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USP34 (NM_014709) Human Untagged Clone
CAT#: SC308917
USP34 (untagged)-Human ubiquitin specific peptidase 34 (USP34)
CNY 68,210.00
货期*
5周
规格
Product images
经常一起买 (3)
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Vector | pCMV6-XL4 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>OriGene sequence for NM_014709 edited
GGCCGAACGATGTGCGAGAACTGCGCAGACCTGGTGGAGGTGTTAAATGAAATATCAGAT GTAGAAGGTGGTGATGGACTGCAGCTCAGAAAGGAACATACTCTCAAAATATTTACTTAT ATCAATTCCTGGACACAGAGGCAATGTCTATGCTGCTTCAAGGAATATAAGCATTTGGAG ATTTTTAATCAAGTAGTGTGTGCACTTATTAACTTAGTGATTGCCCAAGTTCAAGTGCTC CGGGACCAGCTTTGTAAACATTGTACTACCATTAACATAGATTCCACGTGGCAAGATGAG AGTAATCAAGCAGAAGAACCACTGAATATAGATAGAGAGTGTAATGAAGGAAGTACAGAA AGACAAAAATCAATAGAAAAAAAATCAAACTCTACAAGAATTTGTAATCTGACTGAGGAG GAATCTTCAAAGAGTTCTGATCCTTTTAGTTTATGGAGTACAGATGAGAAGGAAAAACTC TTACTATGTGTGGCAAAAATTTTTCAAATTCAGTTTCCCTTATATACTGCTTACAAGCAT AATACTCACCCTACTATTGAGGATATATCAACTCAAGAAAGTAACATATTAGGGGCATTC TGTGATATGAATGATGTAGAAGTACCATTGCATTTGCTTCGTTATGTATGTTTGTTTTGT GGGAAAAATGGCCTTTCTCTCATGAAGGATTGCTTTGAATATGGAACTCCTGAAACTTTG CCATTTCTTATAGCACATGCGTTTATTACAGTTGTGTCTAATATTAGAATATGGCTACAT ATTCCCGCTGTCATGCAGCACATTATACCTTTTAGGACCTATGTTATTAGGTATTTATGC AAGCTCTCGGATCAGGAGTTACGACAGAGTGCAGCTCGTAACATGGCTGACTTAATGTGG AGCACAGTCAAAGAACCATTGGATACAACATTATGCTTTGATAAAGAAAGCCTAGATCTT GCATTTAAGTACTTTATGTCACCTACTTTGACTATGAGGTTGGCTGGATTGAGTCAGATA ACAAATCAACTCCATACCTTCAATGATGTGTGCAATAATGAATCATTAGTATCGGACACA GAAACGTCCATTGCAAAAGAACTTGCAGACTGGCTTATTAGCAACAATGTGGTGGAGCAT ATATTTGGACCAAATTTACATATTGAGATTATCAAACAGTGCCAAGTGATTTTGAATTTT TTGGCAGCAGAAGGGCGACTGAGTACTCAACATATTGACTGTATTTGGGCTGCAGCACAG TTGAAACATTGTAGTCGGTATATACATGACTTATTTCCTTCACTCATCAAGAATTTGGAT CCCGTACCACTTAGACATCTACTTAATCTGGTCTCAGCTCTTGAGCCAAGTGTTCATACT GAACAGACACTGTACTTGGCATCCATGTTAATTAAAGCACTGTGGAATAACGCACTAGCA GCTAAGGCTCAGTTATCTAAACAGAGTTCTTTTGCATCTTTATTAAATACTAATATTCCC ATTGGAAATAAGAAAGAGGAAGAAGAGCTTAGAAGAACAGCTCCATCACCTTGGTCACCT GCAGCTAGTCCTCAAAGCAGTGATAATAGCGATACACATCAAAGTGGAGGTAGTGACATT GAAATGGATGAGCAACTTATTAATAGAACCAAACATGTGCAACAACGACTTTCAGACACA GAGGAATCCATGCAGGGAAGTTCTGACGAAACTGCCAACAGTGGTGAAGATGGAAGCAGT GGTCCTGGTAGCAGTAGTGGGCATAGTGATGGATCTAGCAATGAGGTTAATTCTAGCCAC GCAAGCCAGTCAGCTGGGAGCCCTGGCAGTGAGGTACAGTCAGAAGACATTGCAGATATT GAAGCCCTCAAAGAGGAAGATGAAGACGATGATCATGGTCATAATCCTCCCAAAAGCAGT TGTGGTACAGATCTTCGGAATAGAAAGTTAGAGAGTCAAGCAGGCATTTGCCTGGGGGAC TCCCAAGGCACGTCAGAAAGAAATGGGACAAGCAGCGGAACAGGAAAGGACCTGGTTTTT AACACTGAATCATTGCCATCAGTAGATAATCGAATGCGAATGCTGGATGCTTGTTCACAC TCTGAAGACCCAGAACATGATATTTCAGGGGAAATGAATGCTACTCATATAGCACAAGGG TCTCAGGAGTCTTGTATCACACGAACTGGGGACTTCCTTGGGGAGACTATTGGGAATGAA TTATTTAATTGTCGACAATTTATTGGTCCACAGCATCACCACCACCACCACCACCATCAC CACCACCACGATGGGCATATGGTTGATGATATGCTAAGTGCAGATGATGTCAGTTGTAGT AGCTCCCAGGTTAGTGCAAAATCAGAAAAAAATATGGCTGATTTTGATGGTGAAGAATCT GGATGTGAAGAGGAGCTAGTTCAGATTAATTCACATGCGGAACTGACATCTCACCTCCAA CAACATCTTCCCAATTTAGCTTCCATTTACCATGAACATCTTAGTCAAGGACCTGTAGTT CATAAACATCAATTCAACAGTAATGCTGTTACAGACATTAATTTGGATAATGTTTGCAAG AAAGGAAATACTTTGTTGTGGGATATAGTCCAAGATGAAGATGCAGTTAATCTTTCTGAA GGATTAATAAATGAAGCAGAGAAACTTCTTTGTTCGTTAGTATGTTGGTTTACAGATAGA CAAATTCGAATGAGATTCATTGAAGGTTGCCTTGAAAACTTGGGAAACAACAGATCAGTA GTAATTTCACTTCGTCTTCTTCCAAAACTATTTGGTACTTTTCAGCAGTTTGGGAGCAGT TACGATACACACTGGATAACAATGTGGGCAGAAAAAGAACTGAACATGATGAAGCTTTTC TTTGATAATTTGGTATACTACATTCAAACTGTGAGAGAAGGAAGACAAAAACATGCACTG TACAGCCATAGTGCTGAAGTTCAAGTTCGTCTTCAATTCTTGACTTGTGTATTTTCAACT CTGGGATCACCTGATCATTTCAGGTTAAGTTTAGAGCAAGTTGACATCTTATGGCATTGT TTAGTAGAAGATTCTGAATGTTATGATGATGCACTCCATTGGTTTTTAAATCAAGTTCGA AGTAAAGATCAACATGCTATGGGTATGGAAACCTACAAACATCTTTTCCTGGAGAAGATG CCCCAGCTAAAACCTGAAACAATTAGCATGACTGGCTTAAACCTGTTTCAGCATCTCTGT AACTTGGCTCGATTGGCTACCAGTGCCTATGATGGTTGTTCAAATTCTGAGCTGTGTGGT ATGGACCAATTTTGGGGCATTGCTTTAAGAGCACAATCTGGTGATGTCAGTCGAGCAGCT ATCCAGTATATTAACTCCTATTATATTAATGGTAAAACAGGTTTGGAGAAGGAGCAAGAA TTTATTAGTAAGTGCATGGAGAGTCTTATGATAGCTTCTAGCAGTCTTGAACAGGAATCA CACTCAAGTCTCATGGTTATAGAAAGAGGACTCCTTATGCTGAAGACACATCTGGAAGCG TTTAGGAGAAGGTTTGCATATCATCTGAGACAGTGGCAAATTGAAGGCACTGGTATTAGT AGTCATTTGAAAGCACTGAGTGACAAACAGTCTCTGCCGCTAAGGGTTGTATGCCAGCCA GCTGGACTTCCTGACAAGATGACTATTGAAATGTATCCTAGTGACCAGGTAGCAGATCTT AGGGCTGAAGTAACTCATTGGTATGAAAATTTACAGAAAGAACAAATAAATCAACAAGCT CAGCTTCAGGAGTTTGGTCAAAGCAACCGAAAAGGAGAGTTTCCTGGAGGCCTCATGGGA CCTGTCAGGATGATTTCATCTGGACACGAGTTAACAACAGATTATGATGAAAAAGCACTT CATGAGCTTGGTTTTAAGGATATGCAGATGGTATTTGTATCTTTGGGTGCACCAAGGAGA GAGCGGAAAGGGGAAGGTGTTCAGCTGCCAGCATCTTGCCTCCCACCCCCTCAGAAGGAC AACATTCCAATGCTTTTGCTTTTACAAGAGCCTCATTTAACTACTCTTTTTGATTTATTA GAGATGCTTGCATCATTTAAACCACCCTCAGGAAAAGTGGCAGTGGATGATAGTGAGAGC TTACGATGTGAAGAACTTCATCTTCATGCAGAAAATCTGTCTAGGCGGGTCTGGGAGCTA CTGATGCTTCTTCCTACATGTCCTAATATGTTGATGGCATTCCAGAATATCTCAGATGAG CAGAGTAATGATGGATTTAATTGGAAAGAACTTCTCAAAATTAAGAGCGCCCACAAGCTA TTGTATGCTCTGGAAATTATTGAAGCACTGGGAAAACCTAATAGAAGAATAAGGAGGGAG TCTACGGGAAGTTACAGTGATCTTTATCCAGATTCAGATGATTCAAGTGAGGATCAAGTG GAAAATAGTAAAAATTCCTGGAGTTGCAAGTTTGTTGCTGCTGGAGGGCTTCAACAGTTA TTAGAAATTTTTAATTCTGGAATTCTAGAGCCTAAAGAGCAGGAATCATGGACTGTGTGG CAGCTAGACTGTCTTGCTTGCTTGCTGAAGTTAATATGCCAGTTTGCAGTAGATCCATCC GATTTGGATTTAGCTTATCATGATGTCTTTGCCTGGTCTGGTATAGCGGAAAGCCATAGG AAAAGAACCTGGCCTGGCAAATCAAGGAAGGCTGCTGGTGATCATGCTAAGGGTCTTCAT ATACCACGATTAACAGAGGTATTTCTTGTTCTTGTCCAAGGAACCAGTTTGATTCAGCGA CTTATGTCTGTTGCTTATACGTATGATAATCTGGCTCCTAGAGTTTTAAAAGCTCAGTCT GATCACAGGTCTAGACATGAAGTTTCACATTATTCAATGTGGCTCTTGGTGAGTTGGGCT CATTGCTGTTCTTTAGTGAAATCTAGCCTTGCTGATAGCGATCATTTACAAGATTGGCTA AAGAAATTGACTCTCCTTATTCCTGAGACTGCAGTTCGTCATGAATCATGCAGTGGTCTC TATAAGTTATCCCTGTCAGGGCTGGATGGAGGAGACTCAATCAATCGTTCTTTTCTGCTA TTGGCTGCCTCAACATTATTGAAATTTCTTCCTGATGCTCAAGCACTCAAACCTATTAGG ATAGATGATTATGAGGAAGAACCAATATTAAAACCAGGATGTAAAGAGTATTTTTGGTTG TTATGCAAATTAGTTGACAACATACATATAAAGGACGCTAGTCAGACAACGCTCCTCGAC TTAGATGCCTTGGCAAGACATTTGGCTGACTGTATTCGAAGTAGGGAGATCCTTGATCAT CAGGATGGTAATGTAGAAGATGATGGGCTTACAGGACTCCTAAGGCTTGCAACAAGTGTT GTTAAACACAAACCACCCTTTAAATTTTCAAGGGAAGGACAGGAATTTTTGAGAGATATC TTCAATCTCCTGTTTTTGTTGCCAAGTCTAAAGGACCGACAACAGCCAAAGTGCAAATCA CATTCTTCAAGAGCTGCCGCTTACGATTTGTTAGTAGAGATGGTAAAGGGGTCTGTTGAG AACTACAGGCTAATACACAACTGGGTTATGGCACAACACATGCAGTCCCATGCACCTTAT AAATGGGATTACTGGCCTCATGAAGATGTCCGTGCTGAATGTAGATTTGTTGGCCTTACT AACCTTGGAGCTACTTGTTACTTAGCTTCTACTATTCAGCAACTTTATATGATACCTGAG GCAAGACAGGCTGTCTTCACTGCCAAGTATTCAGAGGATATGAAGCACAAGACCACTCTT CTGGAGCTTCAGAAAATGTTTACATATTTAATGGAGAGTGAATGCAAAGCATATAATCCT AGACCTTTCTGTAAAACATACACCATGGATAAGCAGCCTCTGAATACTGGGGAACAGAAA GATATGACAGAGTTTTTTACTGATCTAATTACCAAAATCGAAGAAATGTCTCCCGAACTG AAAAATACCGTCAAAAGTTTATTTGGAGGTGTAATTACAAACAATGTTGTATCCTTGGAT TGTGAACATGTTAGTCAAACTGCTGAAGAGTTTTATACTGTGAGGTGCCAAGTGGCTGAT ATGAAGAACATTTATGAATCTCTTGATGAAGTTACTATAAAAGACACTTTGGAAGGTGAT AACATGTATACTTGTTCTCATTGTGGGAAGAAAGTACGAGCTGAAAAAAGGGCATGTTTT AAGAAATTGCCTCGCATTTTGAGTTTCAATACTATGAGATACACATTTAATATGGTCACG ATGATGAAAGAGAAAGTGAATACACACTTTTCCTTCCCATTACGTTTGGACATGACGCCC TATACAGAAGATTTTCTTATGGGAAAGAGTGAGAGGAAAGAAGGTTTTAAAGAAGTCAGT GATCATTCAAAAGACTCAGAGAGCTATGAATATGACTTGATAGGAGTGACTGTTCACACA GGAACGGCAGATGGTGGACACTATTATAGCTTTATCAGAGATATAGTAAATCCCCATGCT TATAAAAACAATAAATGGTATCTTTTTAATGATGCTGAGGTAAAACCTTTTGATTCTGCT CAACTTGCATCTGAATGTTTTGGTGGAGAGATGACGACCAAGACCTATGATTCTGTTACA GATAAATTTATGGACTTCTCTTTTGAAAAGACACACAGTGCATATATGCTGTTTTACAAA CGCATGGAACCAGAGGAAGAAAATGGCAGAGAATACAAATTTGATGTTTCGTCAGAGTTA CTAGAGTGGATTTGGCATGATAACATGCAGTTTCTTCAAGACAAAAACATTTTTGAACAT ACATATTTTGGATTTATGTGGCAATTGTGTAGTTGTATTCCCAGTACATTACCAGATCCT AAAGCTGTGTCCTTAATGACAGCAAAGTTAAGCACTTCCTTTGTCCTAGAGACATTTATT CATTCTAAAGAAAAGCCCACGATGCTTCAGTGGATTGAACTGTTGACGAAACAGTTTAAT AATAGTCAGGCAGCTTGTGAGTGGTTTTTAGATCGTATGGCTGATGACGACTGGTGGCCA ATGCAGATACTAATTAAGTGCCCTAATCAAATTGTGAGACAGATGTTTCAGCGTTTGTGT ATCCATGTGATTCAGAGGCTGAGACCTGTGCATGCTCATCTCTATTTGCAGCCAGGAATG GAAGATGGGTCAGATGATATGGATACCTCAGTAGAAGATATTGGTGGTCGTTCATGTGTC ACTCGCTTTGTGAGAACCCTGTTATTAATTATGGAACATGGTGTAAAACCTCACAGTAAA CATCTTACAGAGTATTTTGCCTTCCTTTACGAATTTGCAAAAATGGGTGAAGAAGAGAGC CAATTTTTGCTTTCATTGCAAGCTATATCTACAATGGTACATTTTTACATGGGAACAAAA GGACCTGAAAATCCTCAAGTTGAAGTGTTATCAGAGGAAGAAGGGGAAGAAGAAGAGGAG GAAGAAGATATCCTCTCTCTGGCAGAAGAAAAATACAGGCCAGCTGCCCTTGAAAAGATG ATAGCTTTAGTTGCTCTTTTGGTTGAACAGTCTCGATCAGAAAGGCATTTGACATTATCA CAGACTGACATGGCAGCATTAACAGGAGGAAAGGGATTTCCCTTCTTGTTTCAACATATT CGTGATGGCATCAATATAAGACAAACTTGTAATCTGATTTTCAGCCTGTGTCGATACAAT AATCGACTTGCAGAACATATTGTATCTATGCTTTTCACATCAATAGCAAAGTTGACTCCT GAGGCAGCCAATCCTTTCTTTAAGTTGTTGACTATGCTAATGGAGTTTGCTGGTGGACCT CCAGGAATGCCTCCCTTTGCATCTTATATTCTGCAGAGGATATGGGAGGTGATTGAATAC AATCCTTCTCAGTGTCTAGATTGGTTGGCAGTGCAGACACCCCGAAATAAACTGGCACAC AGCTGGGTCTTACAGAATATGGAAAACTGGGTCGAGCGGTTTCTTTTGGCTCACAATTAT CCTAGAGTGAGGACTTCTGCAGCTTATCTTCTGGTGTCCCTTATACCAAGCAATTCATTC CGTCAGATGTTCCGGTCAACAAGGTCTTTGCACATCCCAACCCGTGACCTTCCACTCAGT CCAGACACAACAGTAGTCCTACATCAGGTCTACAACGTGCTCCTTGGTTTGCTCTCAAGA GCCAAACTTTATGTTGATGCTGCTGTTCATGGCACTACAAAGCTAGTGCCCTATTTTAGC TTTATGACTTACTGTTTAATTTCCAAAACTGAGAAGCTGATGTTTTCCACATATTTCATG GATTTGTGGAACCTTTTCCAGCCTAAACTTTCTGAGCCAGCAATAGCTACAAATCACAAT AAACAGGCTTTGCTTTCATTTTGGTACAATGTCTGTGCTGACTGTCCAGAGAATATCCGC CTTATTGTTCAGAACCCAGTGGTAACCAAGAACATTGCCTTCAATTACATCCTTGCTGAC CATGATGATCAGGATGTGGTGCTTTTTAACCGTGGGATGCTGCCAGCGTACTATGGCATT CTGAGGCTCTGCTGTGAGCAGTCTCCTGCATTCACACGACAACTGGCTTCTCACCAGAAC ATCCAGTGGGCCTTTAAGAATCTTACACCACATGCCAGCCAATACCCTGGAGCAGTAGAA GAACTGTTTAACCTGATGCAGCTGTTTATAGCTCAGAGGCCAGATATGAGAGAAGAAGAA TTAGAAGATATTAAACAGTTCAAGAAAACAACCATAAGTTGTTACTTACGTTGCTTAGAT GGCCGCTCCTGCTGGACTACTTTAATAAGTGCCTTCAGAATACTATTAGAATCTGATGAA GACAGACTTCTTGTTGTATTTAATCGAGGATTGATTCTAATGACAGAGTCTTTCAACACT TTGCACATGATGTATCACGAAGCTACAGCTTGCCATGTGACTGGAGATTTAGTAGAACTT CTGTCAATATTTCTTTCGGTTTTGAAGTCTACACGCCCTTATCTTCAGAGAAAAGATGTG AAACAAGCATTAATCCAGTGGCAGGAGCGAATTGAATTTGCCCATAAACTGTTAACTCTT CTTAATTCCTATAGTCCTCCAGAACTTAGAAATGCCTGTATAGATGTCCTCAAGGAACTT GTACTTTTGAGTCCCCATGATTTTCTTCATACTCTGGTTCCCTTTCTACAACACAACCAT TGTACTTACCATCACAGTAATATACCAATGTCTCTTGGACCTTATTTCCCTTGTCGAGAA AATATCAAGCTAATAGGAGGGAAAAGCAATATTCGGCCTCCGCGCCCTGAACTCAATATG TGCCTCTTGCCCACAATGGTGGAAACCAGTAAGGGCAAAGATGACGTTTATGATCGTATG CTGCTAGACTACTTCTTTTCTTATCATCAGTTCATCCATCTATTATGCCGAGTTGCAATC AACTGTGAAAAATTTACTGAAACATTAGTTAAGCTGAGTGTCCTAGTTGCCTATGAAGGT TTGCCACTTCATCTTGCACTGTTCCCCAAACTTTGGACTGAGCTATGCCAGACTCAGTCT GCTATGTCAAAAAACTGCATCAAGCTTTTGTGTGAAGATCCTGTTTTCGCAGAATATATT AAATGTATCCTAATGGATGAAAGAACTTTTTTAAACAACAACATTGTCTACACGTTCATG ACACATTTCCTTCTAAAGGTTCAAAGTCAAGTGTTTTCTGAAGCAAACTGTGCCAATTTG ATCAGCACTCTTATTACAAACTTGATAAGCCAGTATCAGAACCTACAGTCTGATTTCTCC AACCGAGTTGAAATTTCCAAAGCAAGTGCTTCTTTAAATGGGGACCTGAGGGCACTCGCT TTGCTCCTGTCAGTACACACTCCCAAACAGTTAAACCCAGCTCTAATTCCAACTCTGCAA GAGCTTTTAAGCAAATGCAGGACTTGTCTGCAACAGAGAAACTCACTCCAAGAGCAAGAA GCCAAAGAAAGAAAAACTAAAGATGATGAAGGAGCAACTCCCATTAAAAGGCGGCGTGTT AGCAGTGATGAGGAGCACACTGTAGACAGCTGCATCAGTGACATGAAAACAGAAACCAGG GAGGTCCTGACCCCAACGAGCACTTCTGACAATGAGACCAGAGACTCCTCAATTATTGAT CCAGGAACTGAGCAAGATCTTCCTTCCCCTGAAAATAGTTCTGTTAAAGAATACCGAATG GAAGTTCCATCTTCGTTTTCAGAAGACATGTCAAATATCAGGTCACAGCATGCAGAAGAA CAGTCCAACAATGGTAGATATGACGATTGTAAAGAATTTAAAGACCTCCACTGTTCCAAG GATTCTACCCTAGCCGAGGAAGAATCTGAGTTCCCTTCTACTTCTATCTCTGCAGTTCTG TCTGACTTAGCTGACTTGAGAAGCTGTGATGGCCAAGCTTTGCCCTCCCAGGACCCTGAG GTTGCTTTATCTCTCAGTTGTGGCCATTCCAGAGGACTCTTTAGTCATATGCAGCAACAT GACATTTTAGATACCCTGTGTAGGACCATTGAATCTACAATCCATGTCGTCACAAGGATA TCTGGCAAAGGAAACCAAGCTGCTTCTTGACATTAGGTGTAGCATGTCTACTTTTAAGTC CCTCACCCCCAACCCCCATGCTGTTTGTATAAGTTTTGCTTATTTGTTTTTGTGCTTCAG TTTGTCCAGTGCTCTCTGCTTGAATGGCAAGATAGATTTATAGGCTTAATTCTTGGTCAG GCAGAACTCCAGATGAAAAAAACTTGCATCTTCAGTATACTTCCTAAAGGGCAATCAGAT AATGGATATGTTTTATGTAATTAAGAGTTCACTTTAGTGGCTTTCATTTAATATGGCTGT CTGGGAAGAACAGGGTTGCCTAGCCCTGTACAATGTAATTTAAACTTACAGCATTTTTAC TGTGTATAATATGGTGTCCTCTGTGCCAGTTTTGTACCTTATAGAGGCAGATTGCCTCCG ATCGCTGTGGTTCTTATTATCAAAATTAAGTTTACTTGTATACGGAACAACCACAAGAAA TTTGATTCTGTAAAGAATCCTCTTTAGCTGTGGCCTGGCAGTATATAAATGGTGCTTTAT TTAACAGAATACCTGTGGAGGAAATAAAGCACACTTGATGTAAAAAAAAAAAAAAAAAA |
| Restriction Sites | Please inquire |
| ACCN | NM_014709 |
| Insert Size | 11200 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. Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP). |
| OTI Annotation | The open reading frame of this TrueClone was fully sequenced and found to be a perfect match to the protein associated to this reference except for one SNP. |
| 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. |
| Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
| Reference Data | |
| RefSeq | NM_014709.2, NP_055524.2 |
| RefSeq Size | 10188 bp |
| RefSeq ORF | 10188 bp |
| Locus ID | 9736 |
| UniProt ID | Q70CQ2 |
| Protein Families | Druggable Genome |
| 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] |
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| SDS |
Resources
Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC211600 | USP34 (Myc-DDK-tagged)-Human ubiquitin specific peptidase 34 (USP34) |
CNY 22,560.00 |
|
| RC211600L1 | Lenti ORF clone of Human ubiquitin specific peptidase 34 (USP34), Myc-DDK-tagged |
CNY 42,370.00 |
|
| RG211600 | USP34 (tGFP-tagged) - Human ubiquitin specific peptidase 34 (USP34) |
CNY 24,160.00 |
|
| SC318751 | USP34 (untagged)-Human ubiquitin specific peptidase 34 (USP34) |
CNY 68,210.00 |
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