Mast2 (NM_001042743) Mouse Untagged Clone
CAT#: MC224936
Mast2 (untagged) - Mouse microtubule associated serine/threonine kinase 2 (Mast2), transcript variant 1, (10ug)
"NM_001042743" in other vectors (2)
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Mast2 |
Synonyms | MAST205; Mtssk |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC224936 representing NM_001042743
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGAAGCGGAGCCGCTGCCGCGAGCGGCCGCAGCCGCCACCCGCCCGCCGGGAGGATGCGGCTCCGCGGA CGGCCGAGTTGCCCCAGCCGCAGTCTTTGCCCCCGCGCCGGCGAGCGCCGCCCGGGAGGCAGCTACTGGA GGAGCGGAGCGGGCCTTTGGGGCACGACAGCAGGGAGCAGGATATGGTTACTGGACTTAGTCCTCTGCTC TTCAGGAAGCTTAGTAATCCTGACATATTTGCACCCACTGGAAAAGTTAAACTCCAGCGACAACTTAGTC AGGATGACTGTAAGTTACGGAGAGGAAGCCTGGCAAGTTCTCTGTCGGGTAAGCAGCTGCTCCCTTTGTC CAGCAGTGTACACAGCAGTGTGGGACAGGTAACTTGGCAGTCTACAGGAGAAGCATCAAACCTGGTTCGA ATGAGAAACCAATCCCTTGGACAGTCTGCACCTTCCCTTACGGCTGGCTTGAAGGAATTGAGCCTTCCAA GGAGAGGCAGCTTTTGTCGGACAAGTAACCGCAAGAGCTTGATTGTAACCTCCAGCACATCACCTACGCT ACCAAGGCCACACTCCCCACTCCATGGCCACACAGGTAACAGTCCCTTGGACAGCCCCCGGAATTTCTCT CCAAATGCTCCTGCTCACTTTTCCTTCGTTCCTGCCCGTAGCCATGGCCACAGAACAGACAGGACTGATG GACGGCGCTGGTCTTTGGCCTCGTTGCCTTCTTCAGGCTATGGAACCAACACTCCTAGCTCTACAGTCTC TTCATCATGTTCCTCACAAGAAAAGCTTCATCAGTTACCTTTCCAGCCAACAGCTGATGAACTACACTTT CTGACGAAGCATTTTAGCACAGAAAACGTACCAGATGAGGAGGGACGTCGGTCCCCAGCCATGCGGCCCC GTTCCCGCAGCCTCAGTCCTGGACGGTCCCCAGTTTCCTTTGACAGTGAAATAATAATGATGAATCATGT GTACAAAGAAAGATTCCCCAAGGCCACTGCACAGATGGAAGAGCGACTAGCTGACTTCATTTCCTCTAAC ACTCCAGATAGTGTGTTGCCCTTGGCAGATGGAGCACTAAGCTTTATTCATCATCAGGTGATTGAGATGG CCCGAGACTGCCTGGATAAATCTCGGAGTGGCCTCATTACGTCACACTATTTCTATGAACTTCAAGAGAA TTTGGAAAAGCTTCTGCAAGATGCTCACGAACGCTCAGAAAGCTCAGATGTAGCCTTTGTGATACAGCTG GTAAAAAAGTTGATGATCATCATTGCTCGCCCAGCTCGCCTCCTGGAATGCCTGGAGTTTGACCCTGAAG AATTTTACCACCTGTTAGAAGCAGCTGAAGGTCATGCCAAAGAGGGACATGGAATTAAATGTGACATTCC CCGCTACATCGTTAGCCAGCTGGGCCTAACTCGGGATCCCTTGGAGGAAATGGCCCAGTTGAGCAGCTAT GACAGTCCAGATACTCCAGAGACAGATGATTCAGTTGAGGGTCGTGGGGTATCTCAGCCATCTCAGAAGA CCCCCTCTGAAGAGGACTTTGAAACCATTAAGCTCATCAGCAATGGCGCCTATGGGGCTGTCTTTCTGGT GCGGCACAAGTCCACGCGGCAGCGCTTTGCAATGAAGAAGATTAATAAGCAAAACCTAATCCTACGGAAC CAGATCCAGCAAGCATTTGTGGAACGCGACATACTGACTTTCGCTGAAAACCCCTTTGTGGTCAGCATGT TCTGCTCCTTTGAGACCAAGCGTCACTTATGCATGGTGATGGAATACGTAGAAGGGGGAGACTGTGCCAC TCTGCTCAAGAACATCGGGGCCCTACCTGTGGACATGGTACGCCTGTACTTTGCGGAAACTGTGCTGGCT TTGGAATACTTACACAACTACGGCATCGTGCACCGTGACCTCAAGCCTGACAACCTTCTGATTACATCCA TGGGACACATCAAACTCACTGACTTTGGACTTTCTAAAATCGGCCTCATGAGTTTGACAACCAACTTGTA TGAGGGTCATATTGAAAAGGATGCCCGGGAGTTCCTAGACAAGCAGGTATGCGGGACCCCGGAATACATA GCACCTGAGGTGATCCTGCGTCAGGGATATGGGAAGCCAGTGGACTGGTGGGCCATGGGCATAATCCTGT ATGAGTTCCTGGTGGGTTGCGTCCCTTTCTTTGGAGACACTCCGGAGGAGCTCTTTGGGCAAGTGATCAG TGATGAGATCGTGTGGCCCGAAGGTGATGACGCGCTTCCCCCAGATGCCCAAGACCTCACTTCCAAACTG CTTCATCAGAATCCACTAGAAAGACTGGGCACAAGTAGTGCCTATGAAGTGAAGCAGCACCCATTCTTCA TGGGTCTGGACTGGACAGGACTTCTACGGCAGAAGGCTGAATTTATACCTCAGCTGGAGTCAGAGGATGA CACCAGCTACTTTGATACCCGTTCAGAACGATACCACCATGTGGACTCTGAGGATGAGGAGGAAGTGAGT GAGGATGGCTGCCTTGAGATTCGCCAGTTTTCTTCCTGCTCTCCAAGGTTCAGCAAGGTTTACAGTAGCA TGGAACGGCTTTCCCTGCTTGAGGAACGCCGGACACCACCTCCAACCAAGCGCAGCCTCAGTGAGGAAAA GGAAGATCACTCAGACGGCTTGGCAGGACTGAAGGGCCGAGATCGCAGCTGGGTGATTGGGTCCCCTGAG ATATTACGGAAGCGGTTATCTGTGTCCGAGTCATCCCACACAGAGAGTGATTCGAGTCCTCCAATGACAG TGCGACATCGGTGTTCAGGCCTCCCAGATGGGCCTCATTGCCCTGAGGAGACTAGTAGCACCCCTCGGAA GCAACAACAGGAAGGTATATGGGTCCTCATTCCCCCATCTGGAGAGGGGTCATCTAGGCCTGTTCCTGAA CGACCGTTGGAGAGGCAACTGAAGCTGGATGAGGAGCCTCCTGGCCAAAGCAGTCGGTGTTGCCCAGCCC TGGAGACACGAGGCCGTGGGACCCCTCAGCTAGCTGAGGAAGCTACAGCCAAAGCCATCAGCGACCTAGC TGTGCGTAGGGCCCGTCACCGGCTGCTCTCTGGGGACTCTATAGAGAAGCGCACCACTCGCCCTGTCAAC AAAGTAATCAAGTCAGCCTCAGCTACGGCCCTTTCCCTCCTCATTCCTTCAGAACACCATGCCTGCTCAC CATTGGCCAGCCCTATGTCCCCACATTCCCAGTCATCCAATCCATCATCCAGGGACTCTTCTCCAAGCAG GGACTTCTTGCCAGCCCTTGGCAGCTTGAGGCCTCCCATCATCATCCACCGAGCTGGCAAGAAGTATGGC TTCACCCTGCGGGCCATTCGAGTCTACATGGGTGACACTGATGTCTACACCGTACACCACATGGTGTGGC ATGTGGAGGATGGTGGTCCAGCCAGTGAAGCAGGGCTTCGTCAGGGTGACCTCATCACCCATGTCAATGG TGAGCCTGTGCATGGGCTAGTCCACACAGAAGTGGTGGAGCTGGTTCTGAAGAGTGGAAACAAGGTATCA ATTTCAACAACTCCCTTGGAGAACACGTCAATCAAAGTGGGGCCAGCTAGGAAAGGCAGCTATAAAGCCA AGATGGCCCGAAGGAGCAAACGGAGCAAAGGCAAGGATGGGCAAGAAAGCCGAAAAAGAAGCTCCCTATT CCGGAAAATCACAAAGCAGGCCTCCTTGCTCCACACCAGCCGCAGCCTTTCTTCCCTTAACCGCTCCTTG TCATCAGGGGAGAGTGGTCCAGGCTCTCCCACACACAGCCACAGCCTCTCTCCCAGATCTCCTCCTCAGG GATACCGGGTAGCCCCAGATGCTGTGCACTCAGGAGGGAATTCCTCGCAGAGCAGCTCTCCCAGCTCCAG TGTGCCCAGTTCTCCTGCTGGCTCTGGACATACACGGCCCAGCTCTCTTCACGGTCTGGCACCCAAGCTC CAACGCCAATACCGCTCACCACGGCGCAAGTCAGCAGGCAGCATCCCACTGTCACCGTTGGCCCACACCC CTTCCCCACCAGCAACGGCAGCTTCACCTCAGCGTTCCCCATCACCCTTGTCTGGCCATGGGTCTCAGTC CTTTCCTACCAAACTTCACTTGTCTCCTCCGCTAGGTAGGCAGCTCTCACGGCCCAAGAGTGCAGAGCCA CCCCGCTCTCCCCTACTTAAGAGGGTGCAGTCTGCTGAGAAGCTGGCGGCTGCACTGGCAGCTGCTGAGA AGAAGTTAGCACCTTCCCGCAAACATAGTCTTGACCTGCCCCATGGTGAACTAAAGAAGGAACTGACACC CAGGGAAGCCAGCCCTCTGGAGGTAGTTGGAACCAGAAGTGTGCTATCCGGGAAAGGGCCACTTCCAGGA AAGGGGGTACTGCAGCCTGCTCCTTCACGGGCCCTTGGGACCCTACGGCAGGATCGAGCTGAACGCCGTG AGTCACTGCAAAAACAAGAAGCAATCCGGGAAGTAGACTCCTCAGAAGATGACACTGATGAGGAGCCTGA GAACAGCCAGGCCACACAGGAGCCAAGATTGTCCCCCCACCCAGAAGCAAGCCACAATCTACTCCCTAAA GGTTCAGGAGAGGGTACAGAAGAGGACACTTTCTTGCACAGGGATCTAAAGAAGCAGGGCCCTGTACTCT CAGGTCTAGTGACAGGGGCCACACTAGGCTCCCCCCGAGTAGACGTTCCTGGGCTCTCCCCAAGGAAGCT CAGCAGGCCACAAGCCTTTGAGGAAGCTACCAACCCCTTACAAGTCCCTAGCCTGAGCAGGTCTGGACCC ACAAGCCCCACCCCCTCTGAAGGCTGCTGGAAGGCCCAGCACCTCCACACACAGGCACTAACTGCACTTT GTCCCAGCTTTTCAGAACTTACCCCTACCGGTTGTTCTGCTGCCACCTCCACCTCTGGAAAGCCAGGGAC ATGGTCCTGGAAATTCCTTATTGAGGGTCCAGACAGAGCATCCACGAACAAGACCATAACAAGGAAAGGT GAACCAGCTAACTCCCAAGATACGAATACCACGGTCCCAAATCTTCTGAAGAACCTGTCTCCTGAGGAGG AGAAGCCACAGCCACCAAGTGTGCCTGGGCTGACCCATCCGCTTCTTGAGGTCCCCAGCCAGAACTGGCC ATGGGAGTCTGAATGTGAACAAATGGAGAAAGAAGAACCATCCCTGAGCATCACCGAAGTGCCTGATTCC TCAGGCGACAGGAGGCAGGACATTCCATGCAGAGCCCACCCCCTGAGCCCAGAAACCCGGCCCAGCCTGC TCTGGAAAAGCCAAGAACTTGGGGGCCAGCAAGATCATCAGGACTTAGCACTGACATCAGATGAGCTCTT AAAGCAAACCTAG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_001042743 |
ORF Size | 5403 bp |
Insert Size | 5403 |
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). |
Reference Data | |
RefSeq | NM_001042743.2, NP_001036208.1 |
RefSeq Size | 5724 |
RefSeq ORF | 5403 |
Locus ID | 17776 |
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