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CH02051 Plasmid

Description:

HTT-Q48-PCDNA3.1, RDM,1-3144(S13A/S16A), HUMAN, CODON OPTIMIZED

Affected:

No Data

Sex:

No Data

Age:

No Data

  • Overview
  • Characterizations
  • Phenotypic Data
  • Culture Protocols

Overview

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Repository HD Community Biorepository
Quantity 20 µg
Quantitation Method Please see our FAQ
Certain Third Party Licensing Requirements Invitrogen License for Cat# V790.20
Alias HTT-Q48-PCDNA3.1, RDM,1-3144(S13A/S16A), HUMAN, CODON OPTIMIZED
Family History N
Species Homo sapiens
Common Name Human
Remarks DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x

Characterizations

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Remarks DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x
Construct Name HTT-Q48-PCDNA3.1, RDM,1-3144(S13A/S16A), HUMAN, CODON OPTIMIZED
Insert Length 9510
Vector pcDNA3.1
Concentration 20ug
Sequence ATGGCTACACTGGAGAAGCTGATGAAAGCATTCGAGGCCCTGAAAGCCTTCCAGCAACA
GCAACAGCAACAGCAGCAGCAACAGCAGCAGCAGCAGCAACAGCAACAGCAGCAGCAAC
AGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAA
CAGCAACAGCAACAGCAACCACCTCCCCCTCCACCACCTCCTCCACCACCCCAGCTGCC
ACAGCCACCCCCACAGGCCCAGCCACTGCTGCCACAGCCTCAGCCACCCCCTCCCCCTC
CTCCACCTCCCCCAGGCCCTGCCGTGGCCGAGGAGCCACTGCACAGGCCAAAGAAGGAG
CTGAGCGCCACCAAGAAGGATAGAGTGAACCACTGCCTGACCATCTGCGAGAACATCGT
GGCCCAGTCTGTGAGAAACTCTCCTGAGTTTCAGAAGCTTCTGGGCATCGCCATGGAGC
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 the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x

Phenotypic Data

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Remarks DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x

Culture Protocols

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DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x
Remarks DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 48 polyglutamine repeats translated from a random codon and S13A/S16A mutation. rdm: x/CAG/CAA/x
PDF Vector Map
Plasmid Collection Screening and Propagation
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