Description:
HTT-Q23-PCDNA3.1, RDM,1-3144 (S13A/S16A),
HUMAN, CODON OPTIMIZED
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Repository
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HD Community Biorepository
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| Quantity |
20 µg |
| Quantitation Method |
Please see our FAQ |
| Certain Third Party Licensing Requirements |
Invitrogen License for Cat# V790.20 |
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Alias
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HTT-Q23-PCDNA3.1, RDM,1-3144 (S13A/S16A)
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Family History
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N
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Species
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Homo sapiens
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Common Name
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Human
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Remarks
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|
| Remarks |
DNA corresponding to the codon
optimized tag free full length human
sequence of the Huntingtin (Htt)
gene containing 23 polyglutamine
repeats translated from a random
codon and S13A/S16A mutation.
rdm: x/CAG/CAA/x |
| Construct Name |
HTT-Q23-PCDNA3.1, RDM,1-3144 (S13A/S16A) |
| Insert Length |
9435 |
| Vector |
pcDNA3.1 |
| Concentration |
20ug |
| Sequence |
ATGGCTACACTGGAGAAGCTGATGAAAGCATTCGAGGCCCTGAAAGCCTTCCAACAGCA
ACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGCAACAGC
AACCACCTCCCCCTCCACCACCTCCTCCACCACCCCAGCTGCCACAGCCACCCCCACAG
GCCCAGCCACTGCTGCCACAGCCTCAGCCACCCCCTCCCCCTCCTCCACCTCCCCCAGG
CCCTGCCGTGGCCGAGGAGCCACTGCACAGGCCAAAGAAGGAGCTGAGCGCCACCAAGA
AGGATAGAGTGAACCACTGCCTGACCATCTGCGAGAACATCGTGGCCCAGTCTGTGAGA
AACTCTCCTGAGTTTCAGAAGCTTCTGGGCATCGCCATGGAGCTGTTCCTGCTGTGCTC
CGATGATGCCGAGTCTGACGTGCGGATGGTGGCCGATGAGTGCCTGAATAAGGTAATCA
AGGCCCTGATGGACTCCAACCTGCCCCGGCTGCAGCTGGAGCTGTACAAGGAGATCAAG
AAGAACGGCGCCCCCAGGTCCCTGAGGGCCGCCCTGTGGAGGTTCGCCGAGCTGGCCCA
CCTGGTGAGACCTCAGAAGTGCAGACCTTACCTGGTGAACCTGCTGCCTTGTCTGACAC
GGACCTCCAAGCGGCCAGAGGAGTCCGTGCAGGAGACACTGGCCGCCGCCGTGCCTAAG
ATCATGGCCTCCTTCGGCAATTTCGCCAATGACAATGAGATCAAGGTGCTGCTGAAGGC
CTTCATCGCCAATCTGAAGTCTTCTAGCCCTACAATCCGGAGAACAGCCGCCGGCTCTG
CCGTGTCCATCTGCCAGCACTCCCGGAGGACCCAGTACTTCTATTCCTGGCTGCTGAAT
GTGCTGCTGGGCCTGCTGGTGCCAGTGGAGGATGAGCACTCTACCCTGCTGATCCTGGG
CGTGCTGCTGACACTGCGGTACCTGGTGCCACTGCTGCAGCAGCAGGTGAAGGACACCT
CTCTGAAGGGCTCCTTTGGCGTGACAAGAAAGGAGATGGAGGTGTCCCCCTCTGCCGAG
CAGCTGGTGCAGGTGTATGAGCTGACACTGCACCACACCCAGCACCAGGACCACAACGT
GGTGACAGGCGCCCTGGAGCTGCTGCAGCAGCTGTTCCGGACACCACCCCCTGAGCTGC
TGCAGACCCTGACAGCCGTGGGCGGCATCGGCCAGCTGACAGCCGCCAAGGAGGAGTCC
GGCGGCCGGTCCAGGTCTGGCTCCATCGTGGAGCTGATCGCCGGCGGCGGCTCCTCTTG
TAGCCCTGTGCTGTCTAGAAAGCAGAAGGGCAAGGTGCTGCTGGGCGAGGAGGAGGCCC
TGGAGGACGACTCTGAGTCCCGGTCCGACGTGAGCTCCTCTGCCCTGACAGCCTCTGTG
AAGGACGAGATCAGCGGCGAGCTGGCCGCCAGCAGCGGCGTGTCTACCCCAGGCTCCGC
CGGCCACGATATCATCACCGAGCAGCCCCGGTCCCAGCACACCCTGCAGGCCGATTCTG
TGGATCTGGCCAGCTGTGATCTGACCAGCTCCGCCACCGACGGCGACGAGGAGGACATC
CTGAGCCACTCCTCCTCCCAGGTGTCTGCCGTGCCATCCGATCCAGCCATGGATCTGAA
TGACGGCACCCAGGCCTCTTCCCCCATCAGCGATTCTTCCCAGACCACCACAGAGGGCC
CAGATTCCGCCGTGACCCCTTCCGATTCTAGCGAGATCGTGCTGGATGGCACCGACAAC
CAGTACCTGGGCCTGCAGATCGGCCAGCCACAGGATGAGGACGAGGAGGCCACCGGCAT
CCTGCCCGACGAGGCCAGCGAGGCCTTTCGGAACAGCTCCATGGCCCTGCAGCAGGCCC
ACCTGCTGAAGAATATGTCTCACTGTAGGCAGCCATCCGATAGCTCTGTGGATAAGTTC
GTGCTGAGGGATGAGGCCACCGAGCCTGGCGACCAGGAGAACAAGCCCTGTAGAATCAA
GGGCGACATCGGCCAGTCTACAGACGATGATAGCGCCCCTCTGGTGCACTGCGTGCGGC
TGCTGTCCGCCTCTTTCCTGCTGACCGGCGGCAAGAACGTGCTGGTGCCCGATCGGGAC
GTGAGAGTGTCCGTGAAGGCCCTGGCCCTGTCCTGCGTGGGCGCCGCCGTGGCCCTGCA
CCCCGAGAGCTTTTTCTCCAAGCTGTACAAGGTGCCACTGGATACAACAGAGTATCCCG
AGGAGCAGTACGTGAGCGACATCCTGAACTATATCGATCACGGCGACCCCCAGGTGCGG
GGCGCCACCGCCATCCTGTGCGGCACCCTGATCTGTTCCATCCTGTCTAGGTCCCGCTT
TCACGTGGGCGATTGGATGGGCACCATCAGAACCCTGACCGGCAATACCTTTTCTCTGG
CCGATTGTATCCCACTGCTGAGAAAGACACTGAAGGATGAGTCCTCTGTGACATGCAAG
CTGGCCTGCACCGCCGTGCGGAATTGCGTGATGTCTCTGTGCTCCTCCTCCTATTCTGA
GCTGGGCCTGCAGCTGATCATCGATGTGCTGACCCTGAGAAATTCTTCCTATTGGCTGG
TGCGGACAGAGCTGCTGGAGACACTGGCCGAGATCGATTTTCGCCTGGTGTCTTTCCTG
GAGGCCAAGGCCGAGAACCTGCACAGGGGCGCCCACCACTACACCGGCCTGCTGAAGCT
GCAGGAGAGAGTGCTGAATAACGTGGTAATCCACCTGCTGGGCGACGAGGATCCAAGAG
TGAGACACGTGGCCGCCGCCTCCCTGATCCGCCTGGTGCCTAAGCTGTTTTACAAGTGT
GACCAGGGCCAGGCCGACCCCGTGGTGGCCGTGGCCCGGGATCAGTCTAGCGTGTATCT
GAAGCTGCTGATGCACGAGACACAGCCCCCATCCCACTTTAGCGTGTCCACCATCACAA
GAATCTATCGCGGCTATAACCTGCTGCCATCCATCACAGACGTGACCATGGAGAATAAC
CTGTCTCGGGTAATCGCCGCCGTGAGCCACGAGCTGATCACCTCCACAACCAGGGCCCT
GACATTCGGCTGTTGCGAGGCCCTGTGCCTGCTGTCTACCGCCTTTCCAGTGTGCATCT
GGTCCCTGGGCTGGCACTGTGGCGTGCCTCCCCTGTCTGCCTCCGACGAGTCCAGAAAG
TCCTGTACAGTGGGCATGGCCACAATGATCCTGACACTGCTGTCCTCTGCCTGGTTTCC
CCTGGACCTGTCTGCCCACCAGGATGCCCTGATCCTGGCCGGCAATCTGCTGGCCGCCT
CTGCCCCTAAGTCTCTGAGGTCCTCCTGGGCCAGCGAGGAGGAGGCCAACCCAGCCGCC
ACCAAGCAGGAGGAGGTGTGGCCTGCCCTGGGCGACAGGGCCCTGGTGCCTATGGTGGA
GCAGCTGTTCTCTCACCTGCTGAAGGTAATCAATATCTGTGCCCACGTGCTGGATGACG
TGGCCCCTGGCCCCGCCATCAAGGCCGCCCTGCCCAGCCTGACAAATCCTCCCTCTCTG
TCTCCAATCAGACGGAAGGGCAAGGAGAAGGAGCCTGGCGAGCAGGCCTCTGTGCCTCT
GTCCCCCAAGAAGGGCAGCGAGGCCAGCGCCGCCAGCCGCCAGTCTGATACATCCGGCC
CAGTGACAACCAGCAAGTCCAGCTCCCTGGGCTCTTTTTACCACCTGCCAAGCTACCTG
AAGCTGCACGACGTGCTGAAGGCCACCCACGCCAATTACAAGGTGACCCTGGACCTGCA
GAATAGCACAGAGAAGTTCGGCGGCTTCCTGAGGTCCGCCCTGGACGTGCTGAGCCAGA
TCCTGGAGCTGGCCACACTGCAGGATATCGGCAAGTGCGTGGAGGAGATCCTGGGCTAT
CTGAAGTCCTGCTTTTCTAGAGAGCCCATGATGGCCACCGTGTGCGTGCAGCAGCTGCT
GAAGACACTGTTCGGCACAAATCTGGCCTCCCAGTTTGACGGCCTGTCCTCTAATCCAA
GCAAGTCCCAGGGCAGGGCCCAGCGGCTGGGCTCCTCCTCTGTGCGGCCCGGCCTGTAT
CACTACTGTTTTATGGCCCCATACACCCACTTCACCCAGGCCCTGGCCGATGCCTCCCT
GAGGAACATGGTGCAGGCCGAGCAGGAGAATGATACATCTGGCTGGTTTGACGTGCTGC
AGAAGGTGTCCACCCAGCTGAAGACCAATCTGACATCCGTGACAAAGAACCGGGCCGAC
AAGAATGCCATCCACAACCACATCAGACTGTTTGAGCCACTGGTAATCAAGGCCCTGAA
GCAGTATACCACCACCACCTGCGTGCAGCTGCAGAAGCAGGTGCTGGACCTGCTGGCCC
AGCTGGTGCAGCTGCGCGTGAATTACTGCCTGCTGGATAGCGATCAGGTGTTTATCGGC
TTCGTGCTGAAGCAGTTCGAGTATATCGAGGTGGGCCAGTTTCGGGAGTCTGAGGCCAT
CATCCCCAACATCTTCTTCTTCCTGGTGCTGCTGAGCTATGAGCGGTATCACAGCAAGC
AGATCATCGGCATCCCCAAGATCATCCAGCTGTGCGATGGCATCATGGCCAGCGGCAGG
AAGGCCGTGACCCACGCCATCCCTGCCCTGCAGCCCATCGTGCACGATCTGTTCGTGCT
GAGAGGCACCAATAAGGCCGATGCCGGCAAGGAGCTGGAGACCCAGAAGGAGGTGGTGG
TGTCTATGCTGCTGAGACTGATCCAGTATCACCAGGTGCTGGAGATGTTCATCCTGGTG
CTGCAGCAGTGTCACAAGGAGAACGAGGATAAGTGGAAGAGACTGTCTAGGCAGATCGC
CGATATCATCCTGCCAATGCTGGCCAAGCAGCAGATGCACATCGATTCCCACGAGGCCC
TGGGCGTGCTGAATACACTGTTCGAGATCCTGGCCCCTTCCTCCCTGAGACCCGTGGAC
ATGCTGCTGAGGAGCATGTTTGTGACACCTAATACAATGGCCTCTGTGAGCACCGTGCA
GCTGTGGATCTCCGGCATCCTGGCCATCCTGCGCGTGCTGATCTCTCAGAGCACAGAGG
ATATCGTGCTGTCCCGCATCCAGGAGCTGTCCTTCTCTCCATACCTGATCTCTTGTACA
GTGATCAACAGGCTGAGAGATGGCGACTCCACATCCACACTGGAGGAGCACAGCGAGGG
CAAGCAGATCAAGAATCTGCCCGAGGAGACATTCAGCCGCTTTCTGCTGCAGCTGGTGG
GCATCCTGCTGGAGGATATCGTGACCAAGCAGCTGAAGGTGGAGATGTCTGAGCAGCAG
CACACCTTCTACTGCCAGGAGCTGGGCACCCTGCTGATGTGCCTGATCCACATCTTTAA
GAGCGGCATGTTTAGACGGATCACCGCCGCCGCCACCAGGCTGTTCCGGAGCGACGGCT
GTGGCGGCTCCTTCTATACCCTGGACAGCCTGAATCTGCGCGCCCGGTCCATGATCACA
ACCCACCCAGCCCTGGTGCTGCTGTGGTGTCAGATCCTGCTGCTGGTGAACCACACCGA
CTACAGATGGTGGGCCGAGGTGCAGCAGACACCCAAGCGGCACTCCCTGTCCTCTACAA
AGCTGCTGAGCCCCCAGATGAGCGGCGAGGAGGAGGATTCCGATCTGGCCGCCAAGCTG
GGCATGTGCAACAGGGAGATCGTGAGAAGGGGCGCCCTGATCCTGTTTTGCGACTACGT
GTGCCAGAATCTGCACGATTCCGAGCACCTGACCTGGCTGATCGTGAATCACATCCAGG
ACCTGATCTCTCTGTCTCACGAGCCCCCAGTGCAGGATTTCATCTCTGCCGTGCACAGG
AATTCTGCCGCCTCCGGCCTGTTTATCCAGGCCATCCAGTCCAGATGCGAGAATCTGAG
CACCCCAACCATGCTGAAGAAGACCCTGCAGTGTCTGGAGGGCATCCACCTGAGCCAGA
GCGGCGCCGTGCTGACACTGTACGTGGATAGACTGCTGTGCACACCTTTCCGGGTGCTG
GCCAGAATGGTGGACATCCTGGCCTGCAGGAGAGTGGAGATGCTGCTGGCCGCCAATCT
GCAGTCCAGCATGGCCCAGCTGCCCATGGAGGAGCTGAATAGAATCCAGGAGTACCTGC
AGTCCTCTGGCCTGGCCCAGAGACACCAGCGGCTGTATAGCCTGCTGGATCGGTTCAGG
CTGTCCACAATGCAGGACTCCCTGTCCCCAAGCCCACCCGTGAGCTCCCACCCCCTGGA
CGGCGATGGCCACGTGTCTCTGGAGACCGTGAGCCCAGACAAGGATTGGTACGTGCACC
TGGTGAAGAGCCAGTGCTGGACCAGATCCGATAGCGCCCTGCTGGAGGGCGCCGAGCTG
GTGAATAGAATCCCAGCCGAGGACATGAACGCCTTTATGATGAATTCCGAGTTTAACCT
GTCTCTGCTGGCCCCATGTCTGTCTCTGGGCATGTCCGAGATCTCTGGCGGCCAGAAGT
CTGCCCTGTTTGAGGCCGCCCGCGAGGTGACCCTGGCCCGGGTGAGCGGCACAGTGCAG
CAGCTGCCAGCCGTGCACCACGTGTTTCAGCCAGAGCTGCCAGCCGAGCCCGCCGCCTA
CTGGTCCAAGCTGAATGACCTGTTCGGCGACGCCGCCCTGTACCAGTCTCTGCCAACCC
TGGCCAGAGCCCTGGCCCAGTACCTGGTGGTGGTGAGCAAGCTGCCATCCCACCTGCAC
CTGCCCCCTGAGAAGGAGAAGGACATCGTGAAGTTCGTGGTGGCCACCCTGGAGGCCCT
GTCTTGGCACCTGATCCACGAGCAGATCCCACTGTCCCTGGATCTGCAGGCCGGCCTGG
ACTGCTGCTGCCTGGCCCTGCAGCTGCCCGGCCTGTGGTCTGTGGTGTCCTCTACCGAG
TTCGTGACCCACGCCTGCAGCCTGATCTATTGCGTGCACTTCATCCTGGAGGCCGTGGC
CGTGCAGCCAGGCGAGCAGCTGCTGTCCCCAGAGAGGAGAACCAATACACCCAAGGCCA
TCTCCGAGGAGGAGGAGGAGGTGGACCCCAACACCCAGAATCCCAAGTACATCACAGCC
GCCTGTGAGATGGTGGCCGAGATGGTGGAGTCCCTGCAGTCTGTGCTGGCCCTGGGCCA
CAAGAGGAATAGCGGCGTGCCTGCCTTTCTGACCCCACTGCTGCGGAACATCATCATCT
CCCTGGCCAGGCTGCCTCTGGTGAACAGCTACACCAGAGTGCCACCCCTGGTGTGGAAG
CTGGGCTGGTCTCCCAAGCCAGGCGGCGATTTCGGCACCGCCTTCCCCGAGATCCCTGT
GGAGTTTCTGCAGGAGAAGGAGGTGTTCAAGGAGTTTATCTATAGGATCAATACCCTGG
GCTGGACAAGCAGAACCCAGTTCGAGGAGACCTGGGCCACACTGCTGGGCGTGCTGGTG
ACCCAGCCACTGGTAATGGAGCAGGAGGAGTCCCCACCTGAGGAGGATACAGAGAGAAC
CCAGATCAACGTGCTGGCCGTGCAGGCCATCACCTCCCTGGTGCTGTCTGCCATGACCG
TGCCAGTGGCCGGCAACCCAGCCGTGAGCTGTCTGGAGCAGCAGCCCAGAAACAAGCCA
CTGAAGGCCCTGGATACAAGATTCGGCAGAAAGCTGAGCATCATCAGAGGCATCGTGGA
GCAGGAGATCCAGGCCATGGTGTCTAAGAGGGAGAACATCGCCACCCACCACCTGTATC
AGGCCTGGGATCCTGTGCCCTCTCTGTCCCCTGCCACCACCGGCGCCCTGATCTCCCAC
GAGAAGCTGCTGCTGCAGATCAACCCTGAGAGAGAGCTGGGCTCTATGAGCTATAAGCT
GGGCCAGGTGTCTATCCACAGCGTGTGGCTGGGCAATTCTATCACCCCACTGCGGGAGG
AGGAGTGGGATGAGGAGGAGGAGGAGGAGGCCGATGCCCCAGCCCCATCCAGCCCACCC
ACCTCCCCCGTGAATTCCCGGAAGCACAGAGCCGGCGTGGATATCCACAGCTGTTCCCA
GTTTCTGCTGGAGCTGTATAGCCGGTGGATCCTGCCTTCTTCCTCTGCCAGACGCACAC
CTGCCATCCTGATCAGCGAGGTGGTGCGGAGCCTGCTGGTGGTGTCCGATCTGTTCACC
GAGAGGAATCAGTTCGAGCTGATGTATGTGACACTGACCGAGCTGCGCAGGGTGCACCC
ATCTGAGGACGAGATCCTGGCCCAGTATCTGGTGCCCGCCACCTGTAAGGCCGCCGCCG
TGCTGGGCATGGATAAGGCCGTGGCCGAGCCAGTGTCTCGGCTGCTGGAGAGCACACTG
AGATCCAGCCACCTGCCCTCTAGAGTGGGCGCCCTGCACGGCGTGCTGTACGTGCTGGA
GTGCGATCTGCTGGATGACACCGCCAAGCAGCTGATCCCCGTGATCTCTGATTACCTGC
TGTCCAATCTGAAGGGCATCGCCCACTGTGTGAACATCCACTCTCAGCAGCACGTGCTG
GTAATGTGCGCCACAGCCTTTTACCTGATCGAGAATTATCCTCTGGATGTGGGCCCAGA
GTTCTCCGCCTCTATCATCCAGATGTGCGGCGTGATGCTGAGCGGCTCCGAGGAGTCTA
CACCATCCATCATCTATCACTGCGCCCTGAGAGGCCTGGAGAGACTGCTGCTGTCTGAG
CAGCTGTCTAGACTGGACGCCGAGTCCCTGGTGAAGCTGTCCGTGGATAGAGTGAACGT
GCACTCCCCACACCGGGCCATGGCCGCCCTGGGCCTGATGCTGACCTGTATGTACACCG
GCAAGGAGAAGGTGAGCCCCGGCAGAACAAGCGACCCAAATCCCGCCGCCCCAGATTCC
GAGAGCGTGATCGTGGCCATGGAGCGCGTGTCCGTGCTGTTCGACAGGATCAGAAAGGG
CTTCCCATGCGAGGCCCGGGTGGTGGCCAGAATCCTGCCTCAGTTTCTGGACGACTTCT
TTCCTCCTCAGGACATCATGAACAAGGTAATCGGCGAGTTTCTGTCCAATCAGCAGCCC
TACCCCCAGTTTATGGCCACAGTGGTGTACAAGGTGTTTCAGACCCTGCACTCCACAGG
CCAGAGCTCCATGGTGCGGGATTGGGTAATGCTGAGCCTGTCTAATTTCACCCAGCGGG
CCCCTGTGGCCATGGCCACATGGTCTCTGAGCTGCTTCTTCGTGTCCGCCTCTACAAGC
CCATGGGTGGCCGCCATCCTGCCACACGTGATCTCCCGGATGGGCAAGCTGGAGCAGGT
GGACGTGAATCTGTTCTGTCTGGTGGCCACCGATTTCTACAGGCACCAGATCGAGGAGG
AGCTGGACCGCAGGGCCTTTCAGTCTGTGCTCGAGGTGGTGGCCGCCCCAGGCAGCCCC
TATCACCGCCTGCTGACATGCCTGCGGAATGTGCACAAGGTGACCACCTGTTGA
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| Cloning Information |
DNA corresponding to the codon optimized tag free full length human sequence of the Huntingtin (Htt) gene containing 23 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 23 polyglutamine
repeats translated from a random
codon and S13A/S16A mutation.
rdm: x/CAG/CAA/x |
| DNA corresponding to the codon
optimized tag free full length human
sequence of the Huntingtin (Htt)
gene containing 23 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 23 polyglutamine
repeats translated from a random
codon and S13A/S16A mutation.
rdm: x/CAG/CAA/x |
| PDF |
Vector Map |
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Plasmid Collection Screening and Propagation |
| Supplement |
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