Plasmid
pcDNA-FRT/TO-GFP-USP48 tv1 C98A
Parent Plasmid
pcDNA5 FRT/TO GFP
Expressed
GFP-USP48 tv1 C98A
Genbank
NM_032236.5
Tag
GFP
Species
Human
Sequence of Insert
View Sequence
GGATCCATGGCCCCGCGGCTGCAGCTGGAGAAGGCGGCCTGGCGCTGGGC
GGAGACGGTGCGGCCCGAGGAGGTGTCGCAGGAGCACATCGAGACCGCTT
ACCGCATCTGGCTGGAGCCCTGCATTCGCGGCGTGTGCAGACGAAACTGC
AAAGGAAATCCGAATTGCTTGGTTGGTATTGGTGAGCATATTTGGTTAGG
AGAAATAGATGAAAATAGTTTTCATAACATCGATGATCCCAACTGTGAGA
GGAGAAAAAAGAACTCATTTGTGGGCCTGACTAACCTTGGAGCCACTgcc
TATGTCAACACATTTCTTCAAGTGTGGTTTCTCAACTTGGAGCTTCGGCA
GGCACTCTACTTATGTCCAAGCACTTGTAGTGACTACATGCTGGGAGACG
GCATCCAAGAAGAAAAAGATTATGAGCCTCAAACAATTTGTGAGCATCTC
CAGTACTTGTTTGCCTTGTTGCAAAACAGTAATAGGCGATACATTGATCC
ATCAGGATTTGTTAAAGCCTTGGGCCTGGACACTGGACAACAGCAGGATG
CTCAAGAATTTTCAAAGCTCTTTATGTCTCTATTGGAAGATACTTTGTCT
AAACAAAAGAATCCAGATGTGCGCAATATTGTTCAACAGCAGTTCTGTGG
AGAATATGCCTATGTAACTGTTTGCAACCAGTGTGGCAGAGAGTCTAAGC
TTTTGTCAAAATTTTATGAGCTGGAGTTAAATATCCAAGGCCACAAACAG
TTAACAGATTGTATCTCGGAATTTTTGAAGGAAGAAAAATTAGAAGGAGA
CAATCGCTATTTTTGCGAGAACTGTCAAAGCAAACAGAATGCAACAAGAA
AGATTCGACTTCTTAGCCTTCCTTGCACTCTGAACTTGCAGCTAATGCGT
TTTGTCTTTGACAGGCAAACTGGACATAAGAAAAAGCTGAATACCTACAT
TGGCTTCTCAGAAATTTTGGATATGGAGCCTTATGTGGAACATAAAGGTG
GGTCCTACGTGTATGAACTCAGCGCAGTCCTCATACACAGAGGAGTGAGT
GCTTATTCTGGCCACTACATCGCCCACGTGAAAGATCCACAGTCTGGTGA
ATGGTATAAGTTTAATGATGAAGACATAGAAAAGATGGAGGGGAAGAAAT
TACAACTAGGGATTGAGGAAGATCTAGCAGAACCTTCTAAGTCTCAGACA
CGTAAACCCAAGTGTGGCAAAGGAACTCATTGCTCTCGAAATGCATATAT
GTTGGTTTATAGACTGCAAACTCAAGAAAAGCCCAACACTACTGTTCAAG
TTCCAGCCTTTCTTCAAGAGCTGGTAGATCGGGATAATTCCAAATTTGAG
GAGTGGTGTATTGAAATGGCTGAGATGCGTAAGCAAAGTGTGGATAAAGG
AAAAGCAAAACACGAAGAGGTTAAGGAGCTGTACCAAAGGTTACCTGCTG
GAGCTGAGCCCTATGAGTTTGTCTCTCTGGAATGGCTGCAAAAGTGGTTG
GATGAATCAACACCTACCAAACCTATTGATAATCACGCTTGCCTGTGTTC
CCATGACAAGCTTCACCCGGATAAAATATCAATTATGAAGAGGATATCTG
AATATGCAGCTGACATTTTCTATAGTAGATATGGAGGAGGTCCAAGACTA
ACTGTGAAAGCCCTGTGTAAGGAATGTGTAGTAGAACGTTGTCGCATATT
GCGTCTGAAGAACCAACTAAATGAAGATTATAAAACTGTTAATAATCTGC
TGAAAGCAGCAGTAAAGGGCAGCGATGGATTTTGGGTGGGGAAGTCCTCC
TTGCGGAGTTGGCGCCAGCTAGCTCTTGAACAGCTGGATGAGCAAGATGG
TGATGCAGAACAAAGCAACGGAAAGATGAACGGTAGCACCTTAAATAAAG
ATGAATCAAAGGAAGAAAGAAAAGAAGAGGAGGAATTAAATTTTAATGAA
GATATTCTGTGTCCACATGGTGAGTTATGCATATCTGAAAATGAAAGAAG
GCTTGTTTCTAAAGAGGCTTGGAGCAAACTGCAGCAGTACTTTCCAAAGG
CTCCTGAGTTTCCAAGTTACAAAGAGTGCTGTTCACAGTGCAAGATTTTA
GAAAGAGAAGGGGAAGAAAATGAAGCCTTACATAAGATGATTGCAAACGA
GCAAAAGACTTCTCTCCCAAATTTGTTCCAGGATAAAAACAGACCGTGTC
TCAGTAACTGGCCAGAGGATACGGATGTCCTCTACATCGTGTCTCAGTTC
TTTGTAGAAGAGTGGCGGAAATTTGTTAGAAAGCCTACAAGATGCAGCCC
TGTGTCATCAGTTGGGAACAGTGCTCTTTTGTGTCCCCACGGGGGCCTCA
TGTTTACATTTGCTTCCATGACCAAAGAAGATTCTAAACTTATAGCTCTC
ATATGGCCCAGTGAGTGGCAAATGATACAAAAGCTCTTTGTTGTGGATCA
TGTAATTAAAATCACGAGAATTGAAGTGGGAGATGTAAACCCTTCAGAAA
CACAGTATATTTCTGAGCCCAAACTCTGTCCAGAATGCAGAGAAGGCTTA
TTGTGTCAGCAGCAGAGGGACCTGCGTGAATACACTCAAGCCACCATCTA
TGTCCATAAAGTTGTGGATAATAAAAAGGTGATGAAGGATTCGGCTCCGG
AACTGAATGTGAGTAGTTCTGAAACAGAGGAGGACAAGGAAGAAGCTAAA
CCAGATGGAGAAAAAGATCCAGATTTTAATCAAAGCAATGGTGGAACAAA
GCGGCAAAAGATATCCCATCAAAATTATATAGCCTATCAAAAGCAAGTTA
TTCGCCGAAGTATGCGACATAGAAAAGTTCGTGGTGAGAAAGCACTTCTC
GTTTCTGCTAATCAGACGTTAAAAGAATTGAAAATTCAGATCATGCATGC
ATTTTCAGTTGCTCCTTTTGACCAGAATTTGTCAATTGATGGAAAGATTT
TAAGTGATGACTGTGCCACCCTAGGCACCCTTGGCGTCATTCCTGAATCT
GTCATTTTATTGAAGGCTGATGAACCAATTGCAGATTATGCTGCAATGGA
TGATGTCATGCAAGTTTGTATGCCAGAAGAAGGGTTTAAAGGTACTGGTC
TTCTTGGACATTAAGCGGCCGC
GGAGACGGTGCGGCCCGAGGAGGTGTCGCAGGAGCACATCGAGACCGCTT
ACCGCATCTGGCTGGAGCCCTGCATTCGCGGCGTGTGCAGACGAAACTGC
AAAGGAAATCCGAATTGCTTGGTTGGTATTGGTGAGCATATTTGGTTAGG
AGAAATAGATGAAAATAGTTTTCATAACATCGATGATCCCAACTGTGAGA
GGAGAAAAAAGAACTCATTTGTGGGCCTGACTAACCTTGGAGCCACTgcc
TATGTCAACACATTTCTTCAAGTGTGGTTTCTCAACTTGGAGCTTCGGCA
GGCACTCTACTTATGTCCAAGCACTTGTAGTGACTACATGCTGGGAGACG
GCATCCAAGAAGAAAAAGATTATGAGCCTCAAACAATTTGTGAGCATCTC
CAGTACTTGTTTGCCTTGTTGCAAAACAGTAATAGGCGATACATTGATCC
ATCAGGATTTGTTAAAGCCTTGGGCCTGGACACTGGACAACAGCAGGATG
CTCAAGAATTTTCAAAGCTCTTTATGTCTCTATTGGAAGATACTTTGTCT
AAACAAAAGAATCCAGATGTGCGCAATATTGTTCAACAGCAGTTCTGTGG
AGAATATGCCTATGTAACTGTTTGCAACCAGTGTGGCAGAGAGTCTAAGC
TTTTGTCAAAATTTTATGAGCTGGAGTTAAATATCCAAGGCCACAAACAG
TTAACAGATTGTATCTCGGAATTTTTGAAGGAAGAAAAATTAGAAGGAGA
CAATCGCTATTTTTGCGAGAACTGTCAAAGCAAACAGAATGCAACAAGAA
AGATTCGACTTCTTAGCCTTCCTTGCACTCTGAACTTGCAGCTAATGCGT
TTTGTCTTTGACAGGCAAACTGGACATAAGAAAAAGCTGAATACCTACAT
TGGCTTCTCAGAAATTTTGGATATGGAGCCTTATGTGGAACATAAAGGTG
GGTCCTACGTGTATGAACTCAGCGCAGTCCTCATACACAGAGGAGTGAGT
GCTTATTCTGGCCACTACATCGCCCACGTGAAAGATCCACAGTCTGGTGA
ATGGTATAAGTTTAATGATGAAGACATAGAAAAGATGGAGGGGAAGAAAT
TACAACTAGGGATTGAGGAAGATCTAGCAGAACCTTCTAAGTCTCAGACA
CGTAAACCCAAGTGTGGCAAAGGAACTCATTGCTCTCGAAATGCATATAT
GTTGGTTTATAGACTGCAAACTCAAGAAAAGCCCAACACTACTGTTCAAG
TTCCAGCCTTTCTTCAAGAGCTGGTAGATCGGGATAATTCCAAATTTGAG
GAGTGGTGTATTGAAATGGCTGAGATGCGTAAGCAAAGTGTGGATAAAGG
AAAAGCAAAACACGAAGAGGTTAAGGAGCTGTACCAAAGGTTACCTGCTG
GAGCTGAGCCCTATGAGTTTGTCTCTCTGGAATGGCTGCAAAAGTGGTTG
GATGAATCAACACCTACCAAACCTATTGATAATCACGCTTGCCTGTGTTC
CCATGACAAGCTTCACCCGGATAAAATATCAATTATGAAGAGGATATCTG
AATATGCAGCTGACATTTTCTATAGTAGATATGGAGGAGGTCCAAGACTA
ACTGTGAAAGCCCTGTGTAAGGAATGTGTAGTAGAACGTTGTCGCATATT
GCGTCTGAAGAACCAACTAAATGAAGATTATAAAACTGTTAATAATCTGC
TGAAAGCAGCAGTAAAGGGCAGCGATGGATTTTGGGTGGGGAAGTCCTCC
TTGCGGAGTTGGCGCCAGCTAGCTCTTGAACAGCTGGATGAGCAAGATGG
TGATGCAGAACAAAGCAACGGAAAGATGAACGGTAGCACCTTAAATAAAG
ATGAATCAAAGGAAGAAAGAAAAGAAGAGGAGGAATTAAATTTTAATGAA
GATATTCTGTGTCCACATGGTGAGTTATGCATATCTGAAAATGAAAGAAG
GCTTGTTTCTAAAGAGGCTTGGAGCAAACTGCAGCAGTACTTTCCAAAGG
CTCCTGAGTTTCCAAGTTACAAAGAGTGCTGTTCACAGTGCAAGATTTTA
GAAAGAGAAGGGGAAGAAAATGAAGCCTTACATAAGATGATTGCAAACGA
GCAAAAGACTTCTCTCCCAAATTTGTTCCAGGATAAAAACAGACCGTGTC
TCAGTAACTGGCCAGAGGATACGGATGTCCTCTACATCGTGTCTCAGTTC
TTTGTAGAAGAGTGGCGGAAATTTGTTAGAAAGCCTACAAGATGCAGCCC
TGTGTCATCAGTTGGGAACAGTGCTCTTTTGTGTCCCCACGGGGGCCTCA
TGTTTACATTTGCTTCCATGACCAAAGAAGATTCTAAACTTATAGCTCTC
ATATGGCCCAGTGAGTGGCAAATGATACAAAAGCTCTTTGTTGTGGATCA
TGTAATTAAAATCACGAGAATTGAAGTGGGAGATGTAAACCCTTCAGAAA
CACAGTATATTTCTGAGCCCAAACTCTGTCCAGAATGCAGAGAAGGCTTA
TTGTGTCAGCAGCAGAGGGACCTGCGTGAATACACTCAAGCCACCATCTA
TGTCCATAAAGTTGTGGATAATAAAAAGGTGATGAAGGATTCGGCTCCGG
AACTGAATGTGAGTAGTTCTGAAACAGAGGAGGACAAGGAAGAAGCTAAA
CCAGATGGAGAAAAAGATCCAGATTTTAATCAAAGCAATGGTGGAACAAA
GCGGCAAAAGATATCCCATCAAAATTATATAGCCTATCAAAAGCAAGTTA
TTCGCCGAAGTATGCGACATAGAAAAGTTCGTGGTGAGAAAGCACTTCTC
GTTTCTGCTAATCAGACGTTAAAAGAATTGAAAATTCAGATCATGCATGC
ATTTTCAGTTGCTCCTTTTGACCAGAATTTGTCAATTGATGGAAAGATTT
TAAGTGATGACTGTGCCACCCTAGGCACCCTTGGCGTCATTCCTGAATCT
GTCATTTTATTGAAGGCTGATGAACCAATTGCAGATTATGCTGCAATGGA
TGATGTCATGCAAGTTTGTATGCCAGAAGAAGGGTTTAAAGGTACTGGTC
TTCTTGGACATTAAGCGGCCGC
Amino Acid Sequence
View Sequence
MVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICT
TGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIF
FKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHN
VYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNH
YLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSMAPRLQ
LEKAAWRWAETVRPEEVSQEHIETAYRIWLEPCIRGVCRRNCKGNPNCLV
GIGEHIWLGEIDENSFHNIDDPNCERRKKNSFVGLTNLGATAYVNTFLQV
WFLNLELRQALYLCPSTCSDYMLGDGIQEEKDYEPQTICEHLQYLFALLQ
NSNRRYIDPSGFVKALGLDTGQQQDAQEFSKLFMSLLEDTLSKQKNPDVR
NIVQQQFCGEYAYVTVCNQCGRESKLLSKFYELELNIQGHKQLTDCISEF
LKEEKLEGDNRYFCENCQSKQNATRKIRLLSLPCTLNLQLMRFVFDRQTG
HKKKLNTYIGFSEILDMEPYVEHKGGSYVYELSAVLIHRGVSAYSGHYIA
HVKDPQSGEWYKFNDEDIEKMEGKKLQLGIEEDLAEPSKSQTRKPKCGKG
THCSRNAYMLVYRLQTQEKPNTTVQVPAFLQELVDRDNSKFEEWCIEMAE
MRKQSVDKGKAKHEEVKELYQRLPAGAEPYEFVSLEWLQKWLDESTPTKP
IDNHACLCSHDKLHPDKISIMKRISEYAADIFYSRYGGGPRLTVKALCKE
CVVERCRILRLKNQLNEDYKTVNNLLKAAVKGSDGFWVGKSSLRSWRQLA
LEQLDEQDGDAEQSNGKMNGSTLNKDESKEERKEEEELNFNEDILCPHGE
LCISENERRLVSKEAWSKLQQYFPKAPEFPSYKECCSQCKILEREGEENE
ALHKMIANEQKTSLPNLFQDKNRPCLSNWPEDTDVLYIVSQFFVEEWRKF
VRKPTRCSPVSSVGNSALLCPHGGLMFTFASMTKEDSKLIALIWPSEWQM
IQKLFVVDHVIKITRIEVGDVNPSETQYISEPKLCPECREGLLCQQQRDL
REYTQATIYVHKVVDNKKVMKDSAPELNVSSSETEEDKEEAKPDGEKDPD
FNQSNGGTKRQKISHQNYIAYQKQVIRRSMRHRKVRGEKALLVSANQTLK
ELKIQIMHAFSVAPFDQNLSIDGKILSDDCATLGTLGVIPESVILLKADE
PIADYAAMDDVMQVCMPEEGFKGTGLLGH*
TGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIF
FKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHN
VYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNH
YLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSMAPRLQ
LEKAAWRWAETVRPEEVSQEHIETAYRIWLEPCIRGVCRRNCKGNPNCLV
GIGEHIWLGEIDENSFHNIDDPNCERRKKNSFVGLTNLGATAYVNTFLQV
WFLNLELRQALYLCPSTCSDYMLGDGIQEEKDYEPQTICEHLQYLFALLQ
NSNRRYIDPSGFVKALGLDTGQQQDAQEFSKLFMSLLEDTLSKQKNPDVR
NIVQQQFCGEYAYVTVCNQCGRESKLLSKFYELELNIQGHKQLTDCISEF
LKEEKLEGDNRYFCENCQSKQNATRKIRLLSLPCTLNLQLMRFVFDRQTG
HKKKLNTYIGFSEILDMEPYVEHKGGSYVYELSAVLIHRGVSAYSGHYIA
HVKDPQSGEWYKFNDEDIEKMEGKKLQLGIEEDLAEPSKSQTRKPKCGKG
THCSRNAYMLVYRLQTQEKPNTTVQVPAFLQELVDRDNSKFEEWCIEMAE
MRKQSVDKGKAKHEEVKELYQRLPAGAEPYEFVSLEWLQKWLDESTPTKP
IDNHACLCSHDKLHPDKISIMKRISEYAADIFYSRYGGGPRLTVKALCKE
CVVERCRILRLKNQLNEDYKTVNNLLKAAVKGSDGFWVGKSSLRSWRQLA
LEQLDEQDGDAEQSNGKMNGSTLNKDESKEERKEEEELNFNEDILCPHGE
LCISENERRLVSKEAWSKLQQYFPKAPEFPSYKECCSQCKILEREGEENE
ALHKMIANEQKTSLPNLFQDKNRPCLSNWPEDTDVLYIVSQFFVEEWRKF
VRKPTRCSPVSSVGNSALLCPHGGLMFTFASMTKEDSKLIALIWPSEWQM
IQKLFVVDHVIKITRIEVGDVNPSETQYISEPKLCPECREGLLCQQQRDL
REYTQATIYVHKVVDNKKVMKDSAPELNVSSSETEEDKEEAKPDGEKDPD
FNQSNGGTKRQKISHQNYIAYQKQVIRRSMRHRKVRGEKALLVSANQTLK
ELKIQIMHAFSVAPFDQNLSIDGKILSDDCATLGTLGVIPESVILLKADE
PIADYAAMDDVMQVCMPEEGFKGTGLLGH*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU24839
Unit Source
Location
PPU
MTA
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.