rdm:
x/CAG/CAA/x |
DNA corresponding to tag free full
length sequence of the human
Huntingtin (Htt) gene containing 48
polyglutamine repeats (codon
optimized) in pcDNA3.1 vector. rdm:
x/CAG/CAA/x |
Remarks |
DNA corresponding to tag free full
length sequence of the human
Huntingtin (Htt) gene containing 48
polyglutamine repeats (codon
optimized) in pcDNA3.1 vector. rdm:
x/CAG/CAA/x |
PDF |
Vector Map |
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Plasmid Collection Screening and Propagation |
Supplement |
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