Plasmid
pEBG6P ZNF33a
Parent Plasmid
pEBG6P
Expressed
GST ZNF33A
Tag
GST
Species
Human
Sequence of Insert
View Sequence
GGATCCATGAACAAGGTAGAACAGAAGTCCCAGGAGTCAGTATCATTTAAAGATGTGACTGTGGGCTTCACCCAGGAGGAGTGGCAGCACCTGGACCCTA
GTCAGAGGGCTCTGTATAGAGATGTGATGCTGGAGAACTACAGCAACCTTGTCTCAGTGGGGTATTGTGTTCACAAACCAGAGGTGATCTTCAGGCTGCA
ACAAGGAGAAGAGCCATGGAAACAGGAGGAAGAATTCCCAAGCCAAAGCTTTCCAGAAGTCTGGACAGCTGATCACCTGAAAGAGAGGAGCCAAGAAAAC
CAATCTAAACATTTGTGGGAAGTTGTATTCATCAATAATGAAATGCTGACTAAGGAACAAGGTGATGTAATAGGAATACCATTTAATGTGGATGTAAGTT
CTTTTCCTTCCAGAAAAATGTTCTGTCAGTGTGATTCATGTGGAATGAGTTTCAACACTGTTTCAGAATTGGTTATCAGTAAGATAAACTATTTAGGAAA
AAAGTCTGATGAATTTAATGCCTGTGGGAAATTGTTACTCAATATTAAGCATGATGAAACTCATACTCAAGAGAAAAATGAAGTTTTGAAAAATAGGAAC
ACACTGAGTCATCATGAGGAGACTTTGCAGCATGAGAAGATTCAAACTTTAGAGCACAATTTTGAATACAGTATATGTCAGGAAACCCTCCTTGAAAAGG
CAGTATTCAATACACAGAAGAGAGAGAACGCAGAAGAGAATAACTGTGATTATAATGAATTTGGGAGAACTTTGTGTGATAGTTCATCCCTCTTGTTCCA
TCAGATATCTCCGTCAAGGGACAATCACTATGAATTTAGTGATTGTGAGAAGTTCTTATGTGTGAAGTCCACCCTTTCTAAACCTCATGGGGTATCTATG
AAACACTATGATTGTGGTGAAAGTGGGAATAATTTCAGGAGGAAATTGTGTCTGTCACACCTTCAGAAAGGTGATAAAGGAGAGAAACACTTTGAATGTA
ATGAATGTGGGAAAGCTTTCTGGGAGAAGTCACATCTCACTCGACATCAGAGGGTGCACACAGGACAGAAACCCTTTCAATGTAATGAATGTGAAAAAGC
TTTCTGGGATAAGTCAAACCTCACTAAACATCAAAGATCACACACAGGGGAGAAACCTTTTGAATGCAATGAATGTGGGAAAGCCTTTAGCCATAAGTCA
GCCCTCACATTACACCAGAGAACACATACAGGGGAGAAACCCTATCAATGTAATGCGTGTGGGAAAACTTTTTGCCAGAAATCTGACCTCACTAAACATC
AGAGAACACACACAGGGCTGAAACCCTATGAATGTTATGAATGTGGAAAATCCTTCCGTGTGACTTCGCACCTTAAAGTACACCAGAGAACTCACACAGG
TGAGAAACCTTTTGAATGTCTTGAGTGTGGGAAATCCTTTAGTGAAAAGTCAAATCTTACGCAGCATCAGAGAATTCACATAGGAGATAAATCTTATGAA
TGTAATGCATGTGGGAAAACTTTCTACCACAAGTCATTACTCACCAGGCATCAGATAATTCATACAGGGTGGAAACCTTATGAATGTTATGAATGTGGGA
AAACCTTCTGCTTGAAGTCAGACCTCACAGTACATCAGAGAACACACACAGGGCAGAAACCCTTTGCATGTCCCGAATGTGGGAAATTCTTTAGCCATAA
GTCAACCCTCTCTCAACATTATAGAACACACACAGGGGAGAAACCCTACGAATGTCATGAATGTGGAAAAATCTTTTACAATAAATCATACCTAACTAAA
CATAATAGAACACATACAGGGGAGAAACCCTATGAATGTAATGAATGTGGAAAAGCCTTCTACCAGAAGTCACAACTCACTCAGCATCAGAGAATTCACA
TAGGGGAGAAACCCTATAAATGTAATGAGTGTGGAAAAGCTTTCTGCCATAAGTCAGCTCTAATTGTACATCAGAGAACCCATACACAAGAAAAGCCCTA
TAAATGTAATGAATGTGGAAAATCTTTCTGTGTAAAATCAGGACTTATTTTCCATGAGAGAAAGCACACGGGGGAGAAACCCTATGAATGCAATGAATGT
GGGAAATTCTTCAGGCACAAATCATCACTCACAGTACATCACAGGGCTCACACAGGAGAGAAATCTTGTCAATGTAATGAATGTGGAAAAATCTTTTACC
GTAAATCGGAACTTGCTCAACATCAGAGATCACATACAGGGGAAAAGCCCTATGAATGTAACACATGCAGGAAAACTTTCTCTCAAAAGTCAAATCTCAT
TGTACATCAGAGAAGACATATAGGAGAAAACCTTATGAATGAAATGGATATTAGAAATTTCCAGCCACAAGTCAGCCTCCATAATGCCTCAGAGTATTCA
CACTGTGGAGAAAGCCCTGATGACATCCTGAATGTTCAGTAAGCGGCCGC
GTCAGAGGGCTCTGTATAGAGATGTGATGCTGGAGAACTACAGCAACCTTGTCTCAGTGGGGTATTGTGTTCACAAACCAGAGGTGATCTTCAGGCTGCA
ACAAGGAGAAGAGCCATGGAAACAGGAGGAAGAATTCCCAAGCCAAAGCTTTCCAGAAGTCTGGACAGCTGATCACCTGAAAGAGAGGAGCCAAGAAAAC
CAATCTAAACATTTGTGGGAAGTTGTATTCATCAATAATGAAATGCTGACTAAGGAACAAGGTGATGTAATAGGAATACCATTTAATGTGGATGTAAGTT
CTTTTCCTTCCAGAAAAATGTTCTGTCAGTGTGATTCATGTGGAATGAGTTTCAACACTGTTTCAGAATTGGTTATCAGTAAGATAAACTATTTAGGAAA
AAAGTCTGATGAATTTAATGCCTGTGGGAAATTGTTACTCAATATTAAGCATGATGAAACTCATACTCAAGAGAAAAATGAAGTTTTGAAAAATAGGAAC
ACACTGAGTCATCATGAGGAGACTTTGCAGCATGAGAAGATTCAAACTTTAGAGCACAATTTTGAATACAGTATATGTCAGGAAACCCTCCTTGAAAAGG
CAGTATTCAATACACAGAAGAGAGAGAACGCAGAAGAGAATAACTGTGATTATAATGAATTTGGGAGAACTTTGTGTGATAGTTCATCCCTCTTGTTCCA
TCAGATATCTCCGTCAAGGGACAATCACTATGAATTTAGTGATTGTGAGAAGTTCTTATGTGTGAAGTCCACCCTTTCTAAACCTCATGGGGTATCTATG
AAACACTATGATTGTGGTGAAAGTGGGAATAATTTCAGGAGGAAATTGTGTCTGTCACACCTTCAGAAAGGTGATAAAGGAGAGAAACACTTTGAATGTA
ATGAATGTGGGAAAGCTTTCTGGGAGAAGTCACATCTCACTCGACATCAGAGGGTGCACACAGGACAGAAACCCTTTCAATGTAATGAATGTGAAAAAGC
TTTCTGGGATAAGTCAAACCTCACTAAACATCAAAGATCACACACAGGGGAGAAACCTTTTGAATGCAATGAATGTGGGAAAGCCTTTAGCCATAAGTCA
GCCCTCACATTACACCAGAGAACACATACAGGGGAGAAACCCTATCAATGTAATGCGTGTGGGAAAACTTTTTGCCAGAAATCTGACCTCACTAAACATC
AGAGAACACACACAGGGCTGAAACCCTATGAATGTTATGAATGTGGAAAATCCTTCCGTGTGACTTCGCACCTTAAAGTACACCAGAGAACTCACACAGG
TGAGAAACCTTTTGAATGTCTTGAGTGTGGGAAATCCTTTAGTGAAAAGTCAAATCTTACGCAGCATCAGAGAATTCACATAGGAGATAAATCTTATGAA
TGTAATGCATGTGGGAAAACTTTCTACCACAAGTCATTACTCACCAGGCATCAGATAATTCATACAGGGTGGAAACCTTATGAATGTTATGAATGTGGGA
AAACCTTCTGCTTGAAGTCAGACCTCACAGTACATCAGAGAACACACACAGGGCAGAAACCCTTTGCATGTCCCGAATGTGGGAAATTCTTTAGCCATAA
GTCAACCCTCTCTCAACATTATAGAACACACACAGGGGAGAAACCCTACGAATGTCATGAATGTGGAAAAATCTTTTACAATAAATCATACCTAACTAAA
CATAATAGAACACATACAGGGGAGAAACCCTATGAATGTAATGAATGTGGAAAAGCCTTCTACCAGAAGTCACAACTCACTCAGCATCAGAGAATTCACA
TAGGGGAGAAACCCTATAAATGTAATGAGTGTGGAAAAGCTTTCTGCCATAAGTCAGCTCTAATTGTACATCAGAGAACCCATACACAAGAAAAGCCCTA
TAAATGTAATGAATGTGGAAAATCTTTCTGTGTAAAATCAGGACTTATTTTCCATGAGAGAAAGCACACGGGGGAGAAACCCTATGAATGCAATGAATGT
GGGAAATTCTTCAGGCACAAATCATCACTCACAGTACATCACAGGGCTCACACAGGAGAGAAATCTTGTCAATGTAATGAATGTGGAAAAATCTTTTACC
GTAAATCGGAACTTGCTCAACATCAGAGATCACATACAGGGGAAAAGCCCTATGAATGTAACACATGCAGGAAAACTTTCTCTCAAAAGTCAAATCTCAT
TGTACATCAGAGAAGACATATAGGAGAAAACCTTATGAATGAAATGGATATTAGAAATTTCCAGCCACAAGTCAGCCTCCATAATGCCTCAGAGTATTCA
CACTGTGGAGAAAGCCCTGATGACATCCTGAATGTTCAGTAAGCGGCCGC
Amino Acid Sequence
View Sequence
MAPILGYWKIKGLVQPTRLLLEYLEEKYEEHLYERDEGDKWRNKKFELGLEFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVL
DIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTHPDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIA
WPLQGWQATFGGGDHPPKSDLVPRGSLEVLFQGPLGSMNKVEQKSQESVSFKDVTVGFTQEEWQHLDPSQRALYRDVMLENYSNLVSVGYCVHKPEVIFR
LQQGEEPWKQEEEFPSQSFPEVWTADHLKERSQENQSKHLWEVVFINNEMLTKEQGDVIGIPFNVDVSSFPSRKMFCQCDSCGMSFNTVSELVISKINYL
GKKSDEFNACGKLLLNIKHDETHTQEKNEVLKNRNTLSHHEETLQHEKIQTLEHNFEYSICQETLLEKAVFNTQKRENAEENNCDYNEFGRTLCDSSSLL
FHQISPSRDNHYEFSDCEKFLCVKSTLSKPHGVSMKHYDCGESGNNFRRKLCLSHLQKGDKGEKHFECNECGKAFWEKSHLTRHQRVHTGQKPFQCNECE
KAFWDKSNLTKHQRSHTGEKPFECNECGKAFSHKSALTLHQRTHTGEKPYQCNACGKTFCQKSDLTKHQRTHTGLKPYECYECGKSFRVTSHLKVHQRTH
TGEKPFECLECGKSFSEKSNLTQHQRIHIGDKSYECNACGKTFYHKSLLTRHQIIHTGWKPYECYECGKTFCLKSDLTVHQRTHTGQKPFACPECGKFFS
HKSTLSQHYRTHTGEKPYECHECGKIFYNKSYLTKHNRTHTGEKPYECNECGKAFYQKSQLTQHQRIHIGEKPYKCNECGKAFCHKSALIVHQRTHTQEK
PYKCNECGKSFCVKSGLIFHERKHTGEKPYECNECGKFFRHKSSLTVHHRAHTGEKSCQCNECGKIFYRKSELAQHQRSHTGEKPYECNTCRKTFSQKSN
LIVHQRRHIGENLMNEMDIRNFQPQVSLHNASEYSHCGESPDDILNVQ*
DIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTHPDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIA
WPLQGWQATFGGGDHPPKSDLVPRGSLEVLFQGPLGSMNKVEQKSQESVSFKDVTVGFTQEEWQHLDPSQRALYRDVMLENYSNLVSVGYCVHKPEVIFR
LQQGEEPWKQEEEFPSQSFPEVWTADHLKERSQENQSKHLWEVVFINNEMLTKEQGDVIGIPFNVDVSSFPSRKMFCQCDSCGMSFNTVSELVISKINYL
GKKSDEFNACGKLLLNIKHDETHTQEKNEVLKNRNTLSHHEETLQHEKIQTLEHNFEYSICQETLLEKAVFNTQKRENAEENNCDYNEFGRTLCDSSSLL
FHQISPSRDNHYEFSDCEKFLCVKSTLSKPHGVSMKHYDCGESGNNFRRKLCLSHLQKGDKGEKHFECNECGKAFWEKSHLTRHQRVHTGQKPFQCNECE
KAFWDKSNLTKHQRSHTGEKPFECNECGKAFSHKSALTLHQRTHTGEKPYQCNACGKTFCQKSDLTKHQRTHTGLKPYECYECGKSFRVTSHLKVHQRTH
TGEKPFECLECGKSFSEKSNLTQHQRIHIGDKSYECNACGKTFYHKSLLTRHQIIHTGWKPYECYECGKTFCLKSDLTVHQRTHTGQKPFACPECGKFFS
HKSTLSQHYRTHTGEKPYECHECGKIFYNKSYLTKHNRTHTGEKPYECNECGKAFYQKSQLTQHQRIHIGEKPYKCNECGKAFCHKSALIVHQRTHTQEK
PYKCNECGKSFCVKSGLIFHERKHTGEKPYECNECGKFFRHKSSLTVHHRAHTGEKSCQCNECGKIFYRKSELAQHQRSHTGEKPYECNTCRKTFSQKSN
LIVHQRRHIGENLMNEMDIRNFQPQVSLHNASEYSHCGESPDDILNVQ*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU56238
Unit Source
Location
PPU
MTA
Low Temp
No
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.