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CH01946 Plasmid

Description:

HTT-Q48-PCDNA3.1, RDM,1-3144, 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, HUMAN,CODON OPTIMIZED
Family History N
Species Homo sapiens
Common Name Human
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

Characterizations

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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

Phenotypic Data

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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

Culture Protocols

back to top
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
Plasmid Collection Screening and Propagation
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