Description:
HTT-Q23-PCDNA3.1, 1-3144, HUMAN
|
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-Q23-pcDNA3.1, 1-3144, human
|
|
Family History
|
N
|
|
Remarks
|
|
| Remarks |
DNA corresponding to the full length human sequence of the Huntingtin (Htt) gene containing 23 polyglutamine repeats. codon-optimized for mammalian expression. |
| Construct Name |
Htt-Q23-pcDNA3.1, 1-3144, human |
| Insert Length |
9462 |
| Vector |
pcDNA3.1 |
| Concentration |
587 ng/mL |
| Sequence |
GGATCCGCCGCCACCATGGCAACTCTGGAGAAACTGATGAAAGCATTTGAAAGTCTGAA
GTCATTCCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAGCAACAGCA GCAG
CAGCAGCAACAGCAACAGCCTCCTCCACCTCCTCCACCCCCTCCACCTCCACAACTGCC
CCAGCCGCCCCCTCAGGCACAACCTCTGCTCCCACAGCCACAACCACCTCCT CCTCCT
CCACCACCTCCACCAGGACCAGCAGTGGCTGAGGAACCACTGCACAGACCCAAGAAGGA
GCTCAGCGCCACCAAGAAAGATAGGGTGAACCATTGTCTGACAATTTGC GAAAATATA
GTCGCCCAGAGCGTGCGGAACAGCCCTGAGTTTCAGAAGCTTTTGGGCATCGCTATGGA
ACTGTTCCTGCTGTGCAGCGACGATGCTGAGTCCGACGTGCGGATG GTGGCAGACGAA
TGTCTGAACAAAGTGATCAAGGCCCTGATGGACAGCAACCTGCCCAGATTGCAGCTCGA
GCTCTACAAGGAAATTAAGAAAAATGGTGCTCCTCGGAGCCTG CGTGCCGCCCTGTGG
CGCTTCGCAGAGCTGGCACACCTGGTGCGGCCCCAGAAATGTAGACCTTATCTGGTGAA
CCTGTTGCCCTGCCTGACACGAACTAGTAAGCGGCCCGA GGAATCAGTGCAGGAGACA
CTGGCAGCCGCTGTCCCTAAAATCATGGCAAGCTTTGGAAATTTCGCCAACGACAATGA
AATTAAGGTGCTGCTGAAGGCTTTTATCGCAAACCTG AAGAGCTCCTCTCCAACCATT
CGGAGAACAGCAGCCGGCAGTGCCGTGTCAATCTGCCAGCATTCCAGGCGCACCCAATA
CTTCTATTCTTGGCTGCTGAACGTGCTGCTCGGC CTGTTGGTTCCCGTGGAGGATGAA
CACTCCACTCTGCTCATCCTGGGCGTGCTGCTGACCCTGCGGTACCTGGTGCCTCTGCT
CCAACAGCAAGTCAAGGACACAAGTCTGAAA GGCAGCTTCGGCGTTACTAGAAAGGAG
ATGGAAGTGTCTCCCAGTGCCGAGCAACTGGTCCAGGTTTATGAACTGACGTTACACCA
TACGCAGCACCAAGACCATAACGTGGTC ACAGGCGCCCTGGAGCTTTTGCAGCAACTG
TTCCGGACTCCCCCTCCAGAACTGCTCCAGACCCTGACCGCTGTGGGTGGTATCGGTCA
GCTCACCGCTGCAAAGGAGGAAAG CGGAGGCCGGAGCCGGAGCGGCAGCATCGTGGAG
CTGATTGCAGGTGGTGGAAGTTCATGCAGCCCCGTGCTGTCCAGGAAGCAGAAAGGGAA
GGTGCTTTTGGGAGAGGA AGAGGCCCTGGAGGACGATTCTGAAAGTCGCTCAGATGTC
AGCTCCTCTGCCCTGACTGCTAGCGTTAAGGACGAGATCTCCGGGGAACTGGCCGCTAG
TTCAGGAGTGTCTAC CCCTGGGAGTGCCGGACACGACATCATTACCGAGCAACCAAGA
TCCCAGCATACACTGCAAGCTGATTCTGTGGACCTGGCAAGTTGTGACCTGACCAGCTC
CGCCACAGATGG CGACGAAGAGGACATCCTGTCTCACTCTAGTTCACAGGTGAGCGCC
GTTCCTAGCGATCCAGCTATGGATCTGAATGACGGGACACAGGCCAGCTCCCCAATCAG
CGACTCTAG TCAGACCACAACTGAGGGACCTGATTCAGCTGTCACCCCAAGCGACTCA
AGCGAAATTGTGCTGGATGGTACAGACAACCAGTACCTGGGCCTGCAAATTGGACAGCC
CCAAGA TGAGGACGAAGAGGCCACCGGCATCCTGCCTGATGAGGCAAGCGAAGCCTTC
CGGAACAGCTCTATGGCCCTCCAGCAAGCTCACCTGCTGAAGAACATGTCTCATTGCCG
GC AGCCTAGTGATAGTTCAGTGGACAAATTCGTCCTGAGAGATGAGGCCACAGAACCC
GGCGACCAGGAGAATAAGCCTTGCCGGATCAAGGGCGACATCGGCCAGTCCACTGAC G
ATGACTCTGCACCACTGGTGCATTGCGTGCGGCTTTTGAGCGCCTCCTTCCTGCTCACC
GGTGGCAAGAACGTGCTGGTCCCAGATCGTGACGTGCGGGTGAGCGTCAAGGC CCTGG
CCCTGAGTTGCGTGGGTGCAGCAGTGGCCCTGCACCCTGAGAGCTTCTTTTCCAAGCTT
TACAAAGTCCCCCTGGACACGACCGAATACCCCGAAGAGCAGTATGTGAG CGACATTC
TGAATTATATAGATCATGGCGACCCCCAGGTGCGGGGTGCTACCGCAATCCTGTGCGGC
ACCCTGATCTGCTCTATTCTGAGCCGGAGCCGGTTTCACGTGGGCGA CTGGATGGGCA
CTATTCGGACCCTGACTGGGAACACCTTCAGCCTGGCCGATTGCATCCCCCTTTTGCGC
AAGACCCTGAAGGACGAGAGCTCCGTGACTTGTAAGCTGGCTTG CACGGCAGTCAGAA
ATTGCGTGATGTCACTGTGCTCTAGTTCATACAGCGAGCTGGGCCTGCAGCTTATAATC
GACGTGCTGACCCTGCGCAACAGCTCCTATTGGCTGGTGCG AACTGAGCTGCTGGAGA
CACTGGCCGAGATCGACTTTCGACTGGTGAGCTTCCTGGAGGCCAAGGCTGAAAATCTG
CACCGGGGGGCTCACCATTACACAGGCCTGCTGAAGC TGCAGGAGCGGGTGCTGAACA
ACGTGGTCATCCACCTGCTCGGAGATGAAGACCCACGGGTGCGGCATGTGGCTGCAGCA
AGCCTGATTAGGCTCGTGCCTAAGCTGTTTTAC AAATGTGATCAGGGCCAAGCCGACC
CAGTCGTTGCAGTCGCCCGCGATCAGTCTAGCGTGTACCTGAAGCTTTTGATGCACGAG
ACACAGCCGCCCTCCCATTTCTCAGTGAGC ACGATAACCAGGATCTACCGCGGCTATA
ACCTGCTCCCCTCCATCACAGACGTGACTATGGAGAACAATCTGAGCAGAGTGATCGCT
GCAGTCTCACATGAACTGATCACCAGCA CAACTCGGGCCCTGACCTTCGGCTGCTGTG
AGGCTCTGTGCCTTTTGAGCACTGCATTCCCTGTCTGTATTTGGAGCCTGGGTTGGCAC
TGCGGAGTGCCTCCACTGTCCGCCTC TGATGAGTCTAGGAAGAGTTGTACCGTGGGCA
TGGCCACTATGATCCTGACCCTGCTCTCAAGCGCCTGGTTTCCCCTGGACCTGTCCGCA
CACCAGGACGCATTGATTCTGGC TGGTAACCTGTTGGCAGCTTCCGCCCCAAAGTCTC
TGCGGTCCTCTTGGGCATCTGAAGAGGAAGCCAACCCCGCAGCCACCAAACAGGAGGAA
GTGTGGCCCGCCCTGGGCG ACCGGGCCCTGGTCCCCATGGTTGAGCAGCTGTTCTCCC
ACCTGCTGAAAGTGATCAACATTTGCGCACACGTGCTGGACGACGTGGCACCTGGACCA
GCCATCAAAGCCGCCC TGCCTTCTTTGACAAACCCGCCCAGTCTGTCACCAATTCGAC
GTAAAGGCAAGGAGAAAGAACCCGGCGAGCAGGCTAGTGTGCCGCTGTCACCCAAGAAA
GGCTCAGAAGCAA GCGCCGCTTCCCGGCAGTCTGACACCAGTGGGCCAGTGACCACCA
GCAAGAGTTCAAGCCTCGGCAGCTTCTACCACCTGCCCTCTTACCTGAAGCTTCACGAT
GTCCTGAAAG CCACTCATGCTAATTACAAGGTGACCCTGGACCTGCAGAACTCCACCG
AGAAATTTGGTGGCTTCCTGCGGAGCGCCCTGGACGTGCTGTCACAGATCCTGGAGCTT
GCAACCC TGCAGGACATTGGCAAGTGCGTGGAGGAAATCCTGGGCTACCTGAAATCAT
GCTTCAGCCGCGAGCCAATGATGGCCACCGTGTGCGTGCAGCAACTGCTGAAGACCCTG
TTTG GTACAAACCTGGCTAGCCAGTTCGATGGCCTGTCCTCTAACCCCAGCAAATCCC
AGGGGCGAGCACAGCGGCTGGGAAGTTCAAGCGTGAGGCCTGGCCTGTACCACTATTGC
T TTATGGCCCCATACACGCATTTCACCCAGGCCCTGGCAGACGCAAGTCTCCGCAATA
TGGTGCAAGCTGAGCAGGAAAACGATACTTCAGGCTGGTTTGACGTGCTGCAGAAGG T
GAGCACCCAGCTGAAGACAAACCTGACCAGCGTGACGAAGAATCGTGCTGATAAAAACG
CAATCCACAATCATATTCGCCTTTTCGAGCCCCTGGTCATCAAGGCCCTGAAGCA GTA
TACAACTACGACCTGCGTGCAGCTGCAAAAGCAGGTGCTGGACCTGCTCGCTCAACTGG
TGCAGCTCAGGGTCAATTACTGTCTGCTGGACTCCGACCAGGTGTTCATCGG TTTCGT
GCTGAAACAGTTTGAGTATATCGAAGTGGGCCAGTTCCGGGAGTCTGAAGCCATTATAC
CTAACATCTTCTTTTTCCTGGTGCTGCTCAGCTACGAGAGATATCACTCCA AGCAGAT
CATTGGCATTCCAAAAATAATCCAGCTGTGCGACGGTATCATGGCAAGCGGTAGGAAGG
CTGTGACCCACGCAATTCCCGCCCTGCAGCCTATAGTCCATGACCTGTT CGTGCTGCG
CGGTACTAATAAGGCTGACGCAGGCAAAGAGCTGGAAACCCAGAAAGAGGTGGTGGTGA
GCATGCTTTTGCGCCTGATTCAATACCACCAGGTGCTGGAGATGT TCATCCTGGTGCT
GCAGCAATGTCATAAGGAGAACGAGGATAAGTGGAAACGGCTGTCCAGACAGATTGCCG
ACATTATCCTGCCCATGCTCGCTAAACAGCAAATGCACATCG ATTCTCATGAGGCCCT
GGGCGTGCTGAACACCCTGTTTGAAATCCTGGCTCCATCCTCTCTGCGGCCCGTCGACA
TGCTGCTCCGGAGCATGTTCGTGACCCCTAACACAATGGC ATCTGTGAGTACCGTCCA
GCTGTGGATTAGCGGCATCCTGGCCATCCTGCGGGTGCTGATCTCACAGAGCACAGAGG
ATATTGTGCTGAGCAGAATCCAGGAACTCTCCTTTTCT CCATACCTGATCAGCTGCAC
CGTGATTAATAGGCTGCGCGATGGGGACAGTACATCAACTCTGGAGGAACACAGCGAGG
GAAAGCAGATCAAGAACCTGCCCGAGGAGACATT CAGCCGGTTCCTGTTGCAGCTGGT
GGGCATCCTGCTGGAGGACATCGTCACTAAGCAGCTGAAAGTTGAGATGAGCGAACAGC
AACACACATTCTATTGTCAGGAACTGGGCAC CCTGTTGATGTGCCTGATACATATCTT
TAAGTCCGGAATGTTCCGGAGAATCACTGCAGCCGCTACGAGGCTGTTCCGGAGCGATG
GGTGCGGTGGCAGTTTCTACACTCTGGA CAGCCTGAACCTGCGAGCTCGGAGCATGAT
TACAACTCACCCCGCACTGGTCCTGCTCTGGTGTCAGATCCTGTTGCTGGTGAACCATA
CCGACTATCGATGGTGGGCAGAGGT GCAGCAAACCCCAAAGCGTCACAGCCTGAGTTC
AACAAAACTCCTTAGCCCTCAGATGTCCGGGGAGGAAGAGGATTCCGACCTGGCAGCCA
AGCTCGGGATGTGCAACAGAG AGATTGTCAGGCGCGGCGCCCTGATCCTGTTCTGTGA
TTACGTGTGCCAGAATCTGCACGACAGCGAGCATCTGACATGGCTCATAGTGAACCACA
TCCAGGACCTGATTAGCTT GTCCCATGAACCTCCAGTTCAGGACTTTATCTCCGCTGT
GCATCGGAACAGCGCCGCATCTGGACTGTTCATTCAAGCAATACAGAGCAGATGCGAGA
ACCTGTCCACGCCCACC ATGCTGAAGAAGACCCTGCAGTGCCTGGAGGGGATTCACCT
GTCTCAGAGTGGAGCCGTGCTGACCCTGTATGTCGATAGGTTGCTGTGCACCCCCTTCC
GGGTGCTGGCAAG AATGGTGGACATCCTGGCTTGTCGACGTGTGGAGATGCTCCTTGC
CGCTAATCTGCAGAGCTCCATGGCCCAACTGCCTATGGAAGAGCTGAACCGCATTCAGG
AATACCTGCA ATCTAGTGGACTGGCTCAACGACACCAGCGGCTGTATAGTCTGCTGGA
CCGGTTCAGACTGTCAACCATGCAGGACTCACTCAGCCCATCCCCACCCGTGTCAAGCC
ACCCCCT GGATGGGGACGGACACGTGAGCCTGGAGACAGTGAGCCCCGATAAGGACTG
GTACGTGCACCTGGTGAAAAGCCAGTGCTGGACACGATCTGATAGCGCCCTGCTGGAGG
GT GCAGAACTGGTGAATCGCATCCCTGCTGAGGACATGAACGCCTTCATGATGAACAG
CGAGTTCAACCTGTCCTTGCTGGCCCCATGTTTGAGCCTGGGAATGAGTGAGATTTCA
GGGGGACAGAAGAGCGCCCTGTTTGAGGCAGCCAGAGAAGTGACACTGGCTCGGGTGAG
CGGTACTGTGCAGCAACTGCCCGCAGTCCACCACGTGTTCCAGCCTGAGCTGC CAGCA
GAACCAGCTGCATACTGGTCTAAGCTGAACGACCTGTTCGGCGACGCCGCTCTGTACCA
GAGTCTGCCCACCCTGGCACGGGCCCTGGCACAGTACCTGGTGGTGGTG AGCAAGCTG
CCAAGTCACCTGCACCTGCCTCCAGAGAAGGAAAAAGATATCGTGAAATTCGTGGTCGC
CACCCTGGAGGCCCTGAGTTGGCACCTGATACATGAACAGATCCCA TTGAGCCTGGAC
CTGCAGGCAGGCCTGGACTGCTGTTGCCTGGCCCTGCAGCTGCCAGGCCTGTGGTCCGT
GGTGAGCTCTACCGAGTTTGTCACACACGCCTGTTCTCTGATC 1 of 4 10/24/20
16 6:42 PM TACTGCGTGCATTTCATTCTGGAAGCCGTCGCTGTTCAGCCTGGCGAG
CAACTCCTTTCTCCAGAACGGAGAACAAATACTCCCAAGGCCATCAGTGAAGAGGAAGA
GGAAGTG GACCCCAACACGCAGAATCCTAAATATATTACTGCAGCCTGCGAGATGGTC
GCTGAGATGGTTGAAAGCCTGCAGAGCGTGCTGGCCCTGGGTCACAAGCGGAACAGCGG
CGT GCCAGCCTTCCTGACTCCGTTGCTGCGTAATATCATTATATCACTGGCCCGGTTG
CCCCTGGTGAACAGCTACACCAGAGTGCCGCCCCTGGTCTGGAAGCTCGGTTGGAGCCC
CAAACCCGGTGGCGATTTTGGCACCGCCTTCCCCGAGATCCCTGTTGAATTTCTGCAG
GAGAAGGAAGTGTTTAAAGAGTTCATCTATCGCATTAATACCCTGGGTTGGACTAGC C
GAACGCAGTTCGAGGAAACCTGGGCCACCCTGCTTGGCGTGCTGGTCACACAGCCTCTG
GTCATGGAACAAGAGGAATCCCCTCCAGAGGAAGACACTGAACGGACGCAGAT TAACG
TGCTGGCTGTCCAAGCAATCACCTCACTGGTGCTGAGCGCCATGACAGTTCCCGTGGCA
GGCAATCCTGCCGTGAGCTGCCTGGAGCAGCAACCAAGAAACAAGCCCCT GAAGGCCC
TGGACACACGGTTCGGGAGAAAGCTGTCCATCATTCGGGGAATTGTCGAGCAAGAAATA
CAGGCCATGGTGAGCAAAAGAGAGAACATCGCAACTCACCATCTGTA CCAGGCCTGGG
ACCCTGTGCCATCACTCAGCCCAGCTACGACCGGGGCACTGATTTCTCATGAGAAGTTG
CTGCTCCAGATCAATCCTGAGAGGGAACTGGGCAGCATGTCTTA TAAACTGGGCCAGG
TGTCTATTCACAGTGTCTGGCTCGGAAACTCCATCACACCCCTGCGCGAGGAAGAGTGG
GATGAAGAGGAAGAGGAAGAGGCAGACGCACCAGCTCCAA GTTCACCACCCACTTCCC
CTGTCAATTCTAGGAAGCACCGCGCCGGCGTGGATATCCATAGTTGTTCACAGTTCCTG
CTGGAGCTGTACAGCAGATGGATTCTGCCTAGCTCCTC TGCCAGGCGCACACCAGCTA
TTCTGATATCTGAAGTGGTGCGGAGCCTGCTCGTGGTGAGCGACCTGTTTACTGAGCGA
AACCAGTTCGAACTCATGTACGTGACCCTGACCGA GTTGCGACGTGTCCACCCAAGCG
AGGATGAAATCCTGGCCCAGTACCTGGTGCCCGCCACTTGCAAGGCTGCAGCCGTGCTG
GGGATGGACAAAGCAGTTGCAGAGCCTGTGA GCCGGCTGCTGGAGTCCACCCTGAGAA
GTTCACACCTGCCATCCAGGGTGGGCGCCCTGCATGGCGTGCTGTACGTGCTGGAGTGT
GACCTGCTGGACGACACCGCTAAGCAG CTGATACCCGTGATCTCTGACTACCTGTTGA
GTAATCTGAAAGGCATAGCCCACTGCGTGAACATCCACAGCCAGCAACACGTGCTGGTC
ATGTGCGCTACAGCCTTCTACCTGA TCGAGAACTATCCACTGGACGTGGGTCCAGAGT
TCAGCGCCTCCATAATCCAGATGTGCGGCGTGATGCTGTCTGGAAGTGAAGAGTCAACT
CCAAGCATTATCTACCACTGTG CACTTAGGGGCCTGGAGCGGCTGCTCCTTAGTGAAC
AGCTGAGCCGGCTGGACGCTGAGTCACTTGTCAAGTTGAGCGTTGACAGAGTGAATGTC
CACAGCCCACATAGGGCA ATGGCCGCCCTGGGCCTGATGCTCACTTGCATGTATACGG
GGAAGGAGAAAGTGTCCCCCGGAAGGACCTCTGATCCTAACCCAGCCGCTCCTGACTCA
GAGAGCGTGATCGT GGCCATGGAACGGGTGAGCGTGCTGTTTGATCGGATCAGAAAGG
GCTTCCCATGTGAGGCCCGAGTTGTGGCTAGAATCCTGCCCCAGTTCCTGGACGACTTT
TTCCCTCCACA GGACATCATGAACAAAGTGATCGGGGAGTTCCTGTCTAACCAGCAAC
CGTACCCCCAGTTTATGGCCACCGTGGTGTACAAAGTGTTCCAGACCCTGCACAGCACA
GGACAAAG CTCCATGGTGAGGGATTGGGTCATGCTTTCCTTGTCTAACTTCACCCAGC
GCGCACCTGTCGCCATGGCTACTTGGAGTCTGTCATGCTTTTTCGTGAGCGCCTCCACC
TCTCCTT GGGTCGCAGCCATCCTGCCACATGTTATCAGCCGGATGGGGAAGCTTGAGC
AGGTGGATGTCAACCTGTTTTGTCTCGTGGCTACAGACTTCTACAGACACCAGATCGAA
GAGG AACTGGACCGGAGAGCATTCCAGTCCGTGCTGGAGGTGGTCGCTGCACCAGGAA
GCCCCTATCATCGCCTGCTGACCTGCCTGAGGAATGTCCACAAAGTGACCACCTGCTGA
GAATTCTCTAGA
|
| Cloning Information |
|
| Remarks |
DNA corresponding to the full length human sequence of the Huntingtin (Htt) gene containing 23 polyglutamine repeats. codon-optimized for mammalian expression. |
| DNA corresponding to the full length human sequence of the Huntingtin (Htt) gene containing 23 polyglutamine repeats. codon-optimized for mammalian expression. |
| Remarks |
DNA corresponding to the full length human sequence of the Huntingtin (Htt) gene containing 23 polyglutamine repeats. codon-optimized for mammalian expression. |
| PDF |
Vector Map |
|
Plasmid Collection Screening and Propagation |
| Supplement |
- |
|
|