Cnot1 (NM_001205226) Mouse Tagged ORF Clone
CAT#: MR231947
- TrueORF®
Cnot1 (myc-DDK-tagged) - Mouse CCR4-NOT transcription complex, subunit 1 (Cnot1), transcript variant 3
"NM_001205226" in other vectors (1)
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CNY 23,660.00
Cited in 1 publication. |
CNY 300.00
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | Myc-DDK |
Synonyms | 6030411K04Rik; AA815922; D830048B13 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MR231947 representing NM_001205226
Red=Cloning site Blue=ORF Green=Tags(s) TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAATCTTGACTCGCTCTCGCTGGCCTTGTCTCAAATCAGCTACCTGGTGGACAATTTAACCAAGAAAA ACTACCGAGCCAGCCAGCAGGAAATACAGCATATTGTGAATCGGCACGGTCCTGAGGCAGACAGGCATTT ATTACGCTGCCTATTTTCACATGTGGATTTCAGTGGCGATGGTAAAAGCAGTGGCAAAGATTTCCATCAG TTTCTGATTCAGGAGTGTGCCTCGCTGATTACAAAGCCAAATTTTATCTCAACATTGTCATATGCCATTG ATAATCCATTGCACTACCAGAAGAGTTTAAAGCCTGCACCCCACTTATTTGCCCAGCTGAGTAAAGTTCT CAAGCTAAGTAAAGTACAGGAGGTCATTTTTGGTCTTGCCCTTTTGAATTCTTCTAGCCCAGATCTCAGG GGTTTTGCTGCCCAGTTTATTAAACAGAAGCTTCCGGATCTTCTGCGTTCTTACATTGACGCAGACGTCA GTGGAAATCAAGAAGGTGGCTTCCAAGATATAGCAATAGAGGTCCTACACCTCCTACTCTCCCATCTCCT CTTTGGGCAGAAGGGAGCCTTTGGAGTTGGACAGGAACAGATAGACGCCTTTCTTAAGACACTACGCAGA GATTTTCCCCAAGAGCGCTGTCCTGTGGTGCTTGCACCACTTTTATACCCTGAAAAACGGGACATTCTAA TGGACAGGATTTTGCCTGATTCTGGAGGGGTAGCTAAAACCATGATGGAGAGCTCGCTAGCTGACTTCAT GCAGGAAGTGGGCTATGGCTTTTGTGCAAGTATTGAAGAATGTCGCAATATAATCATGCAGTTTGGTGTT CGGGAGGTCACAGCTGCCCAGGTTGCCAGGGTTTTGGGAATGATGGCTCGGACTCATTCAGGATTAACAG ACGGTATTCCATTACAGAGCATCTCTGCTCCTGGCAGTGGGATCTGGAGCGACGGAAAAGATAAAAGCGA GGGGGCACAGGCACACACGTGGAATGTCGAGGTTTTGATTGATGTTCTTAAAGAGCTGAACCCGAGTTTG AATTTCAAGGAAGTAACTTATGAACTGGACCATCCTGGATTTCAGATTCGTGACAGCAAAGGACTTCACA ATGTGGTTTATGGCATTCAAAGGGGTCTGGGCATGGAAGTGTTTCCAGTAGATTTTATATATAGGCCTTG GAAACATGCAGAAGGCCAGCTCTCCTTCATCCAGCATTCCCTGATAAACCCAGAGGTCTTCTGTTTTGCT GACTACCCCTGTCACACTGTTGCCACTGATATTTTGAAAGCACCACCAGAGGATGACAATCGAGAAATTG CCACATGGAAAAGCTTGGATTTGATTGAATCTCTGCTGAGGCTTGCAGAGGTTGGGCAGTATGAGCAAGT GAAACAACTCTTCAGCTTCCCTATCAAACACTGTCCAGACATGTTGGTATTGGCCTTACTTCAAATCAAC ACTTCCTGGCACACCCTACGCCATGAACTCATCTCTACTTTGATGCCAATTTTCCTTGGAAACCATCCTA ACTCTGCCATTATTTTGCACTATGCATGGCATGGGCAGGGGCAGTCTCCATCAATTCGCCAACTTATAAT GCATGCAATGGCAGAATGGTACATGAGAGGGGAGCAGTATGATCAGGCCAAATTGTCTCGAATACTTGAC GTGGCCCAGGACTTGAAGGCCCTGTCGATGCTGCTGAACGGCACTCCATTTGCTTTTGTCATTGACCTTG CTGCACTCGCTTCACGGCGGGAATACCTCAAACTTGACAAGTGGCTAACAGATAAGATAAGAGAGCATGG GGAGCCTTTTATACAAGCATGTATGACTTTTTTAAAGAGAAGGTGCCCTTCTATTTTGGGTGGACTTGCC CCAGAGAAAGATCAGCCCAAAAGTGCTCAACTTCCCGCTGAAACTCTGGCAACAATGTTGGCTTGTCTGC AGGCTTGTGCAGGGAGTGTTTCTCAAGAGTTATCAGAGACCATCCTCACCATGGTAGCCAATTGCAGTAA TGTAATGAATAAGGCCAGACAGCCACCACCTGGAGTTATGCCAAAAGGTCGCCCTCCTAGTGCTAGCAGC TTAGATGCCATTTCTCCTGTTCAGATTGACCCTCTTGCTGGAATGGCATCTCTTAGTATAGGTGGTTCGG CTGCCCCTCACACCCAGAGCATGCAGGGTTTTCCTCCAAATCTGGGTTCTGCGTTCAGTACCCCTCAGTC ACCAGCAAAAGCATTTCCACCACTTTCAACCCCAAATCAAACAACGGCCTTCAGTGGGATTGGAGGACTC TCCTCACAGCTTCCAGTAGGTGGTCTTGGCACAGGAAGCCTGACTGGCATAGGAACTGGGGCCCTTGGAC TTCCTGCAGTGAACAATGATCCTTTTGTACAGAGGAAACTGGGCACCTCTGGACTCAACCAGCCTACATT CCAGCAGACCGACTTGTCTCAGGTGTGGCCAGAGGCAAATCAGCACTTTAGTAAAGAAATTGATGATGAA GCAAACAGTTATTTCCAGCGAATATATAATCACCCACCACATCCAACCATGTCTGTTGATGAGGTATTAG AAATGCTACAGAGATTTAAAGACTCTACAATAAAAAGGGAACGAGAAGTATTTAACTGTATGCTGAGGAA CTTGTTTGAAGAATACCGGTTTTTCCCTCAGTACCCTGATAAAGAATTACATATAACAGCTTGCTTGTTT GGTGGCATAATTGAAAAAGGACTGGTCACTTACATGGCATTGGGTCTGGCCCTGCGATATGTTCTTGAAG CCTTACGGAAGCCTTTTGGATCCAAAATGTATTATTTTGGTATTGCTGCACTAGATAGATTTAAAAATAG ATTGAAGGACTATCCTCAGTATTGTCAGCACCTGGCTTCTATCAGCCACTTTATGCAGTTCCCACATCAT TTGCAGGAGTACATTGAGTACGGACAGCAGTCTCGAGATCCTCCTGTGAAAATGCAGGGCTCTATTACTA CCCCTGGAAGTATTGCACTGGCTCAGGCCCAGGCTCAGGCCCAGGTTCCAGCAAAAGCTCCTCTTGCCGG TCAGGTTAACACAATGGTAACCACCTCAACAACCACCACTGTTGCTAAAACGGTTACAGTCACCAAGCCA ACGGGAGTCAGCTTTAAGAAAGATGTGCCACCTTCTATAAATACAACAAATATCGATACATTGCTTGTGG CCACAGATCAAACTGAGAGGATTGTGGAGCCCCCAGAAAATATTCAAGAGAAAATTGCTTTTATTTTCAA CAATCTCTCCCAGTCAAATATGACACAGAAGGTTGAAGAGCTTAAAGAAACTGTGAAGGAAGAATTTATG CCTTGGGTTTCCCAGTATCTGGTTATGAAAAGAGTCAGTATTGAGCCAAACTTTCATAGCCTGTATTCAA ACTTTCTTGATACATTGAAGAATCCTGAATTTAACAAGATGGTTCTGAATGAAACCTACAGAAACATTAA AGTGCTGCTGACTTCTGATAAAGCTGCGGCCAATTTCTCAGATCGTTCTTTGCTGAAGAACTTGGGACAT TGGTTAGGAATGATCACATTAGCTAAAAATAAACCCATCTTACACACAGACTTGGATGTGAAATCTTTGC TGTTAGAGGCTTACGTTAAAGGACAGCAAGAGTTGCTCTATGTGGTGCCCTTTGTTGCCAAAGTTCTAGA GTCCAGCATTCGCAGCCTGGTTTTTAGACCACCAAACCCCTGGACAATGGCAATTATGAATGTATTGGCT GAGCTGCATCAGGAGCATGACTTAAAGTTAAACCTGAAGTTTGAGATTGAGGTGCTCTGTAAGAACCTTG CATTAGACATCAATGAGCTCAAACCTGGAAACCTGCTGAAAGATAAAGATCGTCTGAAGAACTTAGATGA GCAACTCTCTGCTCCAAAGAAAGATGTCAAGCAGCCCGAAGAGCTTCCTGCCATCACAACAACAACAACT TCTACAACACCAGCTACCAGTACTACGTGTACAGCCACAGTTCCACCACAGCCACAGTACAGCTACCACG ACATCAATGTCTACTCTCTAGCAGGCCTGGCACCTCATATTACTCTAAACCCTACAATCCCTTTATTTCA AGCTCATCCTCAGCTGAAGCAGTGTGTGCGGCAAGCAATTGAAAGAGCTGTCCAGGAGCTTGTCCATCCT GTGGTGGATCGCTCAATTAAGATTGCTATGACTACGTGCGAACAGATAGTCAGAAAGGACTTTGCCCTGG ATTCTGAGGAGTCTCGAATGAGAATAGCAGCTCATCACATGATGCGGAACTTGACAGCTGGAATGGCTAT GATTACTTGCAGGGAACCTTTACTGATGAGCATATCCACCAACCTCAAAAACAGCTTTGCCTCAGCCCTG CGTACTGCATCCCCACAGCAAAGGGAAATGATGGACCAGGCTGCTGCTCAGTTAGCTCAGGACAATTGTG AATTAGCTTGTTGTTTTATTCAGAAAACTGCAGTGGAGAAAGCAGGCCCTGAGATGGACAAGAGATTGGC AACTGAATTTGAGCTGAGGAAGCATGCCCGGCAAGAAGGACGTAGGTACTGTGATCCTGTGGTCTTAACC TACCAAGCCGAGCGGATGCCGGAGCAGATCAGGCTGAAAGTTGGTGGTGTGGACCCAAAGCAGCTAGCCG TCTATGAAGAGTTTGCACGAAATGTGCCTGGCTTCTTACCTACAAATGACTTAAGTCAGCCTACAGGGTT TTTAGCTCAGCCCATGAAGCAAGCTTGGGCAACTGATGATGTAGCGCAGATTTATGATAAGTGTATTACA GAACTGGAGCAGCACCTACACGCCATTCCACCCACTCTGGCCATGAATCCTCAAGCCCAGGCTCTCCGAA GTCTTTTAGAGGTTGTAGTGTTGTCTCGGAATTCTCGGGATGCGATAGCTGCTCTTGGATTACTACAGAA GGCTGTAGAAGGCTTATTAGATGCCACAAGTGGTGCTGACGCCGACTTACTGCTGCGATACAGGGAGTGC CACCTGTTGGTACTGAAAGCTCTGCAGGATGGCAGGGCATATGGATCTCCATGGTGCAACAAACAAATCA CAAGGTGCCTAATTGAATGTCGAGATGAATATAAATATAATGTGGAGGCTGTGGAATTGTTAATTCGAAA TCATTTGGTTAACATGCAGCAGTATGATCTTCATCTTGCTCAGTCGATGGAGAATGGCTTGAACTATATG GCCGTGGCGTTTGCTATGCAACTGGTAAAAATTCTGCTGGTGGATGAAAGGAGTGTTGCCCATATTACTG AGGCAGATCTGTTCCATACCATTGAAACCCTCATGAGAATTAATGCTCATTCCAGAGGCAATGCTCCAGA AGGGTTGCCCCAGCTGATGGAAGTGGTGAGATCCAACTATGAAGCAATGATTGATCGTGCTCATGGAGGC CCTAACTTTATGATGCATTCTGGGATCTCTCAAGCCTCAGAATATGATGACCCTCCAGGCCTGAGGGAGA AGGCAGAGTATCTTCTGAGGGAATGGGTGAATCTCTACCATTCAGCAGCAGCTGGCCGCGACAGTACCAA AGCATTCTCTGCGTTTGTTGGACAGATGCACCAACAAGGAATACTTAAAACTGATGACCTCATAACAAGG TTTTTTCGTCTTTGCACTGAAATGTGTGTTGAAATCAGTTACCGTGCTCAGGCGGAGCAGCAGCACAATC CTGCGGCTAACCCTACCATGATCCGGGCCAAGTGCTACCACAACCTGGATGCCTTTGTCCGCCTCATTGC ACTGTTAGTGAAGCACTCTGGGGAGGCCACCAACACTGTCACAAAGATCAACCTGCTCAATAAGGTTCTC GGTATAGTAGTGGGAGTTCTCCTACAGGATCATGATGTTCGGCAGAGTGAATTTCAGCAACTTCCGTACC ATAGGATTTTTATCATGCTGCTGTTGGAGCTCAATGCACCCGAGCATGTGTTGGAAACCATTAATTTCCA GACTCTTACTGCTTTCTGCAATACATTCCACATCTTGAGACCTACTAAAGCTCCTGGCTTTGTATATGCT TGGCTCGAATTGATTTCCCATCGGATCTTTATTGCAAGAATGCTGGCACATACGCCACAGCAGAAGGGGT GGCCTATGTATGCTCAGCTGTTGATTGATTTATTCAAATATTTAGCACCTTTCCTTAGAAATGTGGAACT CACTAAACCTATGCAAATCCTCTACAAGGGTACTCTGAGAGTGCTGCTGGTTCTTTTGCATGATTTCCCA GAGTTCCTTTGTGATTACCATTATGGGTTCTGTGATGTGATCCCTCCTAATTGTATCCAGTTAAGAAATT TGATCCTGAGTGCCTTCCCAAGAAACATGAGGCTCCCAGACCCATTCACTCCTAATCTGAAGGTGGACAT GTTAAGCGAAATTAACATCGCACCTCGGATCCTCACCAATTTCACTGGAGTGATGCCGCCTCAGTTCAAA AAGGATTTGGATTCTTATCTTAAAACTCGGTCGCCGGTCACTTTCCTGTCTGATCTGCGTAGTAACCTAC AGGTATCTAATGAGCCCGGGAATCGCTACAACCTCCAGCTTATCAATGCATTGGTGCTCTACGTAGGGAC TCAGGCTATCGCACACATCCACAACAAGGGCAGCACGCCCTCAATGAGCACCATCACCCACTCAGCACAC ATGGACATCTTCCAGAACCTGGCTGTGGACCTAGACACTGAGGGCCGATATCTCTTCTTAAATGCAATTG CGAACCAGCTACGGTACCCAAACAGCCACACTCACTACTTCAGCTGCACAATGTTGTACCTTTTTGCTGA GGCGAACACTGAGGCAATCCAGGAACAGATCACAAGGGTTCTCTTGGAACGGTTGATTGTAAATAGGCCA CATCCTTGGGGTCTTCTTATCACCTTCATTGAGCTGATTAAAAACCCAGCATTTAAGTTCTGGAACCATG AATTTGTACACTGTGCCCCAGAGATTGAAAAGTTATTTCAGTCTGTTGCACAGTGCTGCATGGGACAGAA GCAGGCTCAGCAAGTGATGGAGGGGACCGGTGCCAGT ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA >MR231947 representing NM_001205226
Red=Cloning site Green=Tags(s) MNLDSLSLALSQISYLVDNLTKKNYRASQQEIQHIVNRHGPEADRHLLRCLFSHVDFSGDGKSSGKDFHQ FLIQECASLITKPNFISTLSYAIDNPLHYQKSLKPAPHLFAQLSKVLKLSKVQEVIFGLALLNSSSPDLR GFAAQFIKQKLPDLLRSYIDADVSGNQEGGFQDIAIEVLHLLLSHLLFGQKGAFGVGQEQIDAFLKTLRR DFPQERCPVVLAPLLYPEKRDILMDRILPDSGGVAKTMMESSLADFMQEVGYGFCASIEECRNIIMQFGV REVTAAQVARVLGMMARTHSGLTDGIPLQSISAPGSGIWSDGKDKSEGAQAHTWNVEVLIDVLKELNPSL NFKEVTYELDHPGFQIRDSKGLHNVVYGIQRGLGMEVFPVDFIYRPWKHAEGQLSFIQHSLINPEVFCFA DYPCHTVATDILKAPPEDDNREIATWKSLDLIESLLRLAEVGQYEQVKQLFSFPIKHCPDMLVLALLQIN TSWHTLRHELISTLMPIFLGNHPNSAIILHYAWHGQGQSPSIRQLIMHAMAEWYMRGEQYDQAKLSRILD VAQDLKALSMLLNGTPFAFVIDLAALASRREYLKLDKWLTDKIREHGEPFIQACMTFLKRRCPSILGGLA PEKDQPKSAQLPAETLATMLACLQACAGSVSQELSETILTMVANCSNVMNKARQPPPGVMPKGRPPSASS LDAISPVQIDPLAGMASLSIGGSAAPHTQSMQGFPPNLGSAFSTPQSPAKAFPPLSTPNQTTAFSGIGGL SSQLPVGGLGTGSLTGIGTGALGLPAVNNDPFVQRKLGTSGLNQPTFQQTDLSQVWPEANQHFSKEIDDE ANSYFQRIYNHPPHPTMSVDEVLEMLQRFKDSTIKREREVFNCMLRNLFEEYRFFPQYPDKELHITACLF GGIIEKGLVTYMALGLALRYVLEALRKPFGSKMYYFGIAALDRFKNRLKDYPQYCQHLASISHFMQFPHH LQEYIEYGQQSRDPPVKMQGSITTPGSIALAQAQAQAQVPAKAPLAGQVNTMVTTSTTTTVAKTVTVTKP TGVSFKKDVPPSINTTNIDTLLVATDQTERIVEPPENIQEKIAFIFNNLSQSNMTQKVEELKETVKEEFM PWVSQYLVMKRVSIEPNFHSLYSNFLDTLKNPEFNKMVLNETYRNIKVLLTSDKAAANFSDRSLLKNLGH WLGMITLAKNKPILHTDLDVKSLLLEAYVKGQQELLYVVPFVAKVLESSIRSLVFRPPNPWTMAIMNVLA ELHQEHDLKLNLKFEIEVLCKNLALDINELKPGNLLKDKDRLKNLDEQLSAPKKDVKQPEELPAITTTTT STTPATSTTCTATVPPQPQYSYHDINVYSLAGLAPHITLNPTIPLFQAHPQLKQCVRQAIERAVQELVHP VVDRSIKIAMTTCEQIVRKDFALDSEESRMRIAAHHMMRNLTAGMAMITCREPLLMSISTNLKNSFASAL RTASPQQREMMDQAAAQLAQDNCELACCFIQKTAVEKAGPEMDKRLATEFELRKHARQEGRRYCDPVVLT YQAERMPEQIRLKVGGVDPKQLAVYEEFARNVPGFLPTNDLSQPTGFLAQPMKQAWATDDVAQIYDKCIT ELEQHLHAIPPTLAMNPQAQALRSLLEVVVLSRNSRDAIAALGLLQKAVEGLLDATSGADADLLLRYREC HLLVLKALQDGRAYGSPWCNKQITRCLIECRDEYKYNVEAVELLIRNHLVNMQQYDLHLAQSMENGLNYM AVAFAMQLVKILLVDERSVAHITEADLFHTIETLMRINAHSRGNAPEGLPQLMEVVRSNYEAMIDRAHGG PNFMMHSGISQASEYDDPPGLREKAEYLLREWVNLYHSAAAGRDSTKAFSAFVGQMHQQGILKTDDLITR FFRLCTEMCVEISYRAQAEQQHNPAANPTMIRAKCYHNLDAFVRLIALLVKHSGEATNTVTKINLLNKVL GIVVGVLLQDHDVRQSEFQQLPYHRIFIMLLLELNAPEHVLETINFQTLTAFCNTFHILRPTKAPGFVYA WLELISHRIFIARMLAHTPQQKGWPMYAQLLIDLFKYLAPFLRNVELTKPMQILYKGTLRVLLVLLHDFP EFLCDYHYGFCDVIPPNCIQLRNLILSAFPRNMRLPDPFTPNLKVDMLSEINIAPRILTNFTGVMPPQFK KDLDSYLKTRSPVTFLSDLRSNLQVSNEPGNRYNLQLINALVLYVGTQAIAHIHNKGSTPSMSTITHSAH MDIFQNLAVDLDTEGRYLFLNAIANQLRYPNSHTHYFSCTMLYLFAEANTEAIQEQITRVLLERLIVNRP HPWGLLITFIELIKNPAFKFWNHEFVHCAPEIEKLFQSVAQCCMGQKQAQQVMEGTGAS TRTRPLEQKLISEEDLAANDILDYKDDDDKV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_001205226 |
ORF Size | 7107 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_001205226.2 |
RefSeq Size | 8369 bp |
RefSeq ORF | 7110 bp |
Locus ID | 234594 |
MW | 266.6 kDa |
Gene Summary | Scaffolding component of the CCR4-NOT complex which is one of the major cellular mRNA deadenylases and is linked to various cellular processes including bulk mRNA degradation, miRNA-mediated repression, translational repression during translational initiation and general transcription regulation. Additional complex functions may be a consequence of its influence on mRNA expression. Its scaffolding function implies its interaction with the catalytic complex module and diverse RNA-binding proteins mediating the complex recruitment to selected mRNA 3' UTRs. Involved in degradation of AU-rich element (ARE)-containing mRNAs probably via association with ZFP36. Mediates the recruitment of the CCR4-NOT complex to miRNA targets and to the RISC complex via association with TNRC6A, TNRC6B or TNRC6C. Acts as a transcriptional repressor. Represses the ligand-dependent transcriptional activation by nuclear receptors. Involved in the maintenance of embryonic stem (ES) cell identity; prevents their differentiation towards extraembryonic trophectoderm lineages.[UniProtKB/Swiss-Prot Function] |
Citations (1)
The use of this cDNA Clones has been cited in the following citations: |
---|
The functional characterization of phosphorylation of tristetraprolin at C-terminal NOT1-binding domain
,null,
Journal of Inflammation (London, England)
,PubMed ID 34090459
[Cnot1]
|
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
MC229736 | Cnot1 (untagged) - Mouse CCR4-NOT transcription complex, subunit 1 (Cnot1), transcript variant 3 |
CNY 22,710.00 |