cDNA Clone
USP9X

Synonyms
DFFRX; FAF; FAM
Plasmid
pCMV5 HA USP9X CAT dead C1566A
Parent Plasmid
pCMV5 HA1
Expressed
HA USP9X CAT dead C1566A
Genbank
NM_001039591.2 GI:145309310 with differences-see notes
Tag
HA
Species
Human
Sequence of Insert
GGATCCCCGGAATTCGCCCTTATGACAGCCACGACTCGTGGCTCTCCGGTCGGAGGGAATGACAACCAGGGCCAGGCTCCTGATGGACAGTCTCAGCCCCCCCTCCAACAGAATCAGACTTCATCGCCTGATTCTTCCAATGAAAATTCCCCGGCAACTCCCCCAGATGAGCAAGGTCAAGGTGATGCCCCACCACAGCTTGAAGATGAGGAACCTGCATTTCCACATACTGACTTGGCCAAGTTGGATGACATGATCAACAGGCCTCGATGGGTGGTTCCAGTTTTGCCGAAAGGGGAATTAGAAGTGCTTTTAGAAGCTGCTATTGATCTTAGTAAAAAGGGCCTTGATGTTAAAAGTGAAGCATGTCAGCGATTTTTCCGTGATGGGCTAACAATATCATTCACTAAAATTCTTACAGATGAAGCAGTGAGTGGCTGGAAGTTTGAAATTCATAGGTGTATTATTAACAATACTCATCGTCTGGTGGAGCTATGTGTGGCCAAGTTGTCCCAAGACTGGTTTCCACTTTTAGAACTTCTTGCCATGGCCTTAAATCCTCATTGCAAATTCCATATCTACAATGGTACACGTCCATGTGAATCAGTTTCCTCAAGTGTTCAGTTGCCTGAAGATGAACTCTTTGCTCGTTCTCCAGATCCTCGATCACCAAAGGGTTGGCTAGTGGATCTTCTCAACAAATTTGGCACTTTAAATGGGTTCCAGATTTTGCATGATCGTTTTATTAATGGATCAGCATTAAACGTTCAAATAATTGCAGCCCTTATTAAACCATTTGGGCAATGCTATGAGTTTCTCACTCTTCATACAGTGAAAAAGTACTTTCTTCCAATAATAGAAATGGTTCCACAGTTTCTAGAAAACTTAACTGATGAAGAACTGAAAAAAGAAGCAAAGAATGAAGCCAAAAATGATGCTCTTTCAATGATTATTAAATCTTTGAAGAATTTAGCTTCAAGGGTTCCAGGACAAGAAGAAACTGTTAAAAACTTAGAAATATTTAGGTTAAAAATGATACTTAGATTATTGCAAATTTCTTCTTTCAATGGAAAGATGAATGCACTGAATGAAGTTAATAAGGTGATATCTAGTGTATCATACTATACTCATCGACATGGTAATCCTGAGGAGGAAGAGTGGCTCACAGCTGAACGAATGGCAGAATGGATACAGCAGAACAATATCTTATCCATAGTGTTGCGAGATAGTCTTCATCAGCCACAGTATGTAGAAAAGTTAGAGAAGATTCTTCGTTTTGTCATCAAAGAAAAAGCTCTGACCTTACAGGATCTTGATAATATCTGGGCAGCACAGGCAGGGAAACATGAAGCCATTGTGAAGAATGTACATGATCTCCTGGCAAAATTGGCATGGGATTTTTCTCCTGAACAACTTGATCATCTTTTTGATTGTTTTAAGGCCAGTTGGACAAATGCGAGTAAAAAGCAACGTGAAAAGCTACTTGAGCTGATACGTCGTCTTGCAGAAGATGATAAAGATGGTGTGATGGCACACAAAGTGTTGAACCTTCTGTGGAATCTGGCTCACAGTGATGATGTGCCTGTAGATATCATGGACCTGGCTCTCAGTGCCCACATAAAAATACTAGATTACAGTTGCTCCCAGGACCGTGATACACAAAAGATCCAATGGATAGATCGCTTTATAGAAGAACTTCGCACAAATGACAAATGGGTTATTCCCGCACTGAAACAAATTAGAGAAATTTGTAGTTTGTTTGGTGAAGCGCCTCAAAATTTGAGTCAAACTCAGCGAAGTCCCCATGTGTTTTATCGCCATGACTTAATCAATCAACTTCAACACAATCATGCCCTAGTTACTTTGGTAGCAGAAAACCTTGCAACTTACATGGAAAGCATGAGACTATATGCTAGAGACCATGAAGATTATGACCCACAAACTGTGAGGCTGGGAAGTAGATATAGTCATGTTCAAGAAGTTCAAGAACGGCTTAACTTCCTTAGATTTTTATTGAAGGATGGTCAGCTGTGGCTATGTGCTCCTCAGGCAAAACAAATATGGAAATGCTTAGCTGAGAATGCAGTTTACCTTTGTGATCGTGAAGCCTGTTTTAAGTGGTATTCCAAGTTGATGGGGGATGAACCAGACTTAGATCCTGATATTAATAAGGACTTCTTTGAAAGTAATGTGCTTCAGCTTGATCCTTCTCTGTTAACTGAAAATGGAATGAAGTGTTTTGAGCGATTCTTCAAAGCTGTGAATTGTCGAGAAGGAAAACTAGTAGCAAAAAGGAGAGCCTATATGATGGATGACTTGGAGTTAATAGGATTAGATTACCTTTGGAGGGTCGTGATTCAGAGTAATGATGATATTGCCAGCAGAGCTATAGATCTCCTCAAAGAGATATACACGAACCTTGGTCCAAGACTACAAGTCAATCAGGTGGTGATCCATGAAGACTTCATTCAGTCTTGTTTTGATCGTCTGAAGGCTTCCTATGACACATTGTGTGTTTTGGATGGTGACAAAGACAGTGTTAATTGTGCAAGACAGGAAGCTGTTCGAATGGTTCGAGTATTAACTGTTTTAAGGGAATATATAAATGAATGTGACAGTGATTATCATGAGGAAAGAACAATTCTCCCTATGTCGAGAGCATTCCGCGGTAAACACCTCTCTTTTGTAGTTCGATTTCCAAACCAGGGCAGACAGGTTGATGACTTGGAGGTATGGTCTCATACAAATGATACAATTGGTTCAGTACGACGATGTATTCTCAATCGTATTAAAGCCAACGTAGCCCATACAAAAATTGAGCTCTTTGTGGGCGGTGAGCTGATAGATCCTGCAGATGATAGAAAGTTGATTGGACAATTAAACTTAAAAGATAAATCGCTTATTACAGCCAAACTTACACAGATAAGTTCCAATATGCCTTCAAGCCCTGATAGCTCTTCTGATTCCTCCACTGGATCTCCTGGAAACCATGGTAATCATTACAGTGATGGTCCCAATCCAGAAGTGGAAAGCTGTTTGCCTGGAGTGATAATGTCACTGCATCCCAGATACATCTCTTTTCTTTGGCAAGTTGCAGACTTAGGTAGCAGCCTAAATATGCCACCCCTTAGAGATGGAGCAAGAGTACTTATGAAACTTATGCCGCCAGATAGCACAACGATAGAAAAATTAAGAGCTATTTGTTTAGACCATGCCAAACTTGGAGAAAGCAGCCTTAGTCCATCTCTTGACTCACTTTTCTTTGGTCCTTCAGCCTCACAAGTGCTATATCTAACAGAGGTAGTCTATGCCTTGTTAATGCCTGCTGGTGCACCTCTGGCTGATGATTCCTCTGATTTTCAGTTTCACTTCTTGAAAAGTGGTGGCCTACCCCTTGTACTGAGTATGCTAACCAGAAATAACTTCCTACCGAATGCAGATATGGAAACTCGAAGGGGTGCCTACCTCAATGCTCTTAAAATAGCCAAGCTTTTGCTAACTGCCATTGGCTATGGTCATGTTCGAGCTGTGGCAGAAGCTTGTCAGCCAGGTGTAGAAGGTGTGAATCCCATGACACAGATCAACCAAGTTACCCATGATCAAGCAGTGGTGCTACAAAGTGCCCTTCAGAGCATTCCTAATCCATCATCCGAGTGCATGCTTAGAAATGTGTCAGTTCGTCTTGCTCAGCAGATATCTGATGAGGCTTCAAGATATATGCCTGATATTTGTGTAATTAGAGCTATACAAAAAATTATCTGGGCATCAGGATGTGGGTCGTTACAGCTAGTATTTAGCCCAAATGAAGAAATCACTAAAATTTATGAGAAGACCAATGCAGGCAATGAGCCAGACTTGGAAGACGAACAGGTTTGCTGTGAAGCATTGGAAGTGATGACCTTATGTTTTGCCTTGATTCCAACAGCCTTAGATGCTCTTAGTAAAGAAAAGGCTTGGCAGACATTCATCATTGACTTACTATTGCACTGTCACAGCAAAACTGTTCGTCAGGTGGCACAGGAGCAGTTCTTTTTAATGTGCACCAGATGTTGCATGGGACACCGGCCTCTACTTTTCTTCATTACTCTACTCTTTACTGTTTTGGGGAGCACAGCAAGAGAGAGAGCTAAACACTCAGGCGACTACTTTACTCTTTTAAGACACCTTCTTAATTACGCTTACAATAGTAATATTAATGTACCCAATGCTGAAGTTCTTCTCAATAATGAAATTGATTGGCTTAAAAGAATTAGGGATGATGTTAAAAGAACAGGAGAAACGGGTATTGAAGAGACGATCTTAGAGGGCCACCTTGGAGTGACAAAGGAGTTACTGGCCTTTCAAACTTCTGAGAAAAAATTTCATATTGGTTGTGAAAAAGGAGGTGCTAATCTCATTAAAGAATTAATTGATGATTTCATATTTCCTGCATCCAATGTTTACCTACAGTATATGAGAAATGGAGAGCTTCCAGCTGAACAGGCTATTCCGGTCTGTGGTTCACCACCTACAATTAATGCTGGTTTTGAATTACTTGTAGCATTAGCTGTTGGCTGTGTGAGGAATCTCAAACAAATAGTAGATTCTTTGACTGAAATGTATTACATTGGCACAGCAATAACTACTTGTGAAGCACTTACTGAGTGGGAATATCTGCCACCTGTTGGACCCCGCCCACCCAAAGGATTCGTGGGGCTGAAAAATGCCGGTGCTACTGCTTACATGAATTCTGTGATTCAGCAACTCTACATGATTCCTTCCATTAGGAACGGTATTCTTGCCATTGAAGGCACAGGTAGTGATGTAGATGATGATATGTCTGGGGATGAGAAGCAGGACAATGAGAGCAATGTTGATCCCAGGGATGATGTATTTGGATATCCTCAACAATTTGAAGATAAACCAGCATTAAGTAAAACTGAAGGTAGAAAAGAGTACAACATTGGTGTCCTAAGACACCTTCAGGTCATCTTTGGTCATTTAGCTGCTTCTCGACTGCAATACTATGTGCCCAGAGGATTTTGGAAACAGTTCAGGCTTTGGGGTGAGCCTGTTAATCTGCGTGAACAACACGATGCTTTAGAATTTTTTAATTCATTGGTGGATAGTTTAGATGAAGCTTTAAAAGCTTTAGGACATCCAGCTATGCTAAGTAAAGTCTTAGGAGGTTCCTTTGCTGATCAGAAGATCTGCCAAGGCTGCCCACATAGGTACGAATGTGAAGAATCTTTTACGACCCTAAACGTAGACATTAGAAATCACCAAAATCTTCTTGATTCTTTGGAACAGTATGTCAAAGGAGATTTACTAGAAGGTGCAAATGCATATCATTGTGAAAAATGCAATAAAAAGGTTGATACCGTAAAGCGCTTGCTGATTAAAAAATTACCTCCTGTTCTTGCTATACAACTAAAGCGATTTGACTATGACTGGGAAAGAGAATGTGCAATCAAGTTCAATGATTATTTTGAATTTCCTCGAGAGCTGGACATGGAACCTTACACAGTTGCAGGTGTCGCAAAGCTGGAAGGGGATAATGTAAACCCAGAGAGTCAGTTGATACAACAGAGTGAGCAGTCTGAAAGTGAGACAGCAGGAAGCACAAAATACAGACTTGTGGGTGTGCTCGTACACAGTGGTCAAGCGAGTGGGGGGCATTATTATTCTTACATCATCCAAAGGAATGGTGGAGATGGTGAGAGAAATCGCTGGTATAAATTTGATGATGGTGATGTAACAGAATGTAAAATGGATGATGACGAAGAAATGAAAAACCAGTGTTTTGGTGGAGAGTACATGGGAGAAGTGTTTGATCACATGATGAAGCGTATGTCATACAGGCGCCAGAAAAGGTGGTGGAATGCTTATATACTTTTTTATGAACGAATGGACACAATAGACCAAGATGATGAGTTGATAAGATATATATCAGAGCTTGCTATCACCACCAGACCTCATCAGATTATTATGCCATCAGCCATTGAGAGAAGTGTACGGAAACAGAACGTACAATTCATGCATAACCGAATGCAGTACAGTATGGAGTATTTTCAGTTTATGAAAAAACTGCTTACATGTAATGGCGTTTACTTAAACCCTCCTCCCGGGCAAGATCACCTGTTGCCTGAAGCAGAAGAAATCACTATGATCAGTATTCAACTTGCTGCTAGATTCCTCTTTACTACAGGATTTCACACAAAGAAAGTAGTCCGTGGCTCTGCCAGTGATTGGTATGATGCATTGTGTATTCTCCTTCGTCACAGCAAGAATGTACGTTTTTGGTTTGCTCATAACGTCCTTTTTAATGTTTCAAATCGCTTCTCCGAATACCTTCTGGAGTGCCCTAGTGCAGAAGTGAGGGGTGCGTTTGCAAAACTTATAGTCTTTATTGCACATTTTTCCTTGCAAGATGGGCCATGTCCTTCACCTTTTGCCTCTCCTGGACCTTCTAGTCAGGCTTATGACAACTTAAGCTTGAGTGATCACTTACTAAGAGCAGTACTAAATCTCTTGAGAAGGGAAGTTTCAGAGCATGGGCGTCATTTACAGCAGTATTTCAACCTGTTTGTAATGTATGCCAATTTAGGTGTGGCAGAGAAGACACAGCTTCTGAAATTGAGTGTACCTGCTACTTTTATGCTTGTGTCTTTAGATGAAGGTCCAGGTCCTCCAATCAAATACCAGTATGCTGAATTAGGCAAATTATACTCAGTAGTGTCACAGCTGATCCGCTGTTGCAATGTCTCTTCAAGAATGCAGTCTTCAATCAATGGTAATCCTCCTCTTCCCAATCCTTTTGGTGATCCTAATTTATCACAACCTATAATGCCAATTCAGCAGAATGTGGCAGACATTTTATTTGTGAGAACAAGTTATGTGAAGAAAATCATTGAAGACTGCAGTAATTCAGAGGAAACCGTCAAATTGCTTCGTTTTTGCTGCTGGGAGAATCCTCAGTTCTCATCTACTGTCCTCAGTGAACTTCTCTGGCAGGTTGCATATTCCTATACCTATGAACTGCGGCCCTATTTGGATCTGCTTTTGCAAATCTTACTGATTGGGGACTCCTGGCAAACTCACAGGATTCATAATGCACTGAAAGGAATTCCAGATGACCGAGATGGGCTGTTTGACACAATCCAGCGCTCTAAGAATCACTATCAAAAAAGAGCATACCAGTGTATAAAATGTATGGTAGCTCTATTTAGTAACTGTCCTGTTGCTTACCAAATCCTGCAGGGCAATGGAGATCTTAAAAGAAAGTGGACCTGGGCAGTGGAATGGCTTGGAGATGAACTTGAAAGAAGACCATATACTGGCAATCCTCAGTACACTTACAACAATTGGTCTCCCCCAGTGCAAAGCAATGAAACGTCCAATGGTTATTTCTTGGAGAGATCACATAGTGCTAGGATGACACTTGCAAAAGCTTGTGAACTCTGTCCAGAGGAGGAGCCAGATGACCAAGATGCTCCAGATGAACATGAGTCGCCTCCACCTGAAGATGCCCCATTGTACCCCCATTCACCTGGATCTCAGTATCAACAGAATAACCATGTGCATGGACAGCCATATACAGGCCCAGCAGCACATCACATGAACAACCCTCAGAGAACTGGCCAACGAGCACAAGAAAATTATGAAGGCAGTGAAGAAGTATCCCCACCTCAAACCAAGGATCAATGAGCGGCCGC

Amino Acid Sequence
MYPYDVPDYAGSPEFALMTATTRGSPVGGNDNQGQAPDGQSQPPLQQNQT
SSPDSSNENSPATPPDEQGQGDAPPQLEDEEPAFPHTDLAKLDDMINRPR
WVVPVLPKGELEVLLEAAIDLSKKGLDVKSEACQRFFRDGLTISFTKILT
DEAVSGWKFEIHRCIINNTHRLVELCVAKLSQDWFPLLELLAMALNPHCK
FHIYNGTRPCESVSSSVQLPEDELFARSPDPRSPKGWLVDLLNKFGTLNG
FQILHDRFINGSALNVQIIAALIKPFGQCYEFLTLHTVKKYFLPIIEMVP
QFLENLTDEELKKEAKNEAKNDALSMIIKSLKNLASRVPGQEETVKNLEI
FRLKMILRLLQISSFNGKMNALNEVNKVISSVSYYTHRHGNPEEEEWLTA
ERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDN
IWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQLDHLFDCFKASWTNASKKQ
REKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHI
KILDYSCSQDRDTQKIQWIDRFIEELRTNDKWVIPALKQIREICSLFGEA
PQNLSQTQRSPHVFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARD
HEDYDPQTVRLGSRYSHVQEVQERLNFLRFLLKDGQLWLCAPQAKQIWKC
LAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLT
ENGMKCFERFFKAVNCREGKLVAKRRAYMMDDLELIGLDYLWRVVIQSND
DIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCVL
DGDKDSVNCARQEAVRMVRVLTVLREYINECDSDYHEERTILPMSRAFRG
KHLSFVVRFPNQGRQVDDLEVWSHTNDTIGSVRRCILNRIKANVAHTKIE
LFVGGELIDPADDRKLIGQLNLKDKSLITAKLTQISSNMPSSPDSSSDSS
TGSPGNHGNHYSDGPNPEVESCLPGVIMSLHPRYISFLWQVADLGSSLNM
PPLRDGARVLMKLMPPDSTTIEKLRAICLDHAKLGESSLSPSLDSLFFGP
SASQVLYLTEVVYALLMPAGAPLADDSSDFQFHFLKSGGLPLVLSMLTRN
NFLPNADMETRRGAYLNALKIAKLLLTAIGYGHVRAVAEACQPGVEGVNP
MTQINQVTHDQAVVLQSALQSIPNPSSECMLRNVSVRLAQQISDEASRYM
PDICVIRAIQKIIWASGCGSLQLVFSPNEEITKIYEKTNAGNEPDLEDEQ
VCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQ
EQFFLMCTRCCMGHRPLLFFITLLFTVLGSTARERAKHSGDYFTLLRHLL
NYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGV
TKELLAFQTSEKKFHIGCEKGGANLIKELIDDFIFPASNVYLQYMRNGEL
PAEQAIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAI
TTCEALTEWEYLPPVGPRPPKGFVGLKNAGATAYMNSVIQQLYMIPSIRN
GILAIEGTGSDVDDDMSGDEKQDNESNVDPRDDVFGYPQQFEDKPALSKT
EGRKEYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQ
HDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYEC
EESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKR
LLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVA
KLEGDNVNPESQLIQQSEQSESETAGSTKYRLVGVLVHSGQASGGHYYSY
IIQRNGGDGERNRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHM
MKRMSYRRQKRWWNAYILFYERMDTIDQDDELIRYISELAITTRPHQIIM
PSAIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHL
LPEAEEITMISIQLAARFLFTTGFHTKKVVRGSASDWYDALCILLRHSKN
VRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPC
PSPFASPGPSSQAYDNLSLSDHLLRAVLNLLRREVSEHGRHLQQYFNLFV
MYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVS
QLIRCCNVSSRMQSSINGNPPLPNPFGDPNLSQPIMPIQQNVADILFVRT
SYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYEL
RPYLDLLLQILLIGDSWQTHRIHNALKGIPDDRDGLFDTIQRSKNHYQKR
AYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERRPYTG
NPQYTYNNWSPPVQSNETSNGYFLERSHSARMTLAKACELCPEEEPDDQD
APDEHESPPPEDAPLYPHSPGSQYQQNNHVHGQPYTGPAAHHMNNPQRTG
QRAQENYEGSEEVSPPQTKDQ*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU10685
Location
PPU
MTA
Notes
Changes compared to NCBI Acc. NM_001039591.2 GI:145309310:

t856c (silent)
a4904g (D1635G
g6150a (silent)
a7040g (E2347G
a7062g (silent)

(plus C1566S mutation)

All USP9X plasmids MUST be grown at 30 degrees C or less to prevent recombination.
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.