Wnk2 (NM_029361) Mouse Untagged Clone
CAT#: MC225153
Wnk2 (untagged) - Mouse WNK lysine deficient protein kinase 2 (Wnk2), (10ug)
"NM_029361" in other vectors (2)
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Wnk2 |
Synonyms | 1810073P09Rik; AW122246; ESTM15; mKIAA1760; X83337 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225153 representing NM_029361
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGACGGCGATGGCGGCCGCCGAGACGCCCCCGGCGCGCTGATGGAAGCCGGGCGCGGCACGGGGTCGG CGGGCATGGCGGAGCCGCGGGCGAGGGCGGCGCGGCTCGGGCCCCAGCGCTTCCTGCGGCGCAGCGTGGT GGAGTCGGACCAGGAGGAGCCGCCGGGCCTGGAGGCGGCCGAGACGCCGAGCGCGCAGCCCCCACAGCCT CTGCAGCGCAGGGTGCTTCTACTCTGCAAGACGCGCCGGCTCATCGCGGAGCGCGCCCGGGGCCGCCCCG CCGCGCCCGCGCCCGCCGCGCCCGCTGCGCCTCCCGGCTCCCCGAGTGTCCCCTCGGACCCTGGCCCGGA GCGAGCGGGCACGCAGGAGCCCAGCCCAGATCCCACCACCGCCTCAGCCGCAGCCGCGCAGGTCCCCGAC GGCGGCCCGAGGCAGGAAGAGGCGCCGGCCCCAACACAGGAGGACGCTGGAACCACCGAGGCAAAGCCGG AGCCCGGGCGCGCACGCAAGGATGAACCTGAAGAGGAGGAAGACGATGAGGACGACCTCAAGGCCGTGGC CACCTCTTTGGACGGCCGCTTCCTCAAGTTCGACATCGAGCTGGGCCGGGGCTCCTTCAAGACGGTCTAC AAGGGGCTGGACACGGAGACCTGGGTGGAGGTAGCATGGTGTGAACTGCAGGACCGGAAGCTCACCAAGC TTGAACGGCAGAGATTCAAAGAGGAGGCGGAGATGCTGAAAGGTCTACAGCACCCCAACATTGTGCGCTT CTATGACTTCTGGGAGTCCAGTGCCAAGGGCAAGCGATGTATCGTGCTGGTGACAGAGCTGATGACCTCG GGTACACTGAAGACGTACCTGAAGCGGTTCAAGGTGATGAAGCCGAAGGTACTGAGGAGCTGGTGCCGGC AGATCCTGAAGGGCCTGCTGTTCCTGCATACAAGGACACCCCCCATCATCCACCGTGACCTCAAGTGTGA CAACATCTTCATCACTGGGCCCACCGGCTCTGTGAAGATTGGTGACTTGGGTCTGGCCACCCTTAAAAGA GCGTCTTTTGCCAAAAGTGTGATAGGTACCCCCGAGTTCATGGCACCTGAAATGTACGAGGAACATTACG ACGAGTCGGTTGATGTCTACGCCTTCGGGATGTGCATGCTGGAAATGGCTACCTCAGAGTACCCCTATTC GGAGTGCCAGAACGCCGCCCAGATCTATCGCAAGGTCACCTGTGGCATCAAACCGGCCAGCTTCGAGAAG GTGCATGATCCGGAGATTAAGGAGATCATCGGGGAGTGCATCTGTAAGAACAAAGAGGAGAGGTATGAGA TTAAGGACCTGCTGAGCCATGCCTTCTTCGCGGAAGACACGGGTGTCCGGGTGGAACTTGCCGAGGAGGA CCATGGCAGGAAGTCTACCATAGCCCTGCGGCTTTGGGTGGAAGACCCCAAGAAGCTGAAGGGCAAGCCC AAAGACAATGGAGCCATAGAGTTTACCTTTGACTTGGAGAAGGAGACTCCCGACGAGGTGGCCCAGGAAA TGATCGATTCTGGATTTTTCCATGAGAGTGATGTGAAGATTGTGGCCAAGTCCATCCGTGACCGGGTGGC ACTGATTCAGTGGCGGCGTGAGAGGATCTGGCCTGCACTGCAGTCTCAGGAGCCAAAGGACTCTGGCAGC CCTGACAAGGCCAGGGGTCTGCCAGCACCCCTGCAGGTCCAGGTGACCTACCACGCACAGAGTGGGCAGC CTGGGCAGCCAGAACCTGAGGAGCCTGAGGCCGACCAGCATCTCCTGCCCCCTACCTTGCCAGCTAGCGT TACCTCCTTAGCCTCGGACAGCACCTTTGACAGTGGCCAGGGCTCTACCGTGTACTCGGACTCCCAGAGC AGCCAGCAGAGCATGGTGCTCAGCTCGCTTGTGGACACGGCCCCAACCCCAGCCTCGTGCGTGTGCAGCC CCCCTGTGAGTGAGGGGCCTGGCCTGACCCACAGCCTGCCTACGCTAGGGGCCTTCCAGCAGCCGGCCAC TGTGCCTGGCCTGTCTGTGGGCCCTGTGCCACCCCCTGCCCGCCCTCCACTCCTCCAGCAGCATTTTCCA GAATCTTCCATGAGCTTCACCCCTGTGCTGCCACCACCCAGCACCCCTGTGCCCACGGGCCCAAGCCAGC CAGCACCCCCAGTCCAGCAGCCTCTTCCAATGGCCCAACCACCTACCCTGCCACAGGTCCTGGCCCCACA GCCCATGGGCACTGTCCAGCCAGTACCCTCTCATTTGCCTCCATACCTGGCTCCAACCTCCCAGGTCGTG GCCCCTGCTCAGCTGAAGCCTCTCCAGATGCCACAGCCACCTCTGCAACCTCTTGCTCAAGTCCCTCCGC AGATGCCTCAGATGCCTGTGGTCCCCCCCATCACCCCCTTAACAGGACTCGATGGCCTCCCTCAGACCCT CACTGACCTGCCGGCCGCAAACGTGGCCCCCGTGCCACCACCTCAGTATTTCTCACCTGCTGTGATCTTG CCAAGCCTCACAACACCCCTGCCCACATCACCGGCCCTGCCTATGCAGGCTGTCAAGTTGCCTCATCCCC CTGGAACACCCCTGGCTGTGCCCTGTCAGACCATCGTGCCAAATGCACCAGCTGCTATCCCCCTGTTGGC CGTGGCCCCGCAGGGTGTGGCTGCACTGTCTATCCATCCAGCGGTGGCCCAGATCCCAGCCCAGCCTGTG TACCCAGCAGCCTTTCCACAGATGGTACCTGGAGACATCCCACCCTCACCCCACCACACGGTGCAGAGCT TACGGGCCACCCCTCCACAGCTGGCCTCACCTGTGCCTCCTCAGCCTGTCCAGCCCAGTGTCATTCATCT ACCTGAGCAGGCTGCTCCAACTGCTGCCTCAGGGACCCAGGTCCTGCTGGGCCACCCTCCTTCATACACC GCGGACGTTGCTGCTCCAGTCTCTGCTGTGTCCCTGCCGCCTGCTGTCCTTTCCCCTCCTCTGCCAGATA CTCTGCTGCCTACTGTCCCTGACCTCCTGCCCAAGGTCCCCAGCTCTCTGGCCCCTACAGTGGTCGCAGC CTCTCAGAGTGCGCCCGCACAGACCTCTTCACTCCTCCTGCCAACAAACCCACCCCTGCCCACTGGGCCT GCAGTTGCTGGCCCCTGCCCTGCAGTCCAGCTGATGGTGGAAGTGGCTCAAGAGGAGCAGGTCTCACAAG ACAAACCCCCTGGCCCCCCACAGAGCTCCGAGAGCTTTGGAGGTTCTGATGTCACCTCTGGAAGAGATCT GAGTGACAGCTGTGAAGGCACCTTTGGAGGGGGCAGGCTGGAGGGAAGGACCGCCCGGAAACACCACCGT AGGTCCACTCGTGCACGCTCGCGGCAGGAGAGGGCCAGCCGGCCCCGGCTCACTATCCTAAATGTGTGTA ACACGGGGGACAAGATGGTGGAGTGTCAGCTGGAAACGCATAACCATAAGATGGTGACCTTCAAGTTTGA CCTCGATGGGGACGCTCCGGATGAGATTGCCACGTACATGGTAGAGCATGACTTTATCCTGCCCGCTGAG CGAGAGACCTTCATCGAGCAGATGAAGGATGTCATGGACAAGGCAGAAGACATGCTCAGTGAGGACACAG ATGCTGACCATGGCTCTGATACAGGGACCAGCCCTCCACACCTGGGTACCTGTGGTCTGGCCACGGGGGA GGAGAACAGACAGTCCCAAGCCAATGCCCCTGTCTACCAGCAGAATGTCTTACACACGGGAAAGAGGTGG TTTATCATCTGTCCAGTGGCTGAACACCCAGCAACAGACACTTCTGAATCATCACCCCCACTTCCTCTAA GCTCCTTGCAGCCAGAAGCCAGCCAAGACCCAGCGCCCTATCCAGACCAGCTGTCCTTGACGGACAAACC TAGTTTCCCAGCTGCTCAGCAGCTCCTGAGCCAGGCAGGCTCCAGCAACCCTCCTGGTGGAGCATCAGCC CCCTTGGCCCCGTCTTCCCCTCCTGTGACTACTGTAATCCCGGCAGCACCAGCCACCAGCACCGTGCCAG AGTCAGCAGCAGGGACTGCCATGCAGGCAGGAGGTCCAGGGACTCATCAAGGACCAGCCAGTGTCCATGA GACCCTCCAGCCACTGGCCGAGACACGCTCTGCCCAGTGTACTGCCCAGCCCCTTAGTACTGGCCAAGGA CCTTGCACCCCAGCTCTGGAAGCCTCTCGCTGCTCCACAGGTCTGGGGGAGCCCATCTCAACCAGGGAGG TCAGCACTCAAGGAGAGCCCCTGCCTGCTTCAGTGCCAGAACCTAGCCCTCCCACTGGGGCCACACAATC TGTACCGGGTCAGCCACCACCCCCACTGCCCATCACAGTAGGGGCTATCAGTCTGGCAGCTCCCCAGCTC CCCAGTCCCCCCCTGGGACCTACTGCTCCCCCACCACCCCCCTCAGCCTTGGAATCTGATGGGGAAGGGC CGCCCCCTAGGGTGGGCTTCGTGGACAACACCATCAAGAGTCTGGATGAGAAACTGCGGACTCTGCTCTA CCAGGAGCACGTGCCCACCTCCTCAGCCTCAGCTGGGACCCCCATGGAGGCAAGCGATAGAGACTTCACC CTGGAGCCCCTGCGAGGAGACCTTCCCTCAGCCTTGAGTGACAAGACCCCAAGCCTCACCCAGCAGACCC AGCCCTCATTGGAAAAGTCTGAAACGGCCCCTGCAGGATGGGCCCTGGCCCAGAGGGAACAGGGTGCATC TTCTCCAATGACAGCAGAGTCATCTTCCAGCAATACACTGGGCTGTGACAGTGACGCAGGGCAGGTGGCC TCGGACTCCTCCACAGCACCCAGTGTCCCCCAGGATGCCTCTGGTTCTTCCGTCCCTACACACATGGATC CCAAAGATCAGAACAGTAGTGTTCCCAGAGAAGCCTTGGCAGCACCCATGCAAAGTGGCCCAGGGTCCTT CACAGTGGGCAGCCCAGCCCAGCTGCGTGGCGCCCGGGACTCCGGGTCTCCTCATAAGCGGCCAGGGCAG CAGGACAACAGTTCTCCAGCCAAAACTGTAGGGCGCTTTTCCGTGGTCAGCACACAGGACGAGTGGACTC TGGCGTCACCTCACAGCCTGCGGTACTCTGCCCCACCCGATGTCTACCTGGATGAGATCCCCTCTAGCCC TGAGGTGAAGCTGGCAGTGCGGCGGGTACAGACAGCCTCCTCCATCGAGGTTGGCGTTGAGGAACCTGCC TCTAGTGACTCTGGGGATGAACGCCCAAGAAGGAGGTCCCAGGTGCAGAAGCAGTCCTCCCTGCCGGGTA CTGGTGGTGTGGCAAGTGACTTTGTGAAGAAGGCCACTGCCTTCCTGCACAGGTCTTCAAGGGCTGGCTC GCTGGGACCTGAGACACCCAGTAGGGCAGGTGTGAAGGTCCCTACCATCAGCATCACCTCCTTCCACTCC CAGTCATCCTACATCAGCAGTGACAATGACTCAGAGTTTGAGGATGCAGACATAAAGAAGGAACTGCGCA GTCTGCGAGAAAAGCACCTGAAGGAAATCTCGGAGCTACAGAGCCAGCAGAAGCAGGAGATCGAAGCCCT GTACCGACGCTTGGGCAAGCCGCTCCCTCCCAATGTGGGGTTCTTCCACACTGCACCCCCTATGGGCCGC AGGAGGAAAACCAGCAAGAGCAAATTGAAGGCTGGCAAGCTGCTGAACCCCTTGGTGCAACAGCTCAAGG TCGTGGCCTCCAGCACAGGGTCAGCCCTGAAGCGTCTCTGCCTAGGCAAAGAACACAGCAGTAGGTCTTC CACCAGCAGCCTGGCCCCAGGCCCTGAGCCAGGTCCCCAGCCCACCCTGCACGTCCAGGCGCAGGTGAAC AACAGCAACAACAAGAAAGGCACCTTCACGGACGACCTGCACAAGTTGGTGGACGAGTGGACAACGAAGA CCGTGGGGGCAGCGCAAGTGAAGCCCACGCTCAACCAGCTGAAGCAGACGCAGAAGCTGCACGACATGGA GGCCTCTGGAGACGCTCGGGCTACATCTGTGCCTCGAGCAGCAGTGGGGGCATCGTGTCTGGCCCCGGCC CCTGGCCCTCTGTCCACCACAGCCACTCCTGGAGCCACTCCAGCCCTGCCTGTGCCCATACCAGATCCTG AGAGTGAAAAGCCCGACTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_029361 |
ORF Size | 6180 bp |
Insert Size | 6180 |
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_029361.4, NP_083637.2 |
RefSeq Size | 6932 |
RefSeq ORF | 6180 |
Locus ID | 75607 |
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