cDNA Clone
USP9X

Synonyms
DFFRX, FAF, FAM
Plasmid
pGEX6P1 USP9X
Parent Plasmid
pGEX6P1
Expressed
GST 3C USP9X
Genbank
NM_001039591.2 GI:145309310 with silent changes: t856c, g6150a and a7062g. And coding changes a4904g (D1635G) and a7040g (E2347G); EST-derived.
Tag
GST
Species
Human
Sequence of Insert
GGATCCCCGGAATTCGCCCTTATGACAGCCACGACTCGTGGCTCTCCGGTCGGAGGGAATGACAACCAGGGCCAGGCTCCTGATGGACAGTCTCAGCCCCCCCTCCAACAGAATCAGACTTCATCGCCTGATTCTTCCAATGAAAATTCCCCGGCAACTCCCCCAGATGAGCAAGGTCAAGGTGATGCCCCACCACAGCTTGAAGATGAGGAACCTGCATTTCCACATACTGACTTGGCCAAGTTGGATGACATGATCAACAGGCCTCGATGGGTGGTTCCAGTTTTGCCGAAAGGGGAATTAGAAGTGCTTTTAGAAGCTGCTATTGATCTTAGTAAAAAGGGCCTTGATGTTAAAAGTGAAGCATGTCAGCGATTTTTCCGTGATGGGCTAACAATATCATTCACTAAAATTCTTACAGATGAAGCAGTGAGTGGCTGGAAGTTTGAAATTCATAGGTGTATTATTAACAATACTCATCGTCTGGTGGAGCTATGTGTGGCCAAGTTGTCCCAAGACTGGTTTCCACTTTTAGAACTTCTTGCCATGGCCTTAAATCCTCATTGCAAATTCCATATCTACAATGGTACACGTCCATGTGAATCAGTTTCCTCAAGTGTTCAGTTGCCTGAAGATGAACTCTTTGCTCGTTCTCCAGATCCTCGATCACCAAAGGGTTGGCTAGTGGATCTTCTCAACAAATTTGGCACTTTAAATGGGTTCCAGATTTTGCATGATCGTTTTATTAATGGATCAGCATTAAACGTTCAAATAATTGCAGCCCTTATTAAACCATTTGGGCAATGCTATGAGTTTCTCACTCTTCATACAGTGAAAAAGTACTTTCTTCCAATAATAGAAATGGTTCCACAGTTTCTAGAAAACTTAACTGATGAAGAACTGAAAAAAGAAGCAAAGAATGAAGCCAAAAATGATGCTCTTTCAATGATTATTAAATCTTTGAAGAATTTAGCTTCAAGGGTTCCAGGACAAGAAGAAACTGTTAAAAACTTAGAAATATTTAGGTTAAAAATGATACTTAGATTATTGCAAATTTCTTCTTTCAATGGAAAGATGAATGCACTGAATGAAGTTAATAAGGTGATATCTAGTGTATCATACTATACTCATCGACATGGTAATCCTGAGGAGGAAGAGTGGCTCACAGCTGAACGAATGGCAGAATGGATACAGCAGAACAATATCTTATCCATAGTGTTGCGAGATAGTCTTCATCAGCCACAGTATGTAGAAAAGTTAGAGAAGATTCTTCGTTTTGTCATCAAAGAAAAAGCTCTGACCTTACAGGATCTTGATAATATCTGGGCAGCACAGGCAGGGAAACATGAAGCCATTGTGAAGAATGTACATGATCTCCTGGCAAAATTGGCATGGGATTTTTCTCCTGAACAACTTGATCATCTTTTTGATTGTTTTAAGGCCAGTTGGACAAATGCGAGTAAAAAGCAACGTGAAAAGCTACTTGAGCTGATACGTCGTCTTGCAGAAGATGATAAAGATGGTGTGATGGCACACAAAGTGTTGAACCTTCTGTGGAATCTGGCTCACAGTGATGATGTGCCTGTAGATATCATGGACCTGGCTCTCAGTGCCCACATAAAAATACTAGATTACAGTTGCTCCCAGGACCGTGATACACAAAAGATCCAATGGATAGATCGCTTTATAGAAGAACTTCGCACAAATGACAAATGGGTTATTCCCGCACTGAAACAAATTAGAGAAATTTGTAGTTTGTTTGGTGAAGCGCCTCAAAATTTGAGTCAAACTCAGCGAAGTCCCCATGTGTTTTATCGCCATGACTTAATCAATCAACTTCAACACAATCATGCCCTAGTTACTTTGGTAGCAGAAAACCTTGCAACTTACATGGAAAGCATGAGACTATATGCTAGAGACCATGAAGATTATGACCCACAAACTGTGAGGCTGGGAAGTAGATATAGTCATGTTCAAGAAGTTCAAGAACGGCTTAACTTCCTTAGATTTTTATTGAAGGATGGTCAGCTGTGGCTATGTGCTCCTCAGGCAAAACAAATATGGAAATGCTTAGCTGAGAATGCAGTTTACCTTTGTGATCGTGAAGCCTGTTTTAAGTGGTATTCCAAGTTGATGGGGGATGAACCAGACTTAGATCCTGATATTAATAAGGACTTCTTTGAAAGTAATGTGCTTCAGCTTGATCCTTCTCTGTTAACTGAAAATGGAATGAAGTGTTTTGAGCGATTCTTCAAAGCTGTGAATTGTCGAGAAGGAAAACTAGTAGCAAAAAGGAGAGCCTATATGATGGATGACTTGGAGTTAATAGGATTAGATTACCTTTGGAGGGTCGTGATTCAGAGTAATGATGATATTGCCAGCAGAGCTATAGATCTCCTCAAAGAGATATACACGAACCTTGGTCCAAGACTACAAGTCAATCAGGTGGTGATCCATGAAGACTTCATTCAGTCTTGTTTTGATCGTCTGAAGGCTTCCTATGACACATTGTGTGTTTTGGATGGTGACAAAGACAGTGTTAATTGTGCAAGACAGGAAGCTGTTCGAATGGTTCGAGTATTAACTGTTTTAAGGGAATATATAAATGAATGTGACAGTGATTATCATGAGGAAAGAACAATTCTCCCTATGTCGAGAGCATTCCGCGGTAAACACCTCTCTTTTGTAGTTCGATTTCCAAACCAGGGCAGACAGGTTGATGACTTGGAGGTATGGTCTCATACAAATGATACAATTGGTTCAGTACGACGATGTATTCTCAATCGTATTAAAGCCAACGTAGCCCATACAAAAATTGAGCTCTTTGTGGGCGGTGAGCTGATAGATCCTGCAGATGATAGAAAGTTGATTGGACAATTAAACTTAAAAGATAAATCGCTTATTACAGCCAAACTTACACAGATAAGTTCCAATATGCCTTCAAGCCCTGATAGCTCTTCTGATTCCTCCACTGGATCTCCTGGAAACCATGGTAATCATTACAGTGATGGTCCCAATCCAGAAGTGGAAAGCTGTTTGCCTGGAGTGATAATGTCACTGCATCCCAGATACATCTCTTTTCTTTGGCAAGTTGCAGACTTAGGTAGCAGCCTAAATATGCCACCCCTTAGAGATGGAGCAAGAGTACTTATGAAACTTATGCCGCCAGATAGCACAACGATAGAAAAATTAAGAGCTATTTGTTTAGACCATGCCAAACTTGGAGAAAGCAGCCTTAGTCCATCTCTTGACTCACTTTTCTTTGGTCCTTCAGCCTCACAAGTGCTATATCTAACAGAGGTAGTCTATGCCTTGTTAATGCCTGCTGGTGCACCTCTGGCTGATGATTCCTCTGATTTTCAGTTTCACTTCTTGAAAAGTGGTGGCCTACCCCTTGTACTGAGTATGCTAACCAGAAATAACTTCCTACCGAATGCAGATATGGAAACTCGAAGGGGTGCCTACCTCAATGCTCTTAAAATAGCCAAGCTTTTGCTAACTGCCATTGGCTATGGTCATGTTCGAGCTGTGGCAGAAGCTTGTCAGCCAGGTGTAGAAGGTGTGAATCCCATGACACAGATCAACCAAGTTACCCATGATCAAGCAGTGGTGCTACAAAGTGCCCTTCAGAGCATTCCTAATCCATCATCCGAGTGCATGCTTAGAAATGTGTCAGTTCGTCTTGCTCAGCAGATATCTGATGAGGCTTCAAGATATATGCCTGATATTTGTGTAATTAGAGCTATACAAAAAATTATCTGGGCATCAGGATGTGGGTCGTTACAGCTAGTATTTAGCCCAAATGAAGAAATCACTAAAATTTATGAGAAGACCAATGCAGGCAATGAGCCAGACTTGGAAGACGAACAGGTTTGCTGTGAAGCATTGGAAGTGATGACCTTATGTTTTGCCTTGATTCCAACAGCCTTAGATGCTCTTAGTAAAGAAAAGGCTTGGCAGACATTCATCATTGACTTACTATTGCACTGTCACAGCAAAACTGTTCGTCAGGTGGCACAGGAGCAGTTCTTTTTAATGTGCACCAGATGTTGCATGGGACACCGGCCTCTACTTTTCTTCATTACTCTACTCTTTACTGTTTTGGGGAGCACAGCAAGAGAGAGAGCTAAACACTCAGGCGACTACTTTACTCTTTTAAGACACCTTCTTAATTACGCTTACAATAGTAATATTAATGTACCCAATGCTGAAGTTCTTCTCAATAATGAAATTGATTGGCTTAAAAGAATTAGGGATGATGTTAAAAGAACAGGAGAAACGGGTATTGAAGAGACGATCTTAGAGGGCCACCTTGGAGTGACAAAGGAGTTACTGGCCTTTCAAACTTCTGAGAAAAAATTTCATATTGGTTGTGAAAAAGGAGGTGCTAATCTCATTAAAGAATTAATTGATGATTTCATATTTCCTGCATCCAATGTTTACCTACAGTATATGAGAAATGGAGAGCTTCCAGCTGAACAGGCTATTCCGGTCTGTGGTTCACCACCTACAATTAATGCTGGTTTTGAATTACTTGTAGCATTAGCTGTTGGCTGTGTGAGGAATCTCAAACAAATAGTAGATTCTTTGACTGAAATGTATTACATTGGCACAGCAATAACTACTTGTGAAGCACTTACTGAGTGGGAATATCTGCCACCTGTTGGACCCCGCCCACCCAAAGGATTCGTGGGGCTGAAAAATGCCGGTGCTACTTGTTACATGAATTCTGTGATTCAGCAACTCTACATGATTCCTTCCATTAGGAACGGTATTCTTGCCATTGAAGGCACAGGTAGTGATGTAGATGATGATATGTCTGGGGATGAGAAGCAGGACAATGAGAGCAATGTTGATCCCAGGGATGATGTATTTGGATATCCTCAACAATTTGAAGATAAACCAGCATTAAGTAAAACTGAAGGTAGAAAAGAGTACAACATTGGTGTCCTAAGACACCTTCAGGTCATCTTTGGTCATTTAGCTGCTTCTCGACTGCAATACTATGTGCCCAGAGGATTTTGGAAACAGTTCAGGCTTTGGGGTGAGCCTGTTAATCTGCGTGAACAACACGATGCTTTAGAATTTTTTAATTCATTGGTGGATAGTTTAGATGAAGCTTTAAAAGCTTTAGGACATCCAGCTATGCTAAGTAAAGTCTTAGGAGGTTCCTTTGCTGATCAGAAGATCTGCCAAGGCTGCCCACATAGGTACGAATGTGAAGAATCTTTTACGACCCTAAACGTAGACATTAGAAATCACCAAAATCTTCTTGATTCTTTGGAACAGTATGTCAAAGGAGATTTACTAGAAGGTGCAAATGCATATCATTGTGAAAAATGCAATAAAAAGGTTGATACCGTAAAGCGCTTGCTGATTAAAAAATTACCTCCTGTTCTTGCTATACAACTAAAGCGATTTGACTATGACTGGGAAAGAGAATGTGCAATCAAGTTCAATGATTATTTTGAATTTCCTCGAGAGCTGGACATGGAACCTTACACAGTTGCAGGTGTCGCAAAGCTGGAAGGGGATAATGTAAACCCAGAGAGTCAGTTGATACAACAGAGTGAGCAGTCTGAAAGTGAGACAGCAGGAAGCACAAAATACAGACTTGTGGGTGTGCTCGTACACAGTGGTCAAGCGAGTGGGGGGCATTATTATTCTTACATCATCCAAAGGAATGGTGGAGATGGTGAGAGAAATCGCTGGTATAAATTTGATGATGGTGATGTAACAGAATGTAAAATGGATGATGACGAAGAAATGAAAAACCAGTGTTTTGGTGGAGAGTACATGGGAGAAGTGTTTGATCACATGATGAAGCGTATGTCATACAGGCGCCAGAAAAGGTGGTGGAATGCTTATATACTTTTTTATGAACGAATGGACACAATAGACCAAGATGATGAGTTGATAAGATATATATCAGAGCTTGCTATCACCACCAGACCTCATCAGATTATTATGCCATCAGCCATTGAGAGAAGTGTACGGAAACAGAACGTACAATTCATGCATAACCGAATGCAGTACAGTATGGAGTATTTTCAGTTTATGAAAAAACTGCTTACATGTAATGGCGTTTACTTAAACCCTCCTCCCGGGCAAGATCACCTGTTGCCTGAAGCAGAAGAAATCACTATGATCAGTATTCAACTTGCTGCTAGATTCCTCTTTACTACAGGATTTCACACAAAGAAAGTAGTCCGTGGCTCTGCCAGTGATTGGTATGATGCATTGTGTATTCTCCTTCGTCACAGCAAGAATGTACGTTTTTGGTTTGCTCATAACGTCCTTTTTAATGTTTCAAATCGCTTCTCCGAATACCTTCTGGAGTGCCCTAGTGCAGAAGTGAGGGGTGCGTTTGCAAAACTTATAGTCTTTATTGCACATTTTTCCTTGCAAGATGGGCCATGTCCTTCACCTTTTGCCTCTCCTGGACCTTCTAGTCAGGCTTATGACAACTTAAGCTTGAGTGATCACTTACTAAGAGCAGTACTAAATCTCTTGAGAAGGGAAGTTTCAGAGCATGGGCGTCATTTACAGCAGTATTTCAACCTGTTTGTAATGTATGCCAATTTAGGTGTGGCAGAGAAGACACAGCTTCTGAAATTGAGTGTACCTGCTACTTTTATGCTTGTGTCTTTAGATGAAGGTCCAGGTCCTCCAATCAAATACCAGTATGCTGAATTAGGCAAATTATACTCAGTAGTGTCACAGCTGATCCGCTGTTGCAATGTCTCTTCAAGAATGCAGTCTTCAATCAATGGTAATCCTCCTCTTCCCAATCCTTTTGGTGATCCTAATTTATCACAACCTATAATGCCAATTCAGCAGAATGTGGCAGACATTTTATTTGTGAGAACAAGTTATGTGAAGAAAATCATTGAAGACTGCAGTAATTCAGAGGAAACCGTCAAATTGCTTCGTTTTTGCTGCTGGGAGAATCCTCAGTTCTCATCTACTGTCCTCAGTGAACTTCTCTGGCAGGTTGCATATTCCTATACCTATGAACTGCGGCCCTATTTGGATCTGCTTTTGCAAATCTTACTGATTGGGGACTCCTGGCAAACTCACAGGATTCATAATGCACTGAAAGGAATTCCAGATGACCGAGATGGGCTGTTTGACACAATCCAGCGCTCTAAGAATCACTATCAAAAAAGAGCATACCAGTGTATAAAATGTATGGTAGCTCTATTTAGTAACTGTCCTGTTGCTTACCAAATCCTGCAGGGCAATGGAGATCTTAAAAGAAAGTGGACCTGGGCAGTGGAATGGCTTGGAGATGAACTTGAAAGAAGACCATATACTGGCAATCCTCAGTACACTTACAACAATTGGTCTCCCCCAGTGCAAAGCAATGAAACGTCCAATGGTTATTTCTTGGAGAGATCACATAGTGCTAGGATGACACTTGCAAAAGCTTGTGAACTCTGTCCAGAGGAGGAGCCAGATGACCAAGATGCTCCAGATGAACATGAGTCGCCTCCACCTGAAGATGCCCCATTGTACCCCCATTCACCTGGATCTCAGTATCAACAGAATAACCATGTGCATGGACAGCCATATACAGGCCCAGCAGCACATCACATGAACAACCCTCAGAGAACTGGCCAACGAGCACAAGAAAATTATGAAGGCAGTGAAGAAGTATCCCCACCTCAAACCAAGGATCAATGAGCGGCCGC
Amino Acid Sequence
MSPILGYWKIKGLVQPTRLLLEYLEEKYEEHLYERDEGDKWRNKKFELGLEFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVL
DIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTHPDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIA
WPLQGWQATFGGGDHPPKSDLEVLFQGPLGSPEFALMTATTRGSPVGGNDNQGQAPDGQSQPPLQQNQTSSPDSSNENSPATPPDEQGQGDAPPQLEDEE
PAFPHTDLAKLDDMINRPRWVVPVLPKGELEVLLEAAIDLSKKGLDVKSEACQRFFRDGLTISFTKILTDEAVSGWKFEIHRCIINNTHRLVELCVAKLS
QDWFPLLELLAMALNPHCKFHIYNGTRPCESVSSSVQLPEDELFARSPDPRSPKGWLVDLLNKFGTLNGFQILHDRFINGSALNVQIIAALIKPFGQCYE
FLTLHTVKKYFLPIIEMVPQFLENLTDEELKKEAKNEAKNDALSMIIKSLKNLASRVPGQEETVKNLEIFRLKMILRLLQISSFNGKMNALNEVNKVISS
VSYYTHRHGNPEEEEWLTAERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDNIWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQ
LDHLFDCFKASWTNASKKQREKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHIKILDYSCSQDRDTQKIQWIDRFIEELRTNDK
WVIPALKQIREICSLFGEAPQNLSQTQRSPHVFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARDHEDYDPQTVRLGSRYSHVQEVQERLNFLRFL
LKDGQLWLCAPQAKQIWKCLAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLTENGMKCFERFFKAVNCREGKLVAKRRAYMMD
DLELIGLDYLWRVVIQSNDDIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCVLDGDKDSVNCARQEAVRMVRVLTVLREYINEC
DSDYHEERTILPMSRAFRGKHLSFVVRFPNQGRQVDDLEVWSHTNDTIGSVRRCILNRIKANVAHTKIELFVGGELIDPADDRKLIGQLNLKDKSLITAK
LTQISSNMPSSPDSSSDSSTGSPGNHGNHYSDGPNPEVESCLPGVIMSLHPRYISFLWQVADLGSSLNMPPLRDGARVLMKLMPPDSTTIEKLRAICLDH
AKLGESSLSPSLDSLFFGPSASQVLYLTEVVYALLMPAGAPLADDSSDFQFHFLKSGGLPLVLSMLTRNNFLPNADMETRRGAYLNALKIAKLLLTAIGY
GHVRAVAEACQPGVEGVNPMTQINQVTHDQAVVLQSALQSIPNPSSECMLRNVSVRLAQQISDEASRYMPDICVIRAIQKIIWASGCGSLQLVFSPNEEI
TKIYEKTNAGNEPDLEDEQVCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQEQFFLMCTRCCMGHRPLLFFITLLFTVLGST
ARERAKHSGDYFTLLRHLLNYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGVTKELLAFQTSEKKFHIGCEKGGANLIKELID
DFIFPASNVYLQYMRNGELPAEQAIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAITTCEALTEWEYLPPVGPRPPKGFVGLKNAGA
TCYMNSVIQQLYMIPSIRNGILAIEGTGSDVDDDMSGDEKQDNESNVDPRDDVFGYPQQFEDKPALSKTEGRKEYNIGVLRHLQVIFGHLAASRLQYYVP
RGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLE
GANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDNVNPESQLIQQSEQSESETAGSTKYR
LVGVLVHSGQASGGHYYSYIIQRNGGDGERNRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMDTIDQDDE
LIRYISELAITTRPHQIIMPSAIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHLLPEAEEITMISIQLAARFLFTTGFHTKKVVR
GSASDWYDALCILLRHSKNVRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPCPSPFASPGPSSQAYDNLSLSDHLLRAVLNLL
RREVSEHGRHLQQYFNLFVMYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVSQLIRCCNVSSRMQSSINGNPPLPNPFGDPNL
SQPIMPIQQNVADILFVRTSYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYELRPYLDLLLQILLIGDSWQTHRIHNALKGIPD
DRDGLFDTIQRSKNHYQKRAYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERRPYTGNPQYTYNNWSPPVQSNETSNGYFLERSHSAR
MTLAKACELCPEEEPDDQDAPDEHESPPPEDAPLYPHSPGSQYQQNNHVHGQPYTGPAAHHMNNPQRTGQRAQENYEGSEEVSPPQTKDQ*
Vector Type
Bacterial
Antibiotic
Amp
DU Number
DU10169
Location
PPU
MTA
Notes
Treat carefully. Grow at low temp. Can be difficult to propagate.

All USP9X plasmids MUST be grown at 30 degrees C or less to prevent recombination.
Low Temp
No
Price
£125.00
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