Plasmid
pGEX6P-CDKL5
Parent Plasmid
pGEX6P3
Expressed
GST-CDKL5
Genbank
NM_003159.2 GI:83367066*
Tag
GST
Species
Human
Sequence of Insert
View Sequence
GGATCCATGAAGATTCCTAACATTGGTAATGTGATGAATAAATTTGAGAT
CCTTGGGGTTGTAGGTGAAGGAGCCTATGGAGTTGTACTTAAATGCAGAC
ACAAGGAAACACATGAAATTGTGGCGATCAAGAAATTCAAGGACAGTGAA
GAAAATGAAGAAGTCAAAGAAACGACTTTACGAGAGCTTAAAATGCTTCG
GACTCTCAAGCAGGAAAACATTGTGGAGTTGAAGGAAGCATTTCGTCGGA
GGGGAAAGTTGTACTTGGTGTTTGAGTATGTTGAAAAAAATATGCTCGAA
TTGCTGGAAGAAATGCCAAATGGAGTTCCACCTGAGAAAGTAAAAAGCTA
CATCTATCAGCTAATCAAGGCTATTCACTGGTGCCATAAGAATGATATTG
TCCATCGAGATATAAAACCAGAAAATCTCTTAATCAGCCACAATGATGTC
CTAAAACTGTGTGACTTTGGTTTTGCTCGTAATCTGTCAGAAGGCAATAA
TGCTAATTACACAGAGTACGTTGCCACCAGATGGTATCGGTCCCCAGAAC
TCTTACTTGGCGCTCCCTATGGAAAGTCCGTGGACATGTGGTCGGTGGGC
TGTATTCTTGGGGAGCTTAGCGATGGACAGCCTTTATTTCCTGGAGAAAG
TGAAATTGACCAACTTTTTACTATTCAGAAGGTGCTAGGACCACTTCCAT
CTGAGCAGATGAAGCTTTTCTACAGTAATCCTCGCTTCCATGGGCTCCGG
TTTCCAGCTGTTAACCATCCTCAGTCCTTGGAAAGAAGATACCTTGGAAT
TTTGAATAGTGTTCTACTTGACCTAATGAAGAATTTACTGAAGTTGGACC
CAGCTGACAGATACTTGACAGAACAGTGTTTGAATCACCCTACATTTCAA
ACCCAGAGACTTCTGGATCGTTCTCCTTCAAGGTCAGCAAAAAGAAAACC
TTACCATGTGGAAAGCAGCACATTGTCTAATAGAAACCAAGCCGGCAAAA
GCACTGCTTTGCAGTCTCACCACAGATCTAACAGCAAGGACATCCAGAAC
CTGAGTGTAGGCCTGCCCCGGGCTGACGAAGGTCTCCCTGCCAATGAAAG
CTTCCTAAATGGAAACCTTGCTGGAGCTAGTCTTAGTCCACTGCACACCA
AAACCTACCAAGCAAGCAGCCAGCCTGGGTCTACCAGCAAAGATCTCACC
AACAACAACATACCACACCTTCTTAGCCCAAAAGAAGCCAAGTCAAAAAC
AGAGTTTGATTTTAATATTGACCCAAAGCCTTCAGAAGGCCCAGGGACAA
AGTACCTCAAGTCAAACAGCAGATCTCAGCAGAACCGCCACTCATTCATG
GAAAGCTCTCAAAGCAAAGCTGGGACACTGCAGCCCAATGAAAAGCAGAG
TCGGCATAGCTATATTGACACAATTCCCCAGTCCTCTAGGAGTCCCTCCT
ACAGGACCAAGGCCAAAAGCCATGGGGCACTGAGTGACTCCAAGTCTGTG
AGCAACCTTTCTGAAGCCAGGGCCCAAATTGCGGAGCCCAGTACCAGTAG
GTACTTCCCATCTAGCTGCTTAGACTTGAATTCTCCCACCAGCCCAACCC
CCACCAGACACAGTGACACGAGAACTTTGCTCAGCCCTTCTGGAAGAAAT
AACCGAAATGAGGGAACGCTGGACTCACGTCGAACCACAACCAGACATTC
TAAGACGATGGAGGAATTGAAGCTGCCGGAGCACATGGACAGTAGCCATT
CCCATTCACTGTCTGCACCTCACGAATCTTTTTCTTATGGACTGGGCTAC
ACCAGCCCCTTTTCTTCCCAGCAACGTCCTCATAGGCATTCTATGTATGT
GACCCGTGACAAAGTGAGAGCCAAGGGCTTGGATGGAAGCTTGAGCATAG
GGCAAGGGATGGCAGCTAGAGCCAACAGCCTGCAACTCTTGTCACCCCAG
CCTGGAGAACAGCTCCCTCCAGAGATGACTGTGGCAAGATCTTCGGTCAA
AGAGACCTCCAGAGAAGGCACCTCTTCCTTCCATACACGCCAGAAGTCTG
AGGGTGGAGTGTATCATGACCCACACTCTGATGATGGCACAGCCCCCAAA
GAAAATAGACACCTATACAATGACCCTGTGCCAAGGAGAGTTGGTAGCTT
TTACAGAGTGCCATCTCCACGTCCAGACAATTCTTTCCATGAAAATAATG
TGTCAACTAGAGTTTCTTCTCTACCATCAGAGAGCAGTTCTGGAACCAAC
CACTCAAAAAGACAACCAGCATTCGATCCATGGAAAAGTCCTGAAAATAT
TAGTCATTCAGAGCAACTCAAGGAAAAAGAGAAGCAAGGATTTTTCAGGT
CAATGAAAAAGAAAAAGAAGAAATCTCAAACAGTACCCAATTCCGACAGC
CCTGATCTTCTGACGTTGCAGAAATCCATTCATTCTGCTAGCACTCCAAG
CAGCAGACCAAAGGAGTGGCGCCCCGAGAAGATCTCAGATCTGCAGACCC
AAAGCCAGCCATTAAAATCACTGCGCAAGTTGTTACATCTCTCTTCGGCC
TCAAATCACCCGGCTTCCTCAGATCCCCGCTTCCAGCCCTTAACAGCTCA
ACAAACCAAAAATTCCTTCTCAGAAATTCGGATTCACCCCCTGAGCCAGG
CCTCTGGCGGGAGCAGCAACATCCGGCAGGAACCCGCACCGAAGGGCAGG
CCAGCCCTCCAGCTGCCAGACGGTGGATGTGATGGCAGAAGACAGAGACA
CCATTCTGGACCCCAAGATAGACGCTTCATGTTAAGGACGACAGAACAAC
AAGGAGAATACTTCTGCTGTGGTGACCCAAAGAAGCCTCACACTCCGTGC
GTCCCAAACCGAGCCCTTCATCGTCCAATCTCCAGTCCTGCTCCCTATCC
AGTACTCCAGGTCCGAGGCACTTCCATGTGCCCGACACTCCAGGTCCGAG
GCACTGATGCTTTCAGCTGCCCAACCCAGCAATCCGGGTTCTCTTTCTTC
GTGAGACACGTTATGAGGGAAGCCCTGATTCACAGGGCCCAGGTAAACCA
AGCTGCGCTCCTGACATACCATGAGAATGCGGCACTGACGGGCAAGTGAG
CGGCCGC
CCTTGGGGTTGTAGGTGAAGGAGCCTATGGAGTTGTACTTAAATGCAGAC
ACAAGGAAACACATGAAATTGTGGCGATCAAGAAATTCAAGGACAGTGAA
GAAAATGAAGAAGTCAAAGAAACGACTTTACGAGAGCTTAAAATGCTTCG
GACTCTCAAGCAGGAAAACATTGTGGAGTTGAAGGAAGCATTTCGTCGGA
GGGGAAAGTTGTACTTGGTGTTTGAGTATGTTGAAAAAAATATGCTCGAA
TTGCTGGAAGAAATGCCAAATGGAGTTCCACCTGAGAAAGTAAAAAGCTA
CATCTATCAGCTAATCAAGGCTATTCACTGGTGCCATAAGAATGATATTG
TCCATCGAGATATAAAACCAGAAAATCTCTTAATCAGCCACAATGATGTC
CTAAAACTGTGTGACTTTGGTTTTGCTCGTAATCTGTCAGAAGGCAATAA
TGCTAATTACACAGAGTACGTTGCCACCAGATGGTATCGGTCCCCAGAAC
TCTTACTTGGCGCTCCCTATGGAAAGTCCGTGGACATGTGGTCGGTGGGC
TGTATTCTTGGGGAGCTTAGCGATGGACAGCCTTTATTTCCTGGAGAAAG
TGAAATTGACCAACTTTTTACTATTCAGAAGGTGCTAGGACCACTTCCAT
CTGAGCAGATGAAGCTTTTCTACAGTAATCCTCGCTTCCATGGGCTCCGG
TTTCCAGCTGTTAACCATCCTCAGTCCTTGGAAAGAAGATACCTTGGAAT
TTTGAATAGTGTTCTACTTGACCTAATGAAGAATTTACTGAAGTTGGACC
CAGCTGACAGATACTTGACAGAACAGTGTTTGAATCACCCTACATTTCAA
ACCCAGAGACTTCTGGATCGTTCTCCTTCAAGGTCAGCAAAAAGAAAACC
TTACCATGTGGAAAGCAGCACATTGTCTAATAGAAACCAAGCCGGCAAAA
GCACTGCTTTGCAGTCTCACCACAGATCTAACAGCAAGGACATCCAGAAC
CTGAGTGTAGGCCTGCCCCGGGCTGACGAAGGTCTCCCTGCCAATGAAAG
CTTCCTAAATGGAAACCTTGCTGGAGCTAGTCTTAGTCCACTGCACACCA
AAACCTACCAAGCAAGCAGCCAGCCTGGGTCTACCAGCAAAGATCTCACC
AACAACAACATACCACACCTTCTTAGCCCAAAAGAAGCCAAGTCAAAAAC
AGAGTTTGATTTTAATATTGACCCAAAGCCTTCAGAAGGCCCAGGGACAA
AGTACCTCAAGTCAAACAGCAGATCTCAGCAGAACCGCCACTCATTCATG
GAAAGCTCTCAAAGCAAAGCTGGGACACTGCAGCCCAATGAAAAGCAGAG
TCGGCATAGCTATATTGACACAATTCCCCAGTCCTCTAGGAGTCCCTCCT
ACAGGACCAAGGCCAAAAGCCATGGGGCACTGAGTGACTCCAAGTCTGTG
AGCAACCTTTCTGAAGCCAGGGCCCAAATTGCGGAGCCCAGTACCAGTAG
GTACTTCCCATCTAGCTGCTTAGACTTGAATTCTCCCACCAGCCCAACCC
CCACCAGACACAGTGACACGAGAACTTTGCTCAGCCCTTCTGGAAGAAAT
AACCGAAATGAGGGAACGCTGGACTCACGTCGAACCACAACCAGACATTC
TAAGACGATGGAGGAATTGAAGCTGCCGGAGCACATGGACAGTAGCCATT
CCCATTCACTGTCTGCACCTCACGAATCTTTTTCTTATGGACTGGGCTAC
ACCAGCCCCTTTTCTTCCCAGCAACGTCCTCATAGGCATTCTATGTATGT
GACCCGTGACAAAGTGAGAGCCAAGGGCTTGGATGGAAGCTTGAGCATAG
GGCAAGGGATGGCAGCTAGAGCCAACAGCCTGCAACTCTTGTCACCCCAG
CCTGGAGAACAGCTCCCTCCAGAGATGACTGTGGCAAGATCTTCGGTCAA
AGAGACCTCCAGAGAAGGCACCTCTTCCTTCCATACACGCCAGAAGTCTG
AGGGTGGAGTGTATCATGACCCACACTCTGATGATGGCACAGCCCCCAAA
GAAAATAGACACCTATACAATGACCCTGTGCCAAGGAGAGTTGGTAGCTT
TTACAGAGTGCCATCTCCACGTCCAGACAATTCTTTCCATGAAAATAATG
TGTCAACTAGAGTTTCTTCTCTACCATCAGAGAGCAGTTCTGGAACCAAC
CACTCAAAAAGACAACCAGCATTCGATCCATGGAAAAGTCCTGAAAATAT
TAGTCATTCAGAGCAACTCAAGGAAAAAGAGAAGCAAGGATTTTTCAGGT
CAATGAAAAAGAAAAAGAAGAAATCTCAAACAGTACCCAATTCCGACAGC
CCTGATCTTCTGACGTTGCAGAAATCCATTCATTCTGCTAGCACTCCAAG
CAGCAGACCAAAGGAGTGGCGCCCCGAGAAGATCTCAGATCTGCAGACCC
AAAGCCAGCCATTAAAATCACTGCGCAAGTTGTTACATCTCTCTTCGGCC
TCAAATCACCCGGCTTCCTCAGATCCCCGCTTCCAGCCCTTAACAGCTCA
ACAAACCAAAAATTCCTTCTCAGAAATTCGGATTCACCCCCTGAGCCAGG
CCTCTGGCGGGAGCAGCAACATCCGGCAGGAACCCGCACCGAAGGGCAGG
CCAGCCCTCCAGCTGCCAGACGGTGGATGTGATGGCAGAAGACAGAGACA
CCATTCTGGACCCCAAGATAGACGCTTCATGTTAAGGACGACAGAACAAC
AAGGAGAATACTTCTGCTGTGGTGACCCAAAGAAGCCTCACACTCCGTGC
GTCCCAAACCGAGCCCTTCATCGTCCAATCTCCAGTCCTGCTCCCTATCC
AGTACTCCAGGTCCGAGGCACTTCCATGTGCCCGACACTCCAGGTCCGAG
GCACTGATGCTTTCAGCTGCCCAACCCAGCAATCCGGGTTCTCTTTCTTC
GTGAGACACGTTATGAGGGAAGCCCTGATTCACAGGGCCCAGGTAAACCA
AGCTGCGCTCCTGACATACCATGAGAATGCGGCACTGACGGGCAAGTGAG
CGGCCGC
Amino Acid Sequence
View Sequence
MSPILGYWKIKGLVQPTRLLLEYLEEKYEEHLYERDEGDKWRNKKFELGL
EFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVL
DIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTH
PDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIA
WPLQGWQATFGGGDHPPKSDLEVLFQGPLGSMKIPNIGNVMNKFEILGVV
GEGAYGVVLKCRHKETHEIVAIKKFKDSEENEEVKETTLRELKMLRTLKQ
ENIVELKEAFRRRGKLYLVFEYVEKNMLELLEEMPNGVPPEKVKSYIYQL
IKAIHWCHKNDIVHRDIKPENLLISHNDVLKLCDFGFARNLSEGNNANYT
EYVATRWYRSPELLLGAPYGKSVDMWSVGCILGELSDGQPLFPGESEIDQ
LFTIQKVLGPLPSEQMKLFYSNPRFHGLRFPAVNHPQSLERRYLGILNSV
LLDLMKNLLKLDPADRYLTEQCLNHPTFQTQRLLDRSPSRSAKRKPYHVE
SSTLSNRNQAGKSTALQSHHRSNSKDIQNLSVGLPRADEGLPANESFLNG
NLAGASLSPLHTKTYQASSQPGSTSKDLTNNNIPHLLSPKEAKSKTEFDF
NIDPKPSEGPGTKYLKSNSRSQQNRHSFMESSQSKAGTLQPNEKQSRHSY
IDTIPQSSRSPSYRTKAKSHGALSDSKSVSNLSEARAQIAEPSTSRYFPS
SCLDLNSPTSPTPTRHSDTRTLLSPSGRNNRNEGTLDSRRTTTRHSKTME
ELKLPEHMDSSHSHSLSAPHESFSYGLGYTSPFSSQQRPHRHSMYVTRDK
VRAKGLDGSLSIGQGMAARANSLQLLSPQPGEQLPPEMTVARSSVKETSR
EGTSSFHTRQKSEGGVYHDPHSDDGTAPKENRHLYNDPVPRRVGSFYRVP
SPRPDNSFHENNVSTRVSSLPSESSSGTNHSKRQPAFDPWKSPENISHSE
QLKEKEKQGFFRSMKKKKKKSQTVPNSDSPDLLTLQKSIHSASTPSSRPK
EWRPEKISDLQTQSQPLKSLRKLLHLSSASNHPASSDPRFQPLTAQQTKN
SFSEIRIHPLSQASGGSSNIRQEPAPKGRPALQLPDGGCDGRRQRHHSGP
QDRRFMLRTTEQQGEYFCCGDPKKPHTPCVPNRALHRPISSPAPYPVLQV
RGTSMCPTLQVRGTDAFSCPTQQSGFSFFVRHVMREALIHRAQVNQAALL
TYHENAALTGK*
EFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVL
DIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTH
PDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIA
WPLQGWQATFGGGDHPPKSDLEVLFQGPLGSMKIPNIGNVMNKFEILGVV
GEGAYGVVLKCRHKETHEIVAIKKFKDSEENEEVKETTLRELKMLRTLKQ
ENIVELKEAFRRRGKLYLVFEYVEKNMLELLEEMPNGVPPEKVKSYIYQL
IKAIHWCHKNDIVHRDIKPENLLISHNDVLKLCDFGFARNLSEGNNANYT
EYVATRWYRSPELLLGAPYGKSVDMWSVGCILGELSDGQPLFPGESEIDQ
LFTIQKVLGPLPSEQMKLFYSNPRFHGLRFPAVNHPQSLERRYLGILNSV
LLDLMKNLLKLDPADRYLTEQCLNHPTFQTQRLLDRSPSRSAKRKPYHVE
SSTLSNRNQAGKSTALQSHHRSNSKDIQNLSVGLPRADEGLPANESFLNG
NLAGASLSPLHTKTYQASSQPGSTSKDLTNNNIPHLLSPKEAKSKTEFDF
NIDPKPSEGPGTKYLKSNSRSQQNRHSFMESSQSKAGTLQPNEKQSRHSY
IDTIPQSSRSPSYRTKAKSHGALSDSKSVSNLSEARAQIAEPSTSRYFPS
SCLDLNSPTSPTPTRHSDTRTLLSPSGRNNRNEGTLDSRRTTTRHSKTME
ELKLPEHMDSSHSHSLSAPHESFSYGLGYTSPFSSQQRPHRHSMYVTRDK
VRAKGLDGSLSIGQGMAARANSLQLLSPQPGEQLPPEMTVARSSVKETSR
EGTSSFHTRQKSEGGVYHDPHSDDGTAPKENRHLYNDPVPRRVGSFYRVP
SPRPDNSFHENNVSTRVSSLPSESSSGTNHSKRQPAFDPWKSPENISHSE
QLKEKEKQGFFRSMKKKKKKSQTVPNSDSPDLLTLQKSIHSASTPSSRPK
EWRPEKISDLQTQSQPLKSLRKLLHLSSASNHPASSDPRFQPLTAQQTKN
SFSEIRIHPLSQASGGSSNIRQEPAPKGRPALQLPDGGCDGRRQRHHSGP
QDRRFMLRTTEQQGEYFCCGDPKKPHTPCVPNRALHRPISSPAPYPVLQV
RGTSMCPTLQVRGTDAFSCPTQQSGFSFFVRHVMREALIHRAQVNQAALL
TYHENAALTGK*
Vector Type
Bacterial
Antibiotic
Amp
DU Number
DU36153
Unit Source
Location
PPU
MTA
Notes
*Sequence difference compared with NM_003159.2 CDS:
t996c, t2118c (both silent)
Bacterial construct to express GST N terminal fusion
Estimated MW of expressed protein : 142358 Daltons
t996c, t2118c (both silent)
Bacterial construct to express GST N terminal fusion
Estimated MW of expressed protein : 142358 Daltons
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.