Mast4 (NM_175171) Mouse Untagged Clone
CAT#: MC225375
Mast4 (untagged) - Mouse microtubule associated serine/threonine kinase family member 4 (Mast4), (10ug)
CNY 42,090.00
货期*
13周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Synonyms | 4930420O11Rik; AI642422; mKIAA0303 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225375 representing NM_175171
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGGGGAGAAAGTTTCCGAGGCGCCTGAGCCCGTGCCCCGGGGCTGCAGCGGACACGGCGCCCGGACCC TAGTCTCTTCGGCGGCAGCCGTGTCCTCGGAGGGCGCTTCCTCAGCGGAGTCATCCTCTGGCTCGGAAAC TCTGTCGGAGGAAGGGGAGCCCAGCCGCTTCTCCTGCAGGTCGCAGCCGCCGCGGCCGCCGGGCGGCGCC CTGGGAACCCGGCTACCCGCCGCGTGGGCTCCCGCGCGCGTGGCTCTGGAGCGTGGAGTCCCTACCCTGC CGCTGCCGCACCCGGGAGGAGCGGTGCTGCCGGTGCCCCAGGTCAGCAGCGCATCCCAAGAGGAGCAGGA TGAAGAGCTTGACCACATACTGTCTCCGCCACCCATGCCGTTTCGGAAATGCAGCAACCCAGATGTGGCC TGCGGCCTCGGAAAATCACTGAAGTACAAGAGACAGCTTAGTGAGGATGGGAAGCAGCTGCGGCGGGGGA GCCTGGGAGGAGCCCTCACAGGGAGGTACCTCCTTCCAAACCCGGTAGCAGGACAGGCCTGGCCTGCTTC GGCGGAGACGTCCAACCTCGTGCGCATGCGCAGCCAGGCCCTTGGCCAATCGGCTCCCTCGCTCACAGCC AGCTTGAAGGAGCTGAGCCTCCCCCGAAGAGGAAGTCTTTGCCGAACAAGCAACCGGAAGAGTTTGATAG GCAATGGCCAGTCTCCAGCACTGCCTCGACCACACTCACCTCTCTCTGCTCATGCAGGAAATAGCCCTCA AGACAGTCCAAGGAATTTCTCCCCCAGTGCCTCAGCCCATTTCTCATTTGCGAGGAGAACGGATGGGCGC CGCTGGTCTCTGGCTTCTCTCCCTTCCTCAGGCTATGGGACAAATACCCCAAGCTCCACCGTCTCCTCAT CCTGTTCTTCCCAGGAGAAGTTGCACCAGCTACCATACCAGCCAACCCCAGATGAATTACACTTCTTATC CAAACACTTCTGCACAACAGAAAGTATCGCCACTGAGAACCGGTGCAGAAACACACCCATGCGTCCACGT TCCCGGAGTCTCAGCCCTGGACGGTCCCCCGCCTGCTGTGACCATGAAATAATTATGATGAACCATGTCT ACAAAGAAAGGTTCCCAAAGGCCACAGCTCAGATGGAAGAGCGTCTGAAGGAGATCATCACCAGCTACTC TCCAGACCATGTTCTCCCCTTGGCAGATGGGGTACTTAGTTTCACTCACCATCAGATCATTGAGCTGGCT CGGGACTGTTTGGATAAATCTCACCAGGGTCTCATCACGTCGAGATACTTTTTTGAGTTGCAGCACAAAC TGGACAAGTTGCTCCAGGAGGCTCACGATCGCTCTGAAAGTGGAGAACTGGCATTTATCAAGCAACTAGT CCGAAAGATCCTAATTGTCATTGCCCGCCCCGCTCGGTTATTGGAGTGTTTGGAATTTGATCCTGAAGAA TTTTATTACCTATTGGAAGCTGCAGAAGGCCATGCCAAAGAAGGCCAAGGAATCAAAACTGACATCCCTA GGTATATCATCAGCCAGCTGGGACTCAATAAGGACCCTTTAGAAGAAATGGCTCAGTTGGGGAATTACGA CAGTAGGACAGCAGAGACACCAGAGATGGATGAGTCAGTGAGTAGCTCAAATACTTCCCTGAGACTTCGA AGGAAACCCCGAGAGAGTGATTTTGAAACAATTAAATTGATCAGCAATGGAGCCTACGGGGCAGTCTACT TTGTTCGGCACAAAGAGTCCCGCCAGAGGTTTGCCATGAAGAAGATCAACAAGCAGAACCTCATCCTTCG GAACCAGATCCAGCAGGCCTTCGTGGAGCGAGACATCCTGACTTTCGCAGAGAACCCCTTTGTGGTCAGC ATGTATTGCTCCTTTGAAACGAGGCGTCACTTATGCATGGTCATGGAGTATGTAGAAGGGGGAGACTGTG CGACCCTAATGAAAAACATGGGACCTCTCCCAGTTGATATGGCCAGAATGTATTTCGCCGAGACCGTCTT GGCCTTGGAGTACCTGCATAATTACGGAATCGTACACAGGGACTTGAAGCCAGACAACCTGTTGGTCACC TCCATGGGGCACATAAAACTGACTGACTTCGGCTTGTCTAAGGTGGGATTAATGAGCATGACCACCAATC TCTATGAAGGCCACATAGAGAAGGACGCTCGAGAGTTCTTAGATAAACAGGTCTGTGGTACACCTGAGTA CATTGCCCCCGAGGTGATTCTGAGACAGGGCTACGGGAAACCCGTGGACTGGTGGGCCATGGGCATTATC CTCTATGAATTTCTGGTCGGATGTGTGCCTTTCTTTGGGGACACTCCAGAAGAGCTATTTGGACAAGTCA TCAGTGATGAAATCAACTGGCCTGAAAAGGACGAGGCCCCTCCTCCAGACGCTCAGGAGCTGATTACCTT GCTCCTCAGGCAGAATCCGCTGGAGAGGCTGGGAACAGGTGGAGCCTATGAAGTGAAGCAGCATCGTTTC TTCCGCTCCTTAGACTGGAACAGTTTGCTGAGACAGAAGGCGGAATTTATTCCCCAACTGGAATCGGAGG ATGACACAAGTTATTTTGATACTCGGTCAGAGAAGTATCATCACATGGAGACGGAGGAGGAGGACGATAC AAACGATGAGGACTTCACCGTGGAGATAAGGCAGTTTTCTTCCTGTTCACACAGGTTTTCAAAAGTTTTC AGCAGTATAGATCGCATAACTCAAAATTCAGGAGAAGACAAAGATGACTCTGAGGACAAGACCAAAAGCA CAACGTTGCCATCCACAGAGACACTCAGCTGGAGTTCCGAATACTCTGAAATGCAACAGTTATCGACCTC CAACTCTTCAGATACTGAAAGCAACAGGTGCAAACTCAGCTCTGGCTTGCTCCCCAAGCTGGCTATTTCG ACAGATGGGGAACAAGATGAGGCTGTCCCTTGCTCTGGAGACCCCAGAGAGGAGCCAGAGAAACCTGTCC CTCCCTCTGAGGAGTGTACTCAGGAGGAGCCCGAGGTCACCACCCCAGCCAGCACCATCAGCAGTTCCAC ACTGTCAGTTGGCAGTTTTTCAGAGCACTTGGATCAGATAAATGGGCGAAGCGAGTGTGTGGACAGTACA GATAATTCCTCAAAGCCATCCAGTGAACCCACTTCTCACGTGGCTCGACAGCGCTTAGAAAGCACAGAGA AAAAGAAAATTTCTGGGAAAGTCACAAAGTCCCTCTCGGCCAGTGCTCTGTCCCTCATGATCCCAGGAGA TATGTTCGCTGTATCTCCATTGGGAAGCCCAATGTCCCCACACTCCCTGTCTTCAGACCCTTCTTCTTCA CGGGATTCCTCTCCCAGCCGAGACTCTTCTGCAGCATCTGCCAGTCCGCATCAGCCCATTGTCATCCACA GCTCAGGCAAGAACTATGGGTTCACCATCCGTGCTATCCGCGTGTACGTGGGGGACAGTGACATCTACAC AGTGCACCATATCGTCTGGAACGTAGAAGAAGGAAGTCCCGCATACCAGGCAGGACTGAAGGCCGGGGAT CTGATCACACACATCAACGGAGAGCCGGTGCACGGCCTCGTCCACACGGAAGTTATCGAGCTCCTGCTGA AGAGTGGGAATAAGGTGTCTATCACCACTACTCCATTTGAAAACACATCAATCAAAACGGGACCAGCCAG GAGAAACAGTTACAAGGGCCGGATGGTGAGACGAAGCAAGAAGTCCAAGAAGAAGGAGAGTCTAGAAAGG AGGAGATCTCTCTTCAAGAAGCTGGCCAAGCAGCCTTCTCCTTTGCTCCACACCAGCCGAAGTTTCTCCT GCTTAAACCGGTCCCTGTCATCTGGAGAGAGCCTCCCGGGTTCCCCAACTCACAGCTTGTCCCCGAGGTC TCCAACACCCAGTTATCGTTCTACTCCCGATTTTCCGTCAGGTACAAATTCCTCCCAGAGCAGCTCCCCA AGTTCAAGTGCCCCCAATTCTCCAGCAGGTTCAGGGCACATCCGGCCCAGCACCCTCCATGGCCTGGCTC CCAAACTCAGCGGGCAGCGATACCGCTCTGGAAGACGGAAGTCGGCTGGCAGCATCCCTCTCTCCCCGCT GGCCAGGACACCCTCTCCCACTCCACAGCCTACCTCTCCTCAGCGTTCACCATCCCCACTGTTGGGACAC TCACTGGGCAATGCCAAGATCACTCAGGCCTTTCCTAGCAAGATGCACTCTCCCCCCACAATCGTCAGAC ACATCGTGAGGCCCAAGAGTGCAGAGCCGCCCCGCTCCCCACTGCTGAAACGGGTGCAGTCGGAGGAAAA GTTGTCACCCTCCTATGGCAGTGACAAGAAGCTTCTGTGCTCCCGCAAGCATAGCCTAGAGGTGACACAA GAGGAGGTACAGAGGGAGCAGTGTCAGCGGGAAGTGACACTGCAGAGCCTGGAAGAGAATGTGTGTGACG CTCCTTCCCTCAGTCGGGCCAGGCCAGTGGAGCAAGGCTGTCTGAAACGCCCCGTGTCCCGGAAGGTGGG CAGGCAAGAGTCTGTGGATGACCTGGACCGGGACAAGCTGAAAGCCAAGGTTGTCGTAAAGAAACCAGAA GAGAAACATGAATCGCACCAGAAACCTCACAGCCTTGGTGGTGATTCGGAAAGCTATGCTCTCTTCAGGC TAGAGGAGAGAGAGAAAAAAGTGTACTCCAAGGGGTTGGAAAGGTCAGGCCATTTTGAAAACACATCAGC AGAGTTGCCTTCTGTGGGCAGCCTGCTGAAGGACACTCTTCACAAGCAGGCCAGCGTGAGGGCCAGCGAG GGGGTGACCTCAGACGGGGCAGCTTGCAGCCTGACACCAGGGGAGCACAGCCAGTCTCTAGGTGACTTTA AGCGGGCCTCAGCTTCTGGCATTCTCCATGATAGTGTGTGCCCCATCTCTGATAGGCCTGCTCCTGGAAA GGTTGAATACTCGGAGAAGGCCTCTCAGGCCAAAGAGCTCCTTCGAAGTGAAAAACTAGACAGCAAGCTG GCCAATATTGATTACCTCAGAAAGAAAATGTCATTGGATGACAAAGATGACAGCCACTGTGCCATCCTGA AACCCAAGATAACATCTAGCGCCCATGAATGTCTGCCAGGGAACCCCATACGGCCCATGGCAGGGCAACA AGAGACCCCGCCAGCCTCTGAAAACCGGGCATTCATCAACAGTACCCACACACCTCAGATGAGTGCAGTT TCCTTTGTTCCTCTCAAAGCCTTAGCTGGCCGGGTAGAGAACGGAGGGGAGAAAGCAGGCTTAGCTGCTC CCGAGTCCCCTGTCAGGAAGAGCCCCTCCGAGTATAAGCTAGAGGGCAGGTCAGTTTCATGTCTCAAGCC GATCGAGGGCACACTGGACATTGCTCTCCTGTCTGGACCTCACGCCTCCAAAACAGAGTTGCTTTCCCCA GAGCCTGCACAGAGTCCCAGCCCAGGCATCAACGTGGGACCATGTGTGCCACTAGCTCTTCCTGGGAGCA GTGGGAAAAAGGGAGACTCCACCAGCCTGAGAGAGCCTTCCTCAGCCAACTTAAAAGTAAATAAATCTTA TCTGCTGGAGCCTCGGTTCCTACCCCCGAGCCGGGCTCTCCAGGACTCTCTCGCAGCCTCTGGGCCAGAA CCGAAGTCAAAGCCGGAAAGGAAGCTCATTCATCCTTCTGCCAGGAGCCCAGCAACTGTCACAGAGAGCA ATCTTCAGCAGAAAGAGGGTGGTCCCGCCACACACCAAGACCGCTCCACTGACACCAGGAACCTCCCTGG CCCAGGGCAGACCCTACACAATGTGGACCTACCCAGGCTGTGTACACGTGCCCCACTCCCACCGGAAGGG ACGCCCGCAAAGGAGAAGCCATGTCTGAAGGAACCCTCTGCCAAGGTGAAAAGCGAGTGGTCTGCCGTGA GGGATGACGGACACAGAGATCCCTGTGCGAAGCTGTGCCCGGCAGAGACTGGTAAAGCCAGCGACAGTTC CAAACCCCTGCCTTCCGGGGGGAGGACCCAACCCGATTTCTACAAGCAGACCCAGACTTCGGAGAAAGCA TGGGCGCATGCAAAAACAAACCACAAAGATAGCCAAGATGAGGTGAAGTCCCTGGCCAGGGAGGACTCAG CTTCACTTTTATATGAAAAGGAGATAGGCCGGGCACGAAAAGGTCCTGAACCCAAACCGGAAGTTCCTGC TACCCGGTGCCCTCCTCAGCCACCAGGAATTGAGGGTGAGAAGCGAGAAAAGCTCTCCGCTGCCCCCTCT TTGCAGAAACAGGCTCCCAAAGAGCCAGACAGGAAGGAACAGACTTCGCAAAGGCCTGGAGGTAGTGGCC CTCAACAACCCCCACCCACCAAAGAGCTGTCTAACTCAGCATCCTGGCAGCACGGCAGTTCTCCGAGTCA CACTTTAAAGAAGGAGCCCGGGACCAAAGCTGCCGCTGCAGAACCAAGCACCAGCCTTCATGACACTCCC CGATCTGCTACAGCCACCACCACTGCCATTGCCACCACCACCACTACCACCAGTGCCGGGCACAGTGACT GCAGTAGCCATAAGGCCCGGCCTGGCCCTGACCCCAGCCCTTCAAAGTCTAAGCACCAAGACAGGTCCCT CTCCTCACAGAAGCTGAGTGCTGGCTCTGCAAAAGGCAAAGAGCCTGTCACTCAACCCCTGGGTGGTTCC ATCAGAGAAGGCAAGGGTGGCAGCAAGGGTCCAGTGGACACATTTTCTGCTGTCCTGACCACCCAGGGCA AAGCAAGTGATGTGCTTGTGCAGGGAGAAGGTCGGGTCTCAATCATTGTCCACACTGAAGAGTGTCCTCT CGATGCCAAACTGAAAAACACCAATGGAGGGTGTCCCCCAGAGATGCAGGCGAAGCATCCACCCAGACAA GGACATCTCAGTGAAGCAGCAGACCAGAAGCCACTCATTGCTGGTGAGAAGCAAAGCCCGTCTCCAAAGC ATCCCAAACCATCCACTGTGAAAGATTACCCCAGTCTGTGCAGACAGACAGACAGAAGCCCAAGCCATCA GGCTACCACTGGGGACAGGAAGGCAGAAGGAAAGAAATGCACAGACGCACTTTATGTCGCAGCCCCAGAG GGCTACAAGCCAGAGGCCAGCCCTTCTCTCCACCACGGCGAGACCGGACTCAGAGGCTCAGAGAGGCCAC CCATGGGCATGGGGAAGGGCTTCTCTGAGCCCAAGGGGAAAGGGCCAGGTCCCCAGAAGTCACTGGCTGA AACAGGCAAGCCCAGCGGTATGAAAAGGTCACCCTCTGCCACCGTGCAGAGCTCTCTCCGCTCAGCTGCC CCCCCAGAAAAGTCTCTGAGTTACTCAGCCAGCTTTCCCGAGGCCCAGCCTGGAGTGCGAGAGGTCCCTG CAGCCAACAGCAGCCCCTCATCTGCCAAGGCTACAGGGGGGACCTCAGAGTTCCCAGCCCCCAGCAGCAG GGACCACAGGAAGCTTCAGTCTGGAGGAGACGGCCGAAGCCAAATGATAAAGAGTGACTCTCTGCCCTCC TTCCGCCTCTCCACCTCTGCTCTGGAGTCACATTTCCAGGATCCACAGGTGCCCATCGCATCAGGCCACC GAGGCAGGGCACTGTCAGTAACTGCTGCCACAGGAGAACCCAAAGGGAGAGAGCTCGCCCAGCCTCCCCC AGTCAGGAAACAGAATGCGTGCAGAGAGGCGACCAGAGCACCCCCAGCCCCAAGCACAGATCGCTCCCTC CCTCTTTCCTCAGAGAAAGACTTCGTGGTTCGGCAGAGAAGGGGCAAGGAGACCTTAAGGAGCAGTCCTC ACAAAAAGGCCTCCTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_175171 |
Insert Size | 7857 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_175171.3, NP_780380.2 |
RefSeq Size | 10671 bp |
RefSeq ORF | 7857 bp |
Locus ID | 328329 |
UniProt ID | Q811L6 |
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