Usp24 (NM_183225) Mouse Tagged ORF Clone
CAT#: MR226420
- TrueORF®
Usp24 (Myc-DDK-tagged) - Mouse ubiquitin specific peptidase 24 (Usp24)
ORF Plasmid: tGFP
"NM_183225" in other vectors (2)
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CNY 19,000.00
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 2700066K03Rik; 2810030C21Rik; AI414051; B130021E18; C79851 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR226420 representing NM_183225
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGAATCGGAGGAGGAGCAGCACATGACCACGCTGCTGTGCATGGGCTTCTCGGACCCGGCCACCATCC GCAAGGCCCTGCGCCTGGCCAAGAACGACATCAACGAGGCCGTGGCGCTGCTCACCAACGAGCGGCCCGG CCTCGACTACGGTGGCTACGAGCCCATGGATAGCGGCGGCCCCAGTCCGGGGCCGGGCGGCGGCCCACGG GGCGACAGCGGCAGCGACGGCAGCGGGCCTTCCCGCGGCGGGAGCACCGGAGGTGGTGGCGGCTTCGATC CCCCGCCCGCCTACCACGAGGTGGTGGACGCGGAGAAGAACGATGAAAATGGAAATTGCTCAGGAGAAGG AATTGAATTTCCTACAACCAATTTGTATGAGCTGGAAAGCCGCGTTTTGACTGATCATTGGTCTATCCCG TACAAGAGAGAAGAGTCATTAGGCAAATGCCTGCTGGCTTCCACCTACTTAGCCAGACTTGGTCTTTCAG AGTCTGATGAGAATTGCAAAAGATTTATGGAGCGGTGTATGCCCGAGGCATTTAAGAAGCTCCTGACATC AAGTGCTGTTCACAAGTGGGGTACTGAAATTCATGAAGGAATCTACAACATGTTGATGCTACTAATAGAA TTGGTTGCAGAGAGGATGAAACAGGATCCAATTCCCATTGGTCTTCTAGGTGTGCTTACAATGGCTTTCA ATCCTGATAATGAATACCACTTTAAAAACAGAATGAAAGTGTCTCAGAGGAACTGGGCAGAGGTGTTTGG AGAGGGAAATATGTTTGCTATTTCACCTGTATCTACTTTCCAAAAGGAGCCTCATGGATGGGTGGTGGAC TTGGTAAATAAGTTTGGAGAATTAGGTGGATTTGCAGCAATCCAAGCCAAACTCCATTCAGAAGATATAG AACTTGGGGCCGTGTCAGCACTGGTGCAGCCCTTAGGGGTGTGTGCAGAGTACCTCAACTCCTCTGTGGT GCAGCCTATGCTAGACCCGGTCATCCTTACCACAATCCAGGACGTGCGGAGTGTAGAGGAGAAGGACCTC AAAGACAAGAGGCTGGTTAGCATCCCCGAGCTCTTGTCTGCCATTAAGTTGCTTTGCATGCGCTTCCAAC CGGCTCTGGTGACGACCGTGGACGCCCTTCGCCTGGACATCCTGCTGCGCATGCTCAAGTCACCACACTT CAGTGCGAAAATGAATTCCCTCAAGGAAGTAACAAAACTAATAGAAGATAGTACTCTATCCAAGTCTGTG AAGAATGCTATAGATACAGACAGATTACTAGATTGGCTAGTTGAAAATTCAGTTCTGTCAATTGCACTAG AAGGCAACATAGACCAAGCACAATACTGTGATCGAATAAAGGGAATTATTGAACTCTTGGGCAGTAAATT GTCACTAGATGAACTCACTAAAATTTGGAAGATACAATCAGGACAGTCATCTACAGTAATTGAGAACATT CATACAATTATTGCTGCGGCAGCTGTGAAGTTTAATGCAGACCAGCTTAATCATTTGTTCGTCCTTATTC AGAAGAGCTGGGAGACCGAGAGTGACAGAGTGAGACAGAAGTTGCTGAGTCTGATCGGACGAATCGGCCG GGAAGCTCGGTTTGAGGCCACTTCTGGAAAGGTGTTAGATGTCCTCTGGGAGCTGGCTCACCTTCCCACC TTGCCCAGCAGCCTCATTCAGCAGGCCTTGGAGGAGCACCTCACCATCCTCAGTGACGCGTACGCAGTGA AGGAGGCGGTCAAGAGGAGCTACATCATTAAATGCATAGAAGACATTAAAAGGCCTGGAGAATGGTCGAG TTTGGAGAAAAACAAGAAAGATGGATTTAAGTCATCTCAACTTAATAATCCGCAGTTTGTGTGGGTGGTT CCAGCTTTACGTCAGCTTCATGAAATCACTCGTTCATTTATAAAACAAACCTATCAAAAGCAAGACAAGA GCATTATTCAAGACCTGAAGAAAAATTTTGAAATAGTCAAACTGGTAACGGGAAGCTTACTGGCTTGTCA CCGACTTGCAGCAGCCGTGGCTGGGCCTGGAGGCTTAACCGGCTTAACATTGGTGGATGGCCGCTATACT TACCGGGAGTATTTAGAGGCACATCTGAAATTTCTGGCATTTTTCTTACAAGAAGCTACACTGTATCTTG GGTGGAACCGAGCCAAAGAAATTTGGGAGTGCCTTGTGACTGGCCAGGACGTCTGCGAGCTAGATAGAGA GATGTGCTTTGAGTGGTTTACAAAGGGGCAGCATGACCTGGAGAGTGACGTCCAGCAGCAGCTCTTCAAG GAGAAGATTCTGAAATTGGAGTCATATGAAATCACTATGAATGGTTTCAACTTATTTAAGACTTTTTTTG AAAATGTGAATCTCTGTGATCATCGGTTGAAAAGACAAGGAGCTCAGTTGTATGTAGAAAAGTTGGAGTT GGTAGGAATGGATTTCATTTGGAAAATTGCCATGGAATCACCTGATGAAGAAATTGCTAATGAAGCTATT CAATTAATCATAAACTACAGTTACATTAATCTAAACCCTAGGTTAAAGAAGGACTCAGTGTCTTTACATA AGAAATTCATTGCTGACTGCTATACAAGACTAGAAGCAGCCAGTTCAGCACTCGGTGGCCCCACTCTAAC ACATGCTGTGACCCGAGCAACCAAAATGCTCACTGCAACTGCCATGCCAACTGTAGCAACATCAGTTCAG TCTCCATATAGATCAACAAAACTTGTGATAATCGAGAGACTGCTGCTTCTGGCGGAGCGCTACGTGATCA CAATAGAGGACTTCTACTCTGTCCCACGAACTATTCTACCTCATGGTGCCTCATTTCATGGACATCTTTT AACTCTTAATGTTACCTACGAGTCTACCAAAGATACCTTCACTGTAGAGGCTCACAGTAATGAGACGATA GGCAGCGTCCGCTGGAAGATAGCCAAACAGCTGTGCTCTCCTGTGGACAACATACAGATATTTACGAACG ATAGTCTGCTGACTGTAAATAAAGATCAAAAGCTCCTCCACCAACTGGGGTTCTCTGATGAACAAGTTCT TACCGTGAAGACTTCTGGCAGTGGGACCCCCTCGGGGAGCTCTGCAGATTCCTCCACCAGCTCCAGCAGC AGCAGCAGTGGGGCCTTCAGTTCGTCCTACGCCATGGAACAGGAGAAATCTCTCCCTGGTGTGGTGATGG CACTTGTATGTAATGTGTTTGACATGCTGTACCAACTTGCCAACCTGGAGGAGCCAAGGATAACTCTACG AGTGCGGAAGCTTCTGCTCTTGATACCCACTGACCCAGCCATTCAGGAAGCCCTTGACCAGCTGGATTCT TTAGGCAGAAAGAAAACTTTGCTCTCTGAAACAAGCTCCCAGTCTTCAAAGTCTCCTTCGCTTTCGTCAA AGCAGCAGCATCAGCCAAGTGCCAGCTCCATCTTGGAAAGTTTGTTTCGATCTTTTGCTCCTGGCATGTC AACCTTCAGAGTGCTCTACAACTTGGAAGTCCTAAGCTCCAAACTCATGCCCACGGCTGATGACGACATG GCAAGAAGCTGCGCAAAGTCCTTCTGTGAGAACTTCCTCAAAGCTGGAGGCTTGAGTTTGGTTGTAAATG TCATGCAGAGAGATTCCATCCCATCAGAGGTGGACTATGAGACAAGGCAGGGTGTTTATTCTATCTGTCT ACAACTTGCAAGGTTTTTACTTGTTGGACAGACAATGCCAACATCATTAGATGAAGACCTCACCAAAGAT GGCATAGAAGCACTTTCTTCCCGTCCATTCCGAAATGTCAGCCGGCAGACGAGCAGACAGATGTCCCTAT GTGGGACCCCAGAGAAGTCGTCCTACAGACAGCTGTCAGTGTCAGACAGGTCTTCCATTAGGGTTGAGGA AATCATTCCCGCTGCTCGAGTTGCAATACAAACTATGGAAGCAAGTGATTTCACTGCCACCGTAGCTTGT TTCATGAGACTGTCATGGGCTGCAGCTGCAGGACGGCTTGACCTTGTCGGAAGTAGCCAGCCAATTAAAG AAAGCAATTCTCTGTTTCCTGCTGGGATCAGAAGTAGACTCAGCAGCTCAGGAAGCAATTGCAGCTCTAG CAGTGAAGGAGAGCCAGCAGCCCTGCATGCTGGGATCTGCGTCCGGCAGCAGTCTGTGTCCACCAAAGAT GCCCTGATTGCTGGAGAGGCTTTGTCTCTTCTTGTTACGTGCCTGCAGCTTCGGAGTCAGCAACTGGCGT CTTTCTACAGCTTACCATGTGTTGCTGATTTTATCATCGATATTCTGCTCGGATCACCAAGTGCTGAGAT CCGCCGGGTCGCCTGCGATCAGCTCTACACTCTTAGTCAAACAGACACTTCGGCCCATCCAGAAGTGCAG AAGCCAAATCAGTTCCTCCTAGGAGTCATTCTCACGGCCCAGCTGCCTCTCTGGTCCCCGACCAGTATCA TGAGAGGAGTCAATCAGAGACTACTGTCTCAATGTATGGAGTATTTTGATTTGCGGTGCCAGTTATTAGA TGATCTGACAACTTCTGAAATGGACCAGTTAAGAATCAGCCCCGCTACCATGCTTGAAGATGAGATTACA TGGCTGGATAACTTTGAACCTAATCGAACAGCAGACTGTGAGACTAGCGAAGCTGACAACATCCTATTGG CAGGACATTTGCGGCTCATTAAGACCCTGCTATCACTCTGTGGGGCAGAAAAGGAAATGCTTGGTTCATC ACTGATTAAGCCATTGTTAGATGACTTCCTTTTCCGAGCTTCTAGAATTATTGTAAATAGTCATTCTCCA GCCAGCAGTGCCGCCATCAGTCAGCAGGACTTTCATCCAAAGTGTAGTACAGTAAATAGCCGGTTGGCAG CCTATGAAGTTCTTGTGATGTTAGCTGACAGCTCACCTTCAAATCTTCAGATTATTACAAAAGAACTACT TTCAATGCATCATCAGCCTGACCCTGCTCTCACCAAGGAGTTTGATTACCTGCCCCCGGTGGATAGCAGG TCCAGCTCAGGGTTTGTGGGGCTGAGGAACGGTGGCGCTACTTGTTACATGAATGCGGTCTTCCAGCAGC TGTATATGCAGCCCGGGCTTCCGGAGTCACTGCTTTCAGTGGATGATGACACAGACAATCCAGATGACAG TGTGTTTTACCAAGTGCAGTCTCTCTTTGGGCATTTGATGGAGAGCAAGCTGCAGTATTATGTGCCTGAG AATTTCTGGAAGATCTTCAAGATGTGGAACAAGGAGCTCTATGTGAGGGAGCAGCAGGATGCATATGAGT TCTTCACTAGCCTCATTGATCAGATGGATGAGTATCTCAAGAAAATGGGACGAGAACAAATTTTTAAGAA TACTTTCCAAGGCATCTATTCTGATCAGAAGATCTGCAAAGATTGTCCTCACAGATATGAGCGTGAGGAA GCTTTCATGGCTCTCAATCTAGGAGTTACGTCTTGCCAAAGCTTGGAAATTTCTTTGGACCAGTTTGTTA GAGGTGAAGTTCTAGAAGGAAGTAATGCATACTACTGTGAAAAGTGTAAAGAGAAGAGAATAACAGTGAA GAGAACGTGCATTAAGTCTTTACCTAGTGTGTTGGTAATCCACCTGATGAGATTCGGCTTTGACTGGGAG AGCGGACGGTCCATTAAATACGATGAGCAAATACGGTTTCCTTGGATGCTAAATATGGAGCCTTACACAG TTGCAGGAATGGCTCGCCAGGATTCATCTTCTGAAGTTGGTGAAAATGGGAGGAATATGGATCAAGGAGG TGGAGGATCCCCACGGAAAAAAGTTGCCCTCACAGAAAACTATGAGCTTGTTGGTGTCATTGTGCACAGT GGGCAGGCCCATGCAGGCCATTACTATTCCTTCATTAAGGACAGGCGGGGGTGTGGAAAAGGAAAGTGGT ATAAATTTAATGACACCGTTATTGAAGAATTTGACCTAAATGATGAGACCCTGGAGTATGAATGCTTTGG AGGAGAATATAGACCAAAAGTTTATGATCAAACAAACCCATACACTGACGTCCGTCGAAGATACTGGAAT GCCTACATGCTCTTCTATCAAAGGGTGTCCGATCAGAACTCACCCGTGCTGCCAAAGAAAAGCCGAGTGA GCGTCGTAAGGCAGGAGGCTGAGGATCTCTCTCTGTCAGCTCCATCTTCACCTGAGATTTCACCTCAGTC CTCTCCTCGGCCCCACAGGCCTAATAATGACAGGCTGTCTATTCTAACCAAGCTGGTTAAAAAAGGTGAG AAGAAAGGACTGTTTGTGGAGAAAATGCCTGCTCGGATATACCAGATGGTGCGAGATGAAAACCTCAAGT TCATGAAGAACAGAGATGTGTACAGTAGTGACTACTTCAGTTTTGTTTTGTCCTTAGCTTCCTTGAATGC TACTAAATTAAAGCACCCATATTATCCTTGCATGGCAAAAGTGAGCTTGCAGCTTGCCATTCAATTCCTT TTCCAAACTTACCTACGGACAAAGAAAAAACTCAGGGTTGACACTGAAGAATGGATTGCTACTATTGAAG CATTACTTTCAAAAAGTTTGGATGCTTGTCAGTGGCTTGTTGAATATTTTATTAGCTCTGAAGGACGAGA ATTGGTAAAGGTTTTCTTGTTGGAGTGCAGTGTGAGAGAAGTACGAGTCGCTGTGGCCACCATTCTGGAG AAGACCTTAGACAGTGCCTTGTTTTATCAGGATAAGTTAAAAAGCCTTCATCAGTTATTGGAAGTCCTGC TTGCTCTTTTGGATAAAGATGTCCCAGAAAATTGTAAAAACTGTGCTCAGTACTTTTCTCTATTCAACAC TTTTGTACAAAAGCAAGGTATCAGGGCTGGAGACCTTCTTCTGCGGCACTCAGCACTGCGACACATGATC AGCTTCCTCCTTGGGGTCAGCCGACAGAACAGTCAGATACGCAGATGGAGTTCAGCACAAGCACGGGAGT TTGGGAATCTTCACAACACTGTTGCCCTGCTGGTCCTGCATTCGGATGTCTCTTCACAGAGGAATGTTGC TCCTGGAATATTTAAACAACGACCACCTATTAGTGTCGCTCCTTCCAGCCCTCTGCTGCCCCTCCATGAG GAAGTAGAAGCCTTGCTGTTCTTGTCGGAAGGGAAGCCTTATCTGTTAGAGGTCATGTTTGCTCTGCGAG AGCTCACTGGCTCCCTCCTGGCGCTCATGGAGATGGTGGTGTACTGCTGTTTCTGCAATGAGCACTTTTC CTTCACGATGCTGCATTTCATTAAGAACCAGCTAGAAACTGCTCCACCCCATGAGTTAAAGAATACATTC CAGCTACTGCATGAGGTCCTGGTCATTGAAGATCCCATCCAGGTAGAGCGCGTCAAGTTTGTATTTGAGA CAGAAAATGGATTACTAGCACTGATGCACCATAGCAATCATGTGGACAGCAGCCGTTGCTACCAGTGTGT CAAGTTTCTTGTCACTCTTGCTCAAAAGTGCCCTGCTGCTAAAGAATACTTCAAAGAGAACTCCCACCAC TGGAGCTGGGCTGTGCAGTGGTTACAGAAGAAGATGTCAGAGCATTATTGGACTCCACAGAGCAATGTCT CTAATGAAACTTCAACTGGAAAAACCTTTCAGCGAACCATCTCAGCTCAGGACACATTAGCATACGCCAC AGCCTTGTTGAATGAAAAAGAGCAATCAGGAAGCAGCAATGGGTCCGAGAGCAGTCCTGCCAATGAGAAC GGAGAGCGACACTTACAGCAGGGTTCGGAATCTCCCATGATGATTGGTGAATTAAGAAGTGACCTTGATG ATGTTGATCCT AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC TGGATTACAAGGATGACGACGATAAGGTTTAA >MR226420 representing NM_183225
Red=Cloning site Green=Tags(s) MESEEEQHMTTLLCMGFSDPATIRKALRLAKNDINEAVALLTNERPGLDYGGYEPMDSGGPSPGPGGGPR GDSGSDGSGPSRGGSTGGGGGFDPPPAYHEVVDAEKNDENGNCSGEGIEFPTTNLYELESRVLTDHWSIP YKREESLGKCLLASTYLARLGLSESDENCKRFMERCMPEAFKKLLTSSAVHKWGTEIHEGIYNMLMLLIE LVAERMKQDPIPIGLLGVLTMAFNPDNEYHFKNRMKVSQRNWAEVFGEGNMFAISPVSTFQKEPHGWVVD LVNKFGELGGFAAIQAKLHSEDIELGAVSALVQPLGVCAEYLNSSVVQPMLDPVILTTIQDVRSVEEKDL KDKRLVSIPELLSAIKLLCMRFQPALVTTVDALRLDILLRMLKSPHFSAKMNSLKEVTKLIEDSTLSKSV KNAIDTDRLLDWLVENSVLSIALEGNIDQAQYCDRIKGIIELLGSKLSLDELTKIWKIQSGQSSTVIENI HTIIAAAAVKFNADQLNHLFVLIQKSWETESDRVRQKLLSLIGRIGREARFEATSGKVLDVLWELAHLPT LPSSLIQQALEEHLTILSDAYAVKEAVKRSYIIKCIEDIKRPGEWSSLEKNKKDGFKSSQLNNPQFVWVV PALRQLHEITRSFIKQTYQKQDKSIIQDLKKNFEIVKLVTGSLLACHRLAAAVAGPGGLTGLTLVDGRYT YREYLEAHLKFLAFFLQEATLYLGWNRAKEIWECLVTGQDVCELDREMCFEWFTKGQHDLESDVQQQLFK EKILKLESYEITMNGFNLFKTFFENVNLCDHRLKRQGAQLYVEKLELVGMDFIWKIAMESPDEEIANEAI QLIINYSYINLNPRLKKDSVSLHKKFIADCYTRLEAASSALGGPTLTHAVTRATKMLTATAMPTVATSVQ SPYRSTKLVIIERLLLLAERYVITIEDFYSVPRTILPHGASFHGHLLTLNVTYESTKDTFTVEAHSNETI GSVRWKIAKQLCSPVDNIQIFTNDSLLTVNKDQKLLHQLGFSDEQVLTVKTSGSGTPSGSSADSSTSSSS SSSGAFSSSYAMEQEKSLPGVVMALVCNVFDMLYQLANLEEPRITLRVRKLLLLIPTDPAIQEALDQLDS LGRKKTLLSETSSQSSKSPSLSSKQQHQPSASSILESLFRSFAPGMSTFRVLYNLEVLSSKLMPTADDDM ARSCAKSFCENFLKAGGLSLVVNVMQRDSIPSEVDYETRQGVYSICLQLARFLLVGQTMPTSLDEDLTKD GIEALSSRPFRNVSRQTSRQMSLCGTPEKSSYRQLSVSDRSSIRVEEIIPAARVAIQTMEASDFTATVAC FMRLSWAAAAGRLDLVGSSQPIKESNSLFPAGIRSRLSSSGSNCSSSSEGEPAALHAGICVRQQSVSTKD ALIAGEALSLLVTCLQLRSQQLASFYSLPCVADFIIDILLGSPSAEIRRVACDQLYTLSQTDTSAHPEVQ KPNQFLLGVILTAQLPLWSPTSIMRGVNQRLLSQCMEYFDLRCQLLDDLTTSEMDQLRISPATMLEDEIT WLDNFEPNRTADCETSEADNILLAGHLRLIKTLLSLCGAEKEMLGSSLIKPLLDDFLFRASRIIVNSHSP ASSAAISQQDFHPKCSTVNSRLAAYEVLVMLADSSPSNLQIITKELLSMHHQPDPALTKEFDYLPPVDSR SSSGFVGLRNGGATCYMNAVFQQLYMQPGLPESLLSVDDDTDNPDDSVFYQVQSLFGHLMESKLQYYVPE NFWKIFKMWNKELYVREQQDAYEFFTSLIDQMDEYLKKMGREQIFKNTFQGIYSDQKICKDCPHRYEREE AFMALNLGVTSCQSLEISLDQFVRGEVLEGSNAYYCEKCKEKRITVKRTCIKSLPSVLVIHLMRFGFDWE SGRSIKYDEQIRFPWMLNMEPYTVAGMARQDSSSEVGENGRNMDQGGGGSPRKKVALTENYELVGVIVHS GQAHAGHYYSFIKDRRGCGKGKWYKFNDTVIEEFDLNDETLEYECFGGEYRPKVYDQTNPYTDVRRRYWN AYMLFYQRVSDQNSPVLPKKSRVSVVRQEAEDLSLSAPSSPEISPQSSPRPHRPNNDRLSILTKLVKKGE KKGLFVEKMPARIYQMVRDENLKFMKNRDVYSSDYFSFVLSLASLNATKLKHPYYPCMAKVSLQLAIQFL FQTYLRTKKKLRVDTEEWIATIEALLSKSLDACQWLVEYFISSEGRELVKVFLLECSVREVRVAVATILE KTLDSALFYQDKLKSLHQLLEVLLALLDKDVPENCKNCAQYFSLFNTFVQKQGIRAGDLLLRHSALRHMI SFLLGVSRQNSQIRRWSSAQAREFGNLHNTVALLVLHSDVSSQRNVAPGIFKQRPPISVAPSSPLLPLHE EVEALLFLSEGKPYLLEVMFALRELTGSLLALMEMVVYCCFCNEHFSFTMLHFIKNQLETAPPHELKNTF QLLHEVLVIEDPIQVERVKFVFETENGLLALMHHSNHVDSSRCYQCVKFLVTLAQKCPAAKEYFKENSHH WSWAVQWLQKKMSEHYWTPQSNVSNETSTGKTFQRTISAQDTLAYATALLNEKEQSGSSNGSESSPANEN GERHLQQGSESPMMIGELRSDLDDVDP SGPTRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-RsrII Cloning Scheme for this gene Plasmid Map |
ACCN | NM_183225 |
ORF Size | 7851 bp |
OTI Disclaimer | 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_183225.2, NP_899048.2 |
RefSeq Size | 10601 bp |
RefSeq ORF | 7854 bp |
Locus ID | 329908 |
UniProt ID | B1AY13 |
MW | 294 kDa |
Gene Summary | Protease that can remove conjugated ubiquitin from target proteins and polyubiquitin chains. Deubiquitinates DDB2, preventing its proteasomal degradation (By similarity).[UniProtKB/Swiss-Prot Function] |
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