USP34 (NM_014709) Human Tagged ORF Clone
CAT#: RC211600
- TrueORF®
USP34 (Myc-DDK-tagged)-Human ubiquitin specific peptidase 34 (USP34)
ORF Plasmid: tGFP
Lentiviral Particles: DDK
"NM_014709" in other vectors (4)
USD 198.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | Myc-DDK |
Symbol | USP34 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RC211600 representing NM_014709
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGTGCGAGAACTGCGCAGACCTGGTGGAGGTGTTAAATGAAATATCAGATGTAGAAGGTGGTGATGGAC TGCAGCTCAGAAAGGAACATACTCTCAAAATATTTACTTATATCAATTCCTGGACACAGAGGCAATGTCT ATGCTGCTTCAAGGAATATAAGCATTTGGAGATTTTTAATCAAGTAGTGTGTGCACTTATTAACTTAGTG ATTGCCCAAGTTCAAGTGCTCCGGGACCAGCTTTGTAAACATTGTACTACCATTAACATAGATTCCACGT GGCAAGATGAGAGTAATCAAGCAGAAGAACCACTGAATATAGATAGAGAGTGTAATGAAGGAAGTACAGA AAGACAAAAATCAATAGAAAAAAAATCAAACTCTACAAGAATTTGTAATCTGACTGAGGAGGAATCTTCA AAGAGTTCTGATCCTTTTAGTTTATGGAGTACAGATGAGAAGGAAAAACTCTTACTATGTGTGGCAAAAA TTTTTCAAATTCAGTTTCCCTTATATACTGCTTACAAGCATAATACTCACCCTACTATTGAGGATATATC AACTCAAGAAAGTAACATATTAGGGGCATTCTGTGATATGAATGATGTAGAAGTACCATTGCATTTGCTT CGTTATGTATGTTTGTTTTGTGGGAAAAATGGCCTTTCTCTCATGAAGGATTGCTTTGAATATGGAACTC CTGAAACTTTGCCATTTCTTATAGCACATGCGTTTATTACAGTTGTGTCTAATATTAGAATATGGCTACA TATTCCCGCTGTCATGCAGCACATTATACCTTTTAGGACCTATGTTATTAGGTATTTATGCAAGCTCTCG GATCAGGAGTTACGACAGAGTGCAGCTCGTAACATGGCTGACTTAATGTGGAGCACAGTCAAAGAACCAT TGGATACAACATTATGCTTTGATAAAGAAAGCCTAGATCTTGCATTTAAGTACTTTATGTCACCTACTTT GACTATGAGGTTGGCTGGATTGAGTCAGATAACAAATCAACTCCATACCTTCAATGATGTGTGCAATAAT GAATCATTAGTATCGGACACAGAAACGTCCATTGCAAAAGAACTTGCAGACTGGCTTATTAGCAACAATG TGGTGGAGCATATATTTGGACCAAATTTACATATTGAGATTATCAAACAGTGCCAAGTGATTTTGAATTT TTTGGCAGCAGAAGGGCGACTGAGTACTCAACATATTGACTGTATTTGGGCTGCAGCACAGTTGAAACAT TGTAGTCGGTATATACATGACTTATTTCCTTCACTCATCAAGAATTTGGATCCCGTACCACTTAGACATC TACTTAATCTGGTCTCAGCTCTTGAGCCAAGTGTTCATACTGAACAGACACTGTACTTGGCATCCATGTT AATTAAAGCACTGTGGAATAACGCACTAGCAGCTAAGGCTCAGTTATCTAAACAGAGTTCTTTTGCATCT TTATTAAATACTAATATTCCCATTGGAAATAAGAAAGAGGAAGAAGAGCTTAGAAGAACAGCTCCATCAC CTTGGTCACCTGCAGCTAGTCCTCAAAGCAGTGATAATAGCGATACACATCAAAGTGGAGGTAGTGACAT TGAAATGGATGAGCAACTTATTAATAGAACCAAACATGTGCAACAACGACTTTCAGACACAGAGGAATCC ATGCAGGGAAGTTCTGACGAAACTGCCAACAGTGGTGAAGATGGAAGCAGTGGTCCTGGTAGCAGTAGTG GGCATAGTGATGGATCTAGCAATGAGGTTAATTCTAGCCACGCAAGCCAGTCAGCTGGGAGCCCTGGCAG TGAGGTACAGTCAGAAGACATTGCAGATATTGAAGCCCTCAAAGAGGAAGATGAAGACGATGATCATGGT CATAATCCTCCCAAAAGCAGTTGTGGTACAGATCTTCGGAATAGAAAGTTAGAGAGTCAAGCAGGCATTT GCCTGGGGGACTCCCAAGGCACGTCAGAAAGAAATGGGACAAGCAGCGGAACAGGAAAGGACCTGGTTTT TAACACTGAATCATTGCCATCAGTAGATAATCGAATGCGAATGCTGGATGCTTGTTCACACTCTGAAGAC CCAGAACATGATATTTCAGGGGAAATGAATGCTACTCATATAGCACAAGGGTCTCAGGAGTCTTGTATCA CACGAACTGGGGACTTCCTTGGGGAGACTATTGGGAATGAATTATTTAATTGTCGACAATTTATTGGTCC ACAGCATCACCACCACCACCACCACCATCACCACCACCACGATGGGCATATGGTTGATGATATGCTAAGT GCAGATGATGTCAGTTGTAGTAGCTCCCAGGTTAGTGCAAAATCAGAAAAAAATATGGCTGATTTTGATG GTGAAGAATCTGGATGTGAAGAGGAGCTAGTTCAGATTAATTCACATGCGGAACTGACATCTCACCTCCA ACAACATCTTCCCAATTTAGCTTCCATTTACCATGAACATCTTAGTCAAGGACCTGTAGTTCATAAACAT CAATTCAACAGTAATGCTGTTACAGACATTAATTTGGATAATGTTTGCAAGAAAGGAAATACTTTGTTGT GGGATATAGTCCAAGATGAAGATGCAGTTAATCTTTCTGAAGGATTAATAAATGAAGCAGAGAAACTTCT TTGTTCGTTAGTATGTTGGTTTACAGATAGACAAATTCGAATGAGATTCATTGAAGGTTGCCTTGAAAAC TTGGGAAACAACAGATCAGTAGTAATTTCACTTCGTCTTCTTCCAAAACTATTTGGTACTTTTCAGCAGT TTGGGAGCAGTTACGATACACACTGGATAACAATGTGGGCAGAAAAAGAACTGAACATGATGAAGCTTTT CTTTGATAATTTGGTATACTACATTCAAACTGTGAGAGAAGGAAGACAAAAACATGCACTGTACAGCCAT AGTGCTGAAGTTCAAGTTCGTCTTCAATTCTTGACTTGTGTATTTTCAACTCTGGGATCACCTGATCATT TCAGGTTAAGTTTAGAGCAAGTTGACATCTTATGGCATTGTTTAGTAGAAGATTCTGAATGTTATGATGA TGCACTCCATTGGTTTTTAAATCAAGTTCGAAGTAAAGATCAACATGCTATGGGTATGGAAACCTACAAA CATCTTTTCCTGGAGAAGATGCCCCAGCTAAAACCTGAAACAATTAGCATGACTGGCTTAAACCTGTTTC AGCATCTCTGTAACTTGGCTCGATTGGCTACCAGTGCCTATGATGGTTGTTCAAATTCTGAGCTGTGTGG TATGGACCAATTTTGGGGCATTGCTTTAAGAGCACAATCTGGTGATGTCAGTCGAGCAGCTATCCAGTAT ATTAACTCCTATTATATTAATGGTAAAACAGGTTTGGAGAAGGAGCAAGAATTTATTAGTAAGTGCATGG AGAGTCTTATGATAGCTTCTAGCAGTCTTGAACAGGAATCACACTCAAGTCTCATGGTTATAGAAAGAGG ACTCCTTATGCTGAAGACACATCTGGAAGCGTTTAGGAGAAGGTTTGCATATCATCTGAGACAGTGGCAA ATTGAAGGCACTGGTATTAGTAGTCATTTGAAAGCACTGAGTGACAAACAGTCTCTGCCGCTAAGGGTTG TATGCCAGCCAGCTGGACTTCCTGACAAGATGACTATTGAAATGTATCCTAGTGACCAGGTAGCAGATCT TAGGGCTGAAGTAACTCATTGGTATGAAAATTTACAGAAAGAACAAATAAATCAACAAGCTCAGCTTCAG GAGTTTGGTCAAAGCAACCGAAAAGGAGAGTTTCCTGGAGGCCTCATGGGACCTGTCAGGATGATTTCAT CTGGACACGAGTTAACAACAGATTATGATGAAAAAGCACTTCATGAGCTTGGTTTTAAGGATATGCAGAT GGTATTTGTATCTTTGGGTGCACCAAGGAGAGAGCGGAAAGGGGAAGGTGTTCAGCTGCCAGCATCTTGC CTCCCACCCCCTCAGAAGGACAACATTCCAATGCTTTTGCTTTTACAAGAGCCTCATTTAACTACTCTTT TTGATTTATTAGAGATGCTTGCATCATTTAAACCACCCTCAGGAAAAGTGGCAGTGGATGATAGTGAGAG CTTACGATGTGAAGAACTTCATCTTCATGCAGAAAATCTGTCTAGGCGGGTCTGGGAGCTACTGATGCTT CTTCCTACATGTCCTAATATGTTGATGGCATTCCAGAATATCTCAGATGAGCAGAGTAATGATGGATTTA ATTGGAAAGAACTTCTCAAAATTAAGAGCGCCCACAAGCTATTGTATGCTCTGGAAATTATTGAAGCACT GGGAAAACCTAATAGAAGAATAAGGAGGGAGTCTACGGGAAGTTACAGTGATCTTTATCCAGATTCAGAT GATTCAAGTGAGGATCAAGTGGAAAATAGTAAAAATTCCTGGAGTTGCAAGTTTGTTGCTGCTGGAGGGC TTCAACAGTTATTAGAAATTTTTAATTCTGGAATTCTAGAGCCTAAAGAGCAGGAATCATGGACTGTGTG GCAGCTAGACTGTCTTGCTTGCTTGCTGAAGTTAATATGCCAGTTTGCAGTAGATCCATCCGATTTGGAT TTAGCTTATCATGATGTCTTTGCCTGGTCTGGTATAGCGGAAAGCCATAGGAAAAGAACCTGGCCTGGCA AATCAAGGAAGGCTGCTGGTGATCATGCTAAGGGTCTTCATATACCACGATTAACAGAGGTATTTCTTGT TCTTGTCCAAGGAACCAGTTTGATTCAGCGACTTATGTCTGTTGCTTATACGTATGATAATCTGGCTCCT AGAGTTTTAAAAGCTCAGTCTGATCACAGGTCTAGACATGAAGTTTCACATTATTCAATGTGGCTCTTGG TGAGTTGGGCTCATTGCTGTTCTTTAGTGAAATCTAGCCTTGCTGATAGCGATCATTTACAAGATTGGCT AAAGAAATTGACTCTCCTTATTCCTGAGACTGCAGTTCGTCATGAATCATGCAGTGGTCTCTATAAGTTA TCCCTGTCAGGGCTGGATGGAGGAGACTCAATCAATCGTTCTTTTCTGCTATTGGCTGCCTCAACATTAT TGAAATTTCTTCCTGATGCTCAAGCACTCAAACCTATTAGGATAGATGATTATGAGGAAGAACCAATATT AAAACCAGGATGTAAAGAGTATTTTTGGTTGTTATGCAAATTAGTTGACAACATACATATAAAGGACGCT AGTCAGACAACGCTCCTCGACTTAGATGCCTTGGCAAGACATTTGGCTGACTGTATTCGAAGTAGGGAGA TCCTTGATCATCAGGATGGTAATGTAGAAGATGATGGGCTTACAGGACTCCTAAGGCTTGCAACAAGTGT TGTTAAACACAAACCACCCTTTAAATTTTCAAGGGAAGGACAGGAATTTTTGAGAGATATCTTCAATCTC CTGTTTTTGTTGCCAAGTCTAAAGGACCGACAACAGCCAAAGTGCAAATCACATTCTTCAAGAGCTGCCG CTTACGATTTGTTAGTAGAGATGGTAAAGGGGTCTGTTGAGAACTACAGGCTAATACACAACTGGGTTAT GGCACAACACATGCAGTCCCATGCACCTTATAAATGGGATTACTGGCCTCATGAAGATGTCCGTGCTGAA TGTAGATTTGTTGGCCTTACTAACCTTGGAGCTACTTGTTACTTAGCTTCTACTATTCAGCAACTTTATA TGATACCTGAGGCAAGACAGGCTGTCTTCACTGCCAAGTATTCAGAGGATATGAAGCACAAGACCACTCT TCTGGAGCTTCAGAAAATGTTTACATATTTAATGGAGAGTGAATGCAAAGCATATAATCCTAGACCTTTC TGTAAAACATACACCATGGATAAGCAGCCTCTGAATACTGGGGAACAGAAAGATATGACAGAGTTTTTTA CTGATCTAATTACCAAAATCGAAGAAATGTCTCCCGAACTGAAAAATACCGTCAAAAGTTTATTTGGAGG TGTAATTACAAACAATGTTGTATCCTTGGATTGTGAACATGTTAGTCAAACTGCTGAAGAGTTTTATACT GTGAGGTGCCAAGTGGCTGATATGAAGAACATTTATGAATCTCTTGATGAAGTTACTATAAAAGACACTT TGGAAGGTGATAACATGTATACTTGTTCTCATTGTGGGAAGAAAGTACGAGCTGAAAAAAGGGCATGTTT TAAGAAATTGCCTCGCATTTTGAGTTTCAATACTATGAGATACACATTTAATATGGTCACGATGATGAAA GAGAAAGTGAATACACACTTTTCCTTCCCATTACGTTTGGACATGACGCCCTATACAGAAGATTTTCTTA TGGGAAAGAGTGAGAGGAAAGAAGGTTTTAAAGAAGTCAGTGATCATTCAAAAGACTCAGAGAGCTATGA ATATGACTTGATAGGAGTGACTGTTCACACAGGAACGGCAGATGGTGGACACTATTATAGCTTTATCAGA GATATAGTAAATCCCCATGCTTATAAAAACAATAAATGGTATCTTTTTAATGATGCTGAGGTAAAACCTT TTGATTCTGCTCAACTTGCATCTGAATGTTTTGGTGGAGAGATGACGACCAAGACCTATGATTCTGTTAC AGATAAATTTATGGACTTCTCTTTTGAAAAGACACACAGTGCATATATGCTGTTTTACAAACGCATGGAA CCAGAGGAAGAAAATGGCAGAGAATACAAATTTGATGTTTCGTCAGAGTTACTAGAGTGGATTTGGCATG ATAACATGCAGTTTCTTCAAGACAAAAACATTTTTGAACATACATATTTTGGATTTATGTGGCAATTGTG TAGTTGTATTCCCAGTACATTACCAGATCCTAAAGCTGTGTCCTTAATGACAGCAAAGTTAAGCACTTCC TTTGTCCTAGAGACATTTATTCATTCTAAAGAAAAGCCCACGATGCTTCAGTGGATTGAACTGTTGACGA AACAGTTTAATAATAGTCAGGCAGCTTGTGAGTGGTTTTTAGATCGTATGGCTGATGACGACTGGTGGCC AATGCAGATACTAATTAAGTGCCCTAATCAAATTGTGAGACAGATGTTTCAGCGTTTGTGTATCCATGTG ATTCAGAGGCTGAGACCTGTGCATGCTCATCTCTATTTGCAGCCAGGAATGGAAGATGGGTCAGATGATA TGGATACCTCAGTAGAAGATATTGGTGGTCGTTCATGTGTCACTCGCTTTGTGAGAACCCTGTTATTAAT TATGGAACATGGTGTAAAACCTCACAGTAAACATCTTACAGAGTATTTTGCCTTCCTTTACGAATTTGCA AAAATGGGTGAAGAAGAGAGCCAATTTTTGCTTTCATTGCAAGCTATATCTACAATGGTACATTTTTACA TGGGAACAAAAGGACCTGAAAATCCTCAAGTTGAAGTGTTATCAGAGGAAGAAGGGGAAGAAGAAGAGGA GGAAGAAGATATCCTCTCTCTGGCAGAAGAAAAATACAGGCCAGCTGCCCTTGAAAAGATGATAGCTTTA GTTGCTCTTTTGGTTGAACAGTCTCGATCAGAAAGGCATTTGACATTATCACAGACTGACATGGCAGCAT TAACAGGAGGAAAGGGATTTCCCTTCTTGTTTCAACATATTCGTGATGGCATCAATATAAGACAAACTTG TAATCTGATTTTCAGCCTGTGTCGATACAATAATCGACTTGCAGAACATATTGTATCTATGCTTTTCACA TCAATAGCAAAGTTGACTCCTGAGGCAGCCAATCCTTTCTTTAAGTTGTTGACTATGCTAATGGAGTTTG CTGGTGGACCTCCAGGAATGCCTCCCTTTGCATCTTATATTCTGCAGAGGATATGGGAGGTGATTGAATA CAATCCTTCTCAGTGTCTAGATTGGTTGGCAGTGCAGACACCCCGAAATAAACTGGCACACAGCTGGGTC TTACAGAATATGGAAAACTGGGTCGAGCGGTTTCTTTTGGCTCACAATTATCCTAGAGTGAGGACTTCTG CAGCTTATCTTCTGGTGTCCCTTATACCAAGCAATTCATTCCGTCAGATGTTCCGGTCAACAAGGTCTTT GCACATCCCAACCCGTGACCTTCCACTCAGTCCAGACACAACAGTAGTCCTACATCAGGTCTACAACGTG CTCCTTGGTTTGCTCTCAAGAGCCAAACTTTATGTTGATGCTGCTGTTCATGGCACTACAAAGCTAGTGC CCTATTTTAGCTTTATGACTTACTGTTTAATTTCCAAAACTGAGAAGCTGATGTTTTCCACATATTTCAT GGATTTGTGGAACCTTTTCCAGCCTAAACTTTCTGAGCCAGCAATAGCTACAAATCACAATAAACAGGCT TTGCTTTCATTTTGGTACAATGTCTGTGCTGACTGTCCAGAGAATATCCGCCTTATTGTTCAGAACCCAG TGGTAACCAAGAACATTGCCTTCAATTACATCCTTGCTGACCATGATGATCAGGATGTGGTGCTTTTTAA CCGTGGGATGCTGCCAGCGTACTATGGCATTCTGAGGCTCTGCTGTGAGCAGTCTCCTGCATTCACACGA CAACTGGCTTCTCACCAGAACATCCAGTGGGCCTTTAAGAATCTTACACCACATGCCAGCCAATACCCTG GAGCAGTAGAAGAACTGTTTAACCTGATGCAGCTGTTTATAGCTCAGAGGCCAGATATGAGAGAAGAAGA ATTAGAAGATATTAAACAGTTCAAGAAAACAACCATAAGTTGTTACTTACGTTGCTTAGATGGCCGCTCC TGCTGGACTACTTTAATAAGTGCCTTCAGAATACTATTAGAATCTGATGAAGACAGACTTCTTGTTGTAT TTAATCGAGGATTGATTCTAATGACAGAGTCTTTCAACACTTTGCACATGATGTATCACGAAGCTACAGC TTGCCATGTGACTGGAGATTTAGTAGAACTTCTGTCAATATTTCTTTCGGTTTTGAAGTCTACACGCCCT TATCTTCAGAGAAAAGATGTGAAACAAGCATTAATCCAGTGGCAGGAGCGAATTGAATTTGCCCATAAAC TGTTAACTCTTCTTAATTCCTATAGTCCTCCAGAACTTAGAAATGCCTGTATAGATGTCCTCAAGGAACT TGTACTTTTGAGTCCCCATGATTTTCTTCATACTCTGGTTCCCTTTCTACAACACAACCATTGTACTTAC CATCACAGTAATATACCAATGTCTCTTGGACCTTATTTCCCTTGTCGAGAAAATATCAAGCTAATAGGAG GGAAAAGCAATATTCGGCCTCCGCGCCCTGAACTCAATATGTGCCTCTTGCCCACAATGGTGGAAACCAG TAAGGGCAAAGATGACGTTTATGATCGTATGCTGCTAGACTACTTCTTTTCTTATCATCAGTTCATCCAT CTATTATGCCGAGTTGCAATCAACTGTGAAAAATTTACTGAAACATTAGTTAAGCTGAGTGTCCTAGTTG CCTATGAAGGTTTGCCACTTCATCTTGCACTGTTCCCCAAACTTTGGACTGAGCTATGCCAGACTCAGTC TGCTATGTCAAAAAACTGCATCAAGCTTTTGTGTGAAGATCCTGTTTTCGCAGAATATATTAAATGTATC CTAATGGATGAAAGAACTTTTTTAAACAACAACATTGTCTACACGTTCATGACACATTTCCTTCTAAAGG TTCAAAGTCAAGTGTTTTCTGAAGCAAACTGTGCCAATTTGATCAGCACTCTTATTACAAACTTGATAAG CCAGTATCAGAACCTACAGTCTGATTTCTCCAACCGAGTTGAAATTTCCAAAGCAAGTGCTTCTTTAAAT GGGGACCTGAGGGCACTCGCTTTGCTCCTGTCAGTACACACTCCCAAACAGTTAAACCCAGCTCTAATTC CAACTCTGCAAGAGCTTTTAAGCAAATGCAGGACTTGTCTGCAACAGAGAAACTCACTCCAAGAGCAAGA AGCCAAAGAAAGAAAAACTAAAGATGATGAAGGAGCAACTCCCATTAAAAGGCGGCGTGTTAGCAGTGAT GAGGAGCACACTGTAGACAGCTGCATCAGTGACATGAAAACAGAAACCAGGGAGGTCCTGACCCCAACGA GCACTTCTGACAATGAGACCAGAGACTCCTCAATTATTGATCCAGGAACTGAGCAAGATCTTCCTTCCCC TGAAAATAGTTCTGTTAAAGAATACCGAATGGAAGTTCCATCTTCGTTTTCAGAAGACATGTCAAATATC AGGTCACAGCATGCAGAAGAACAGTCCAACAATGGTAGATATGACGATTGTAAAGAATTTAAAGACCTCC ACTGTTCCAAGGATTCTACCCTAGCCGAGGAAGAATCTGAGTTCCCTTCTACTTCTATCTCTGCAGTTCT GTCTGACTTAGCTGACTTGAGAAGCTGTGATGGCCAAGCTTTGCCCTCCCAGGACCCTGAGGTTGCTTTA TCTCTCAGTTGTGGCCATTCCAGAGGACTCTTTAGTCATATGCAGCAACATGACATTTTAGATACCCTGT GTAGGACCATTGAATCTACAATCCATGTCGTCACAAGGATATCTGGCAAAGGAAACCAAGCTGCTTCT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >RC211600 representing NM_014709
Red=Cloning site Green=Tags(s) MCENCADLVEVLNEISDVEGGDGLQLRKEHTLKIFTYINSWTQRQCLCCFKEYKHLEIFNQVVCALINLV IAQVQVLRDQLCKHCTTINIDSTWQDESNQAEEPLNIDRECNEGSTERQKSIEKKSNSTRICNLTEEESS KSSDPFSLWSTDEKEKLLLCVAKIFQIQFPLYTAYKHNTHPTIEDISTQESNILGAFCDMNDVEVPLHLL RYVCLFCGKNGLSLMKDCFEYGTPETLPFLIAHAFITVVSNIRIWLHIPAVMQHIIPFRTYVIRYLCKLS DQELRQSAARNMADLMWSTVKEPLDTTLCFDKESLDLAFKYFMSPTLTMRLAGLSQITNQLHTFNDVCNN ESLVSDTETSIAKELADWLISNNVVEHIFGPNLHIEIIKQCQVILNFLAAEGRLSTQHIDCIWAAAQLKH CSRYIHDLFPSLIKNLDPVPLRHLLNLVSALEPSVHTEQTLYLASMLIKALWNNALAAKAQLSKQSSFAS LLNTNIPIGNKKEEEELRRTAPSPWSPAASPQSSDNSDTHQSGGSDIEMDEQLINRTKHVQQRLSDTEES MQGSSDETANSGEDGSSGPGSSSGHSDGSSNEVNSSHASQSAGSPGSEVQSEDIADIEALKEEDEDDDHG HNPPKSSCGTDLRNRKLESQAGICLGDSQGTSERNGTSSGTGKDLVFNTESLPSVDNRMRMLDACSHSED PEHDISGEMNATHIAQGSQESCITRTGDFLGETIGNELFNCRQFIGPQHHHHHHHHHHHHDGHMVDDMLS ADDVSCSSSQVSAKSEKNMADFDGEESGCEEELVQINSHAELTSHLQQHLPNLASIYHEHLSQGPVVHKH QFNSNAVTDINLDNVCKKGNTLLWDIVQDEDAVNLSEGLINEAEKLLCSLVCWFTDRQIRMRFIEGCLEN LGNNRSVVISLRLLPKLFGTFQQFGSSYDTHWITMWAEKELNMMKLFFDNLVYYIQTVREGRQKHALYSH SAEVQVRLQFLTCVFSTLGSPDHFRLSLEQVDILWHCLVEDSECYDDALHWFLNQVRSKDQHAMGMETYK HLFLEKMPQLKPETISMTGLNLFQHLCNLARLATSAYDGCSNSELCGMDQFWGIALRAQSGDVSRAAIQY INSYYINGKTGLEKEQEFISKCMESLMIASSSLEQESHSSLMVIERGLLMLKTHLEAFRRRFAYHLRQWQ IEGTGISSHLKALSDKQSLPLRVVCQPAGLPDKMTIEMYPSDQVADLRAEVTHWYENLQKEQINQQAQLQ EFGQSNRKGEFPGGLMGPVRMISSGHELTTDYDEKALHELGFKDMQMVFVSLGAPRRERKGEGVQLPASC LPPPQKDNIPMLLLLQEPHLTTLFDLLEMLASFKPPSGKVAVDDSESLRCEELHLHAENLSRRVWELLML LPTCPNMLMAFQNISDEQSNDGFNWKELLKIKSAHKLLYALEIIEALGKPNRRIRRESTGSYSDLYPDSD DSSEDQVENSKNSWSCKFVAAGGLQQLLEIFNSGILEPKEQESWTVWQLDCLACLLKLICQFAVDPSDLD LAYHDVFAWSGIAESHRKRTWPGKSRKAAGDHAKGLHIPRLTEVFLVLVQGTSLIQRLMSVAYTYDNLAP RVLKAQSDHRSRHEVSHYSMWLLVSWAHCCSLVKSSLADSDHLQDWLKKLTLLIPETAVRHESCSGLYKL SLSGLDGGDSINRSFLLLAASTLLKFLPDAQALKPIRIDDYEEEPILKPGCKEYFWLLCKLVDNIHIKDA SQTTLLDLDALARHLADCIRSREILDHQDGNVEDDGLTGLLRLATSVVKHKPPFKFSREGQEFLRDIFNL LFLLPSLKDRQQPKCKSHSSRAAAYDLLVEMVKGSVENYRLIHNWVMAQHMQSHAPYKWDYWPHEDVRAE CRFVGLTNLGATCYLASTIQQLYMIPEARQAVFTAKYSEDMKHKTTLLELQKMFTYLMESECKAYNPRPF CKTYTMDKQPLNTGEQKDMTEFFTDLITKIEEMSPELKNTVKSLFGGVITNNVVSLDCEHVSQTAEEFYT VRCQVADMKNIYESLDEVTIKDTLEGDNMYTCSHCGKKVRAEKRACFKKLPRILSFNTMRYTFNMVTMMK EKVNTHFSFPLRLDMTPYTEDFLMGKSERKEGFKEVSDHSKDSESYEYDLIGVTVHTGTADGGHYYSFIR DIVNPHAYKNNKWYLFNDAEVKPFDSAQLASECFGGEMTTKTYDSVTDKFMDFSFEKTHSAYMLFYKRME PEEENGREYKFDVSSELLEWIWHDNMQFLQDKNIFEHTYFGFMWQLCSCIPSTLPDPKAVSLMTAKLSTS FVLETFIHSKEKPTMLQWIELLTKQFNNSQAACEWFLDRMADDDWWPMQILIKCPNQIVRQMFQRLCIHV IQRLRPVHAHLYLQPGMEDGSDDMDTSVEDIGGRSCVTRFVRTLLLIMEHGVKPHSKHLTEYFAFLYEFA KMGEEESQFLLSLQAISTMVHFYMGTKGPENPQVEVLSEEEGEEEEEEEDILSLAEEKYRPAALEKMIAL VALLVEQSRSERHLTLSQTDMAALTGGKGFPFLFQHIRDGINIRQTCNLIFSLCRYNNRLAEHIVSMLFT SIAKLTPEAANPFFKLLTMLMEFAGGPPGMPPFASYILQRIWEVIEYNPSQCLDWLAVQTPRNKLAHSWV LQNMENWVERFLLAHNYPRVRTSAAYLLVSLIPSNSFRQMFRSTRSLHIPTRDLPLSPDTTVVLHQVYNV LLGLLSRAKLYVDAAVHGTTKLVPYFSFMTYCLISKTEKLMFSTYFMDLWNLFQPKLSEPAIATNHNKQA LLSFWYNVCADCPENIRLIVQNPVVTKNIAFNYILADHDDQDVVLFNRGMLPAYYGILRLCCEQSPAFTR QLASHQNIQWAFKNLTPHASQYPGAVEELFNLMQLFIAQRPDMREEELEDIKQFKKTTISCYLRCLDGRS CWTTLISAFRILLESDEDRLLVVFNRGLILMTESFNTLHMMYHEATACHVTGDLVELLSIFLSVLKSTRP YLQRKDVKQALIQWQERIEFAHKLLTLLNSYSPPELRNACIDVLKELVLLSPHDFLHTLVPFLQHNHCTY HHSNIPMSLGPYFPCRENIKLIGGKSNIRPPRPELNMCLLPTMVETSKGKDDVYDRMLLDYFFSYHQFIH LLCRVAINCEKFTETLVKLSVLVAYEGLPLHLALFPKLWTELCQTQSAMSKNCIKLLCEDPVFAEYIKCI LMDERTFLNNNIVYTFMTHFLLKVQSQVFSEANCANLISTLITNLISQYQNLQSDFSNRVEISKASASLN GDLRALALLLSVHTPKQLNPALIPTLQELLSKCRTCLQQRNSLQEQEAKERKTKDDEGATPIKRRRVSSD EEHTVDSCISDMKTETREVLTPTSTSDNETRDSSIIDPGTEQDLPSPENSSVKEYRMEVPSSFSEDMSNI RSQHAEEQSNNGRYDDCKEFKDLHCSKDSTLAEEESEFPSTSISAVLSDLADLRSCDGQALPSQDPEVAL SLSCGHSRGLFSHMQQHDILDTLCRTIESTIHVVTRISGKGNQAAS TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Chromatograms |
CHROMATOGRAMS
Sequencher program is needed, download here. |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_014709 |
ORF Size | 10638 bp |
OTI Disclaimer | Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
Reference Data | |
RefSeq | NM_014709.3, NP_055524.3 |
RefSeq Size | 11326 bp |
RefSeq ORF | 10641 bp |
Locus ID | 9736 |
UniProt ID | Q70CQ2 |
Cytogenetics | 2p15 |
Protein Families | Druggable Genome |
MW | 404.1 kDa |
Gene Summary | Ubiquitin hydrolase that can remove conjugated ubiquitin from AXIN1 and AXIN2, thereby acting as a regulator of Wnt signaling pathway. Acts as an activator of the Wnt signaling pathway downstream of the beta-catenin destruction complex by deubiquitinating and stabilizing AXIN1 and AXIN2, leading to promote nuclear accumulation of AXIN1 and AXIN2 and positively regulate beta-catenin (CTNBB1)-mediated transcription. Recognizes and hydrolyzes the peptide bond at the C-terminal Gly of ubiquitin. Involved in the processing of poly-ubiquitin precursors as well as that of ubiquitinated proteins.[UniProtKB/Swiss-Prot Function] |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC211600L1 | Lenti ORF clone of Human ubiquitin specific peptidase 34 (USP34), Myc-DDK-tagged |
USD 3,120.00 |
|
RG211600 | USP34 (tGFP-tagged) - Human ubiquitin specific peptidase 34 (USP34) |
USD 3,020.00 |
|
SC308917 | USP34 (untagged)-Human ubiquitin specific peptidase 34 (USP34) |
USD 2,700.00 |
|
SC318751 | USP34 (untagged)-Human ubiquitin specific peptidase 34 (USP34) |
USD 3,102.00 |
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