Cntrl (NM_012018) Mouse Untagged Clone
CAT#: MC225281
Cep110 (untagged) - Mouse centrosomal protein 110 (Cep110), transcript variant 1, (10ug)
"NM_012018" in other vectors (2)
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Cntrl |
Synonyms | 6720467O09Rik; AA968343; b2b1468.1Clo; b2b1468Clo; Cep1; Cep110; IB3/5; Ma2a8 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225281 representing NM_012018
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAAGAAAGGTTCTGAACGAAGGCTCTCCAAAGCAAAGATGCCGCTGTCATCTCATTTTCCTGGGCCAT CATCTCTTAGGTCCAGCATGCGATCTAGGTCCCTTTCACCTTTAATTGGATCTGAGACTCAGCCTTTACA TCCTGGCGGACAGTGGCCTGCACAGGCTGAGCTGACAGATGAAAGCACTGTGCCTTTGGAGCCCCAGCAA CGTAAAGGAGCTGAGTCATATGTAGGAGTCCGGTATATTACAGAAGCCCTCATCAAAAAACTCACTAAAC AGGACAATTTGGCCTTGGTGAAGTCTCTGAATCTTTCACTTTCTAAAGATGGCGGCAAGAAATTTAGGTA CATCGAAAATTTGGAAAAGTGTGTTAAACTTGAAGTACTAAATCTCAGCTATAATCTAATAGTGAAGATA GAGAAAGTGGACAAGCTGTTACGATTACGTGAACTCAACTTATCATATAACAAAATCAGCAAAATTGAAG GACTAGAAAACATGTGTAACCTGCAGAAGCTAAACCTAGCAGGTAATGAAATCGAGCATATTCCAGTGTG GTTCGCAAAGAAATTGAAATCTTTACGAGTCCTCAATCTGAAAGGCAATAAGATATCATCGCTCCAGGAT GTAAGCAAGTTGAAGCCACTTCAAGATTTGACTTCTTTAGTCCTCATTGACAATCCAGTTGTGGCCCTTC CGCATTACCTCCAGTTCATCATTTTCCACCTCCGTTCCCTGGAAAGTTTGGAAGGTCAGCCAGTAACCAC TCAGGATAGACAAGAGGCTTTCGAGAGATTCAGCTTGGAGGAGATAGAAAGACTGGAAAAAGACCTGGAG AAGAAGACAGTGGAAACAGAAGAGCTTAAGAACAAGCAAACAAAGTTTCTCGAGGAAATAAAGAATCAGG ATAAACTAAACAAGTCATTAAAAGAAGAAGCCATGTTACAAAAACAGAGCTGTGAGGAGCTAGAAAGTGA CCTCAGCACAAAGAAGGAGTTGCTAAAACAGAAAACAGTGGAACTAACACGGGCATGTCAGAAGCAGTAT GAGCTGGAGCAGGAACTGGCCTTTTATAAAATTGATGCCAAGTTTGAGCCATTAAATTATTATCCATCAG AGTATGCTGAAATTGACAAATACCCAGATGAAAGCCCTTACATTGGCAAATCCAGATACAAGAGAAATAT GTTTGCCACGGAGACTTACATTGTCAGCGACGCCCAGGCAGTTCAGATCAGGAAGATGGTGCCAGAAGGA GGACAGCTTAGACACGAGCACACACCCCCGAGAGTCCAAGCACCACCTGATCTACAGTTGGAAGATACGG AAAAAAAAATAAGTGCAGCACAAACTCGACTGTCAGAACTACACCATGAAATAGAAACAGCAGAACAAAA AGTATTACGGGCTACTCAAGAATTTAAACAACTGGAAGAAGCTATACAACAAAAAAAGATTTCAGAAGCA GAGAAAGACCTCCTTCTCAAGCAGTTGAGTGGTAGACTACAACATCTAAACAGATTACGCCAGGAAGCTC TGGACCTAGAAATACAGATGGAAAAGCAAAGAAAAGAAATTGCCGAAAAGCATGAAGAGATCAATACCGT GCAGCTAGCCACAGACAGCCTGGATCCCAAAGACCCAAAACATTCCCACATGAAAGCCCAGAAGAGGGGC AAAGAACAGCAGCTTGACATTATGAACAGACAGTACACACAGCTCGAAAGCCGCCTGGACGAGATACTTT GTAGAATTGCCAAAGAGACTGAAGAGATCAAGGACCTTGAACAGCAGCTTACAGATGGCCAGATAGCAGC AAACGAAGCTCTGAAGAAGGATTTAGAAGGTGTCATCAGTGGGTTGCAAGAGTACCTTGGAACCATCAAA GGCCAGGCAACTCAGGCCCAGAATGAGTGCAGGAAGCTACAGGATGAGAAAGAGACATTGCTGCAGAGAC TGACAGAAGTCCAGCAGGAGAAGGAGGAACTTGAACTCATTGCCATGGATGCAGAAAATATGAGGAAGGA GCTTGCAGAGCTAGAAAGTGCCCTCCAGGAACAGCATGAGGTGAATGCATCCCTACAGCAAGCCCAGGGA GATCTCAGCGCCTATGAAACTGAGCTAGAGACTCAGTTAAAACTAAAAGACGCTGAAACCAGCCAGCTCA AGCAAGAGTTGGAAAAACTCCTAAGGCGTACTCAGTTAGAGCAATCGGTGCTTCAAACAGAACTGGAGAA GGAGAGAGAATCCCTCAGGGATGCCCTGGGCAAAGCCCAGTCCTCAGAAGAGAAACAACAGGAGAACAAC GAGCTCCGTACACAGCTGAAGCAGCTGCAGGATGACAACAGCCTGTTAAAGAAGCAGCTGAAAGAGTTTC AGAATCACCTTAACCATGTGGTTGATGGTCTGATTCACCCAGAGGAAGTAGCAGCTCGTGTAGACGAGCT AAGGAAAAGGTTGAAACTAGGAGCTGGGGAAATGAGAATCCATAGTCCTTCAGATGTCTTAGGGAAAAGT CTTGCTGACCTACAGAAACAGTTCAGTGAAATCCTTGCACGATCCCAGTGGGAAAAAGAGGAAGCCCAAG TTAGAGAGAGGAAGCTCCATGAAGAAATGGCTCTCCAGCAAGAGAAACTGGCGAATGGTCAAGAGGAGTT CAGGCAGGCCTGCGAAAGAGCACTTGAAGCCAGAATTAAGTTTGATAAAAGACAACATAATGCAAGAATC CAGCAATTAGAAAATGAAATTCACTATTTGCAAGAGAACCTAAAAAGTATGGAAAAAATCCAAGGCCTTA CAGACCTTCAGCTTCAGGAAGCAGATGAAGAGAAGGAAAGAATTCTGGCCCAACTCCAGGAGTTAGAGAA AAAGAAGCGTGAAGATGCCAGATCTCAGGAACAGTTTCTTGGTTTAGATGAAGAACTGAAGAGTCTGAAG AAAGCGGTGGCTGCTTCTGATAAATTAGCTGCGGCTGAGCTCACCATTGCCAAAGACCAGCTCAAGTCCC TGCACGGAACTGTTGTGAGAATTAATCAGGAGCGAGCAGAGGAGCTGCAGGAGGCAGAGAGGTTCAGCAG AGAGGCCATGCAAGCAGCCAAGGACCTGAGCAGAGCGGAGGCAGAGATCGAGCTCCTGCAGCACCTTCTC AGGGAGAGAGAGGGCCAGTTCCGAGATGAGATGGAAAATGCAGATTTAGGTGCTAAAGGAGCAAACTCCC AGCTGCTAGAGATTGAGGCGCTGAACGAGGCCATGGCGAAGCAAAGAGCTGAGATCACGAGACTCCGGGA TGTATTAAACCTCACGGGGGCAGGTACAAAAGGAGGCATTGAGAACGTGTTAGAGGAAATCGCTGAGCTC CGGCATGCAGTCTCTGCTCAGAACGAGTACATCAGCAGCATGGCAGATCCTTTCAGAAGACAAGGCTGGT GGTACTTTATGCCACCAGCACCATCCTCAAAAGTTTCCAGCCATAGTTCTCAGGCCACCAAGGACTCCGG TTTGGGTCTAAAGTACACAGCCTCAACTCCTCTTAGAAAACCACAGCCTGGACAGCAAGAAGAAAAGGAC AGCAGTGGACCTCTGCCTGCTTCAGGGTACTGGGTCTACTCCCCCATCAGAAGCACGCTGCATAAGTCAT TTTCAAAGAGAGAAGATGCAGACAGTGGAGGAGATAGCCAGGAAGAAAGTGGACTGGATGACCAGGAGGA ACCCCCATTTGTGCCTCCCCCTGGGTACATAATGTATACTGTACTTCCTGATGGTTCTCCTGTACCCCAG GGAGTGGCCCTGTATGCACCATCGCCTCCATTGCCCAACAGCAGCCATCCTCTGACCCCCGGCACTGTGG TTTATGGGCCACCTCCTGCTGGGGCCCCCATCATATACGGACCTCCTCCTGCCAACTTCGCTGTTCCCCT TGTCCCCGCGGGTGTGCAGCATTGCAACATCCCAGAGCACCATAACCTAGAGAATGAAGTGTCTAGACTA GAAGACATAATGCAGCACTTAAAATCAAAACAGCGGGAAGAGCGGCGGCAGAAAGCATCCACGCAGCATT CTGAGGAAGAAGTGGATGGGCTGCACCGTGATATTGATGACCTTTTGCAAGAGAAGAAAGAATTAGAACT TGAAGTAGAAGAATTACATAGAACTATTGAGAGACATCAACAACGAAAGGACTTCATTGATGGACATGTT GAGAATCTTATGACTGAACTAGAAATAGAAAAGTCTCTCAAACATCATGAGGATATCGTAGATGAAATTG AGTGCCTAGAGAAAACTCTCCTGAAACGTCGCTCGGAACTCAGGGAAGCTGACCGACTTCTGGCGGAAGC CGAGAATGAGCTTGCATGCACCAAGGAGAAGACAAAGAGTGCTGTTGAAAAATTCACTGATGCCAAGAGA AATTTATTACAAACCGAGTCAGACGCTGAGGCACTAGAAAAGAGAGCCCAGGAGACTGCACTTAACCTTG TGAAAGCAGAGCAGCAGCTAAGACTGCTCCAGGCTGATGCAGAGGACTTGGAGCAGCACAAAATCAAACA AGAAGAAATCTTGAAAGAAATAAACAAAGTTGTAGCAGCCAAAGATGCCGATTTCCAGTGTCTAAACGAG AAGAAGGAAAAACTGACAGAAGAGCTTCAGAGTCTGCAGAGAGACATCAAGGCAGCGCAACACAGTGAGG ATCACCACCTTCAGGTCCTTAGAGAGTCTGAGACTCTCCTTCAGGCCAAGAGAGCTGAGCTGGAAACACT GAAAAGCCAGGTGACAAGCCAGCAGCAGGAGTTGGCTGTCCTGGACTCAGAGTTGGGGCATAGAAGGGAG GAGCTGCTTCTACTCCAGGACAGCCTCGCCCAGGCAAAAGCTGACCTCCAGGAAGCCCTGACACTGGGGG AGACGGAAGTTGCTGAGAAGTGCAGTCACATTAGGGAAGTAAAATCACTTCTGGAAGAACTAAGTTTTCA GAAAGGAGAACTGAATGTCCACATCAGTGAAAAGAAGACTCAGCTCGCACTTATACAGCAGGAGATGGAG AAAGAGGAAAAGAATCTTCAGGTGGTTTTACAGCAGCTGTCGAGACATAAGACTGAACTAAAGAATGTTG CAGACATACTGCAGCTTGAAACCAGCGAGCTCCAAGGTCTGAAGCTCCAGCATGACCAGAAGGTGGTGGA GCTGGAGAAGGCGCAGGTGGACGTGCTGGAGGAGAAACTAGAGCTGGAGAATTTGCAGCAGGCAACGCAG CAGCAGAGAAGGGAGCTAGAGCGGCAGAGACAGCTCCTGGAGAGAGACAGGCGGGAGACAGAGCGAGTGA GGGCAGAGAGCCAGGCCCTGCAGTCCTGCGTCGAATGTCTGAGTAAAGAAAAGGAGGATCTCCAAGGACA GTGCGAGAGCTGGGAAAAGAAGTCTTCCCACGCCCAAAGAGTTCTAGCAGCCACAGAAGAAAGCAACAAA ATGGAGCAGTCCAACCTTGGGAAGTTGGAACTGAGTGTCAGAAAGCTGCGGCAGGAGCTGGAGCAGCTGA GCCAAGACAAGCTTGCCCTACACAGTGAGGTAGCCGAGGTGCAGCAGCAGCTACAAGGTAAACAGGAAGC CATAAACTCTCTGCAGGAGGAACTGGATAGCACCCAAGACCATTTGGACCTAGCAAAGCAGGACCTGATC CACACCACCAAGTGCCAGAACGAGTTGCTCAATGAGCAGACGCAGCTGCAGGAGGACATCAGCAAATGGA TGGCCAGGTTAGAGAGCTGCCAGAAAGAGACGGAGACAAAGGAACAGCAAGTCCAGCAGCTCCAGGATGA GATCAGAGAGAGCAAGCTCCGGCTGGACCAGCAGGAGATGATGTTTCAAAAACTCCAGAAAGAAAGAGAA CGTGAGGAGCAGAAGTTCGAGGCTGGTAAAGTGACGCTGGAGCAGCAGCAGAGGCAGCTGGAGAAGGAGC TGACGGACCAGAAAAGCAGGCTGAAGCAGCTGCTCACAGACGTGTCGGCAGCTGAAGGACGCCTGGGAAC CCTGCAGGAAGAGGAGCGGCGCATTGAGGGCCTGGAGAGGATGCTGTCCCAGGCCAAACAGCAGCTTTCA GAACGGGAGCAGCAGCTAATGGCCAAGTCAGGTGAGCTGCTGGCCCTGCAGAAAGAGGCTGACGATATGA GGGCCGACTTCAGCCTCCTGAGGAACCAGTTCTTAACAGAAAGGAAGAAGGCAGAGAAGCAGGTGGCCGG GCTAAAGGAAGCACTGAAGATCCAGCGCAGTCAGCTGGAGAAAAACCTCCTGGAGCAGAAGCAGGAGAAC AGCTGCATGCAAAAGGAAATGGCTACAATTGAGCTGGTGGCCCAGGACAACCACGAGAGGGCCAGGCGCC TCATGAAGGAGCTGAGCCAGATGCAGCAGGAGTACCTGGAACTCAAGAAACAGGTAGCAAACCAGAAAGA CTTGGAGAGGAGGCAGATGGAGGTCAGTGACGCAATGAGGACGCTGAAGTCGGAGGTGAAAGACGAAATC AGAACCAGTCTGAGGAACCTCAACCAGTTCCTTCCAGAACTTCCAGCAGATCTAGCGTCTATTTTGGAAA GAAATGAAAACTTAAGAGAGTTGGAAAGCTTGAAAGAGAACTTCCCGTTTACCACAAAAGAGAGGATTTT TGAAGAAAAATCCAACTTTCCCCAAGTTCACATCATGGATGAACACTGGCGTGGAGAAGCACTCCGTCAA AGGCTGCGCCGCCATGAAGATCAACTCAAGGCTCAACTTCGACACTGTATGTCTAAGCAAGCAGAAGTAT TGATCAAAGGAAAGCAGCAGACAGAGGGCACCCTACACAGTCTGAGGAGACAAGTTGATGCTTTAGGAGA ACTGGTCACTAGTACCTCCACAGACTCAGCATCATCACCCAGTCTGCCTTCCCTTGTGGAGGACTCCCAG CATGGGCATAGTCAGAGCTCCTTCCAAGTTCTGCAAGTTCCATTAGAAGAACCAAACAGTTACCGCCACT AA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_012018 |
Insert Size | 7002 bp |
OTI Disclaimer | 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). |
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_012018.2, NP_036148.2 |
RefSeq Size | 7612 bp |
RefSeq ORF | 7002 bp |
Locus ID | 26920 |
Cytogenetics | 2 B |
Gene Summary | Involved in cell cycle progression and cytokinesis. During the late steps of cytokinesis, anchors exocyst and SNARE complexes at the midbody, thereby allowing secretory vesicle-mediated abscission (By similarity).[UniProtKB/Swiss-Prot Function] Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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