Trank1 (NM_001164659) Mouse Untagged Clone
CAT#: MC225442
Trank1 (untagged) - Mouse tetratricopeptide repeat and ankyrin repeat containing 1 (Trank1), (10ug)
"NM_001164659" in other vectors (2)
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Trank1 |
Synonyms | A230061D21Rik; C030048J01Rik; Gm187; Lba1 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225442 representing NM_001164659
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGCTTCCACGACCGCGGGCCGCCGCTGGCCTCCGAGGAGACGCAGCTCGAGACGGGGCCCCACGCCGC GGTCCCGCGCGCCCGGCGCGAAGCTTTCGGCCCCGGAGGCCGGGCCGCCACGCCGCGGGCCTCTCCCGCG CGGCGGTGCGGGACGCGACACTCTCCTCGGAGCAAAGGCGACACCTTCGTCTCCCGCCGCGAGGCGATAC GTGACGGCTCTCGGGCCCCCGCAGCCGCGTGGGAGCACGGACTCGGCCTGCGCGGCGCTCCCGCAGCCGG TCCCGCACGAGCCGCGGGAAGCAGCTTTCCGCCTGGCCCCGGCCTCGGAACGCGGGGCCTCGGTGTCACC TGCGCGCATCCCGAGGCGGCGGCGGCGAGTCCCGGCCATGTGGGACCCGCGCGCGGCAAGGACTCCTCCT CGGGAACTGGCTATGCTGCTGTGCAACAAATCCAATGCATTTTACAACCTCGGGAAATGGAACGAGGCTT TTCTTGCTGCCAAGGAGTGTCTCCAATGGGACCCAACCTATGTGAAGGGATACTACCGAGCTGGTTATTC CTTGCTGCATTTGCTCCAGCCTTATGAAGCTGCTCGGATGTTTTTTGAGGGTCTACGACTTTTGCAGAGA AGCCCAGACCAACTGCAGGTTCCTGATTTTCTTGTTGGGATCTTCACAACGATGAGCAGTGACTCCATTG TTTTGCAGAGTTTCTTGCCCTGCTTTGATCATATTTTCACTACTGGATTTTCAACAGAAGTGTGGCAATA TGTAATACAGAAGTTGGCCAAAAAAGGATTATGGCATTCATTTCTACTGTTGTCAGCAAAGAAAGACAGG CTGCCAAGCAACATTCATGTCTCTGAGTTGTCACTACAAAGTCTTTTTGAGAAGTATGTCTTCATTGGGT TTTATGAGAAACTGGAACAAGTGCCCAAGTTGGTTCAGTGGCTCGTCTCCATCGGTGCAAACATTGAAAC CATAGGGCCCAACCCTCTCCATGCCCTTATGCGGCTCTGCATCCAAGCAAGGGAAAGTCAGCTTTTCCGG TGGGTAATGGATCAAAAGCCTGAGTGGAAAGAACACATCAACCACAGAGACGATGCTGGCTGCACTGTCC TGCATGTCGCTGCTGCCCACTTCCCAGGGTACACCAGCAGGCGACAAACTGAAGATGTGCAGATGCTGCT GAGCTTTGGAGCAGACCCTACTCTGCTAGACGGACATGCTCGGACTGTTGTGGATGTTCTGAAGAGGAAC AAGAACTTCAGAGCGATTGACAAAATCAACAGTCACCTGGAAAAGCTGGCATCCAGTTCTAAGGGCCTAT CAGAAATTCCTGCTGGCCTGGTTTGTGACGTTAACCGAGACTGTGCCACCACCTTCATCAAATTCTTACT GGAAAGACAGAAGTGGCCTGAAGTGCTTCTGCTGCTCACCCGCAAAGTCAGCGGGCAGCCTCAGCTCAGA AATGGCGTCATCAAGGATTGTGACCTCTCGGACCTGGACATCTGTACTGTCATTCCCCATCTCAGCTCCT GGGACCAGAGGAAGACCCAGCTTCTGAGCCGCCTGATTGACAGTGGAGCACTGCCTGAGGGTCTCCAAGA CAGCCAGGACAGGCCGCTGCTCATGTGCCTGAGACACGAGGACTTTGACTTAGCTTTTCTTCTCTTGACC AAGGGTGCAGACCCCCGCAGTGTTTCTCTCGTGGAAGGTGACACTCCTTTGCATGCAGCACTACACATCT TTCTGGACATTAACGCTGACATTGGCTTTAACTTCCTGAGCCACCTGTTGGACTTATTCTTGTCCAACCC TACCGAATTTTACTACCTTAATCCTAACGTCCAAGACAGCAATGGGAACACATTGATGCATCTCCTTTTC CAGAAGGGCATGCTGAAGCGCACGAAGAAGCTCATAGATCTGCTGGTGAAGTTTGACATCAACTTCAACC TGAAGAACAAAGCAGGCAAAGGTGTTAGACACCGGATTAAGAAGAACGATGCTCTGCTTTTGGCTTGGAA CAAAGCGCTGACAGAGAGCAGGCGGAAGAACCGCCAAGACCCAGCTGCCCACCTGGGGAGGCTCTCCAGA TCTTCTGCCCCTGGCCATACATCTCAGCTCAAGTCCCAGACGTCCTTCAAGTCTTTGCCATGTGGTACTG CTGACACAACCCTTTCTAAGGGGCTCACAGAGAGTCTCCCTGATGTCCAGGTGAGCAGGCAGGAACCTGA AGCCGTCAGGACACGTTCTTTGAGGGACCGCCTTGTACAGGACATCACAGTTCTGATCCAGCAGGTGGAG CTGGGTATGCCTCTCCCCGAGGACTCTCCTCAGCGAGACTCTCCCAAGGTAGCAGCTGGCACAGAAGGAA AGAAAGACAAACTCCAGAGAACTCAGAGGATGGGGAGCTCTGGCTGCAGCGGAAACAACCCTGTTGCCTC CGAGGCTGGGGATGGCGCTCAGGCAGGTCCAGGGGCTTCACAACTTGTTCCAGTTGGTAACAGATTGGGA GTAGCCAGTGATAATCAGGAGAACTGGACCATGCAGGAGATTCAAGCCTGTCTGCAAGACTTTGATAACA TGACCTGGGAGATTGAGTGTACTTCAGAAATGCTGAAGAAGCTGTCCAGTAAGGTTATGACCAAAGTTAT AAAGAAGAAAATAATCCTTGCCATCCAGCAGTTGGGAAATGGTGAGTGGACCCAGGGCCTGCAGAAGAGG CTGAAACACTCAAAAGGGAATATCCAGCTCTTTGAAGCAAAGCTGGACAAAGGTGCCAGGATGCTGTGGG AGCTTGCCATCGACTTCTCTGCTCGGTGCAGTGAGAACTCTGAGAAAATTATAGGTACGGAGCGGAACAC CTACTCCCTGGAAAAATCAGGGCGGGTCTATACAGAAATCATCCGCATCTGGGACATTGTCTTAGATCAC TGCAAGCTGTCAGATTCCATCATGGCTATCTGTAGTGCCTACACCCGGGGCCTGTCCTGTGTCCTTCGAA AGAAGCTGAAGGGTATCAACAAAGGACAGGTATCAGCTAACATGAAAATCCAAAAGCGGATACCCCGCTG CTATGTGGAAGACACAGAGGCCGAGAAGAGCTTAGAGCAGGTAGATCCTGAGTACTTTCCTCCAGCCAGT GCTGTGGAGACAGAGTACAGCATCATGAAGTTCCACAGCTTCAGTACCAACATGGCCTTAAACATTCTCA ATGATATGACAGCAACGGTGGAGTATCCATTCCGAGTGGGCGAGCTTGAGTACGCCGTGATTGACCTCAA CCCTAAGCCCCTAGAGCCCATCATCCTCATTGGACGGAGCGGCACTGGAAAAACAACCTGTTGCTTGTAC AGGCTTTGGAAGAAATTCCATGTTTACTGGGAGAAGGCTGAGCAGGCAGGAAGCCCATTGCTGTCCAAAC AGATCTTGCCAAAGAGAAGGTTGGAAGTAGAACCAGGAAAAGAGGGTCCAGGTCGAGAGGAAGAAGAACA TGAGGAAGAGGAGGGTTCCATCAAAGTGGAAACGGTGGATGGTATAGATGAGGAGCAAGAGAGTGAAGCC TGTGCAGGAGGAGCCACAGTGGAGCCAGCAGGGGACAGCCAAGGAGCAGAGGGATGTGTGCCGGACCACC CACACCAGCTGGAGCATCTACATCAGATCTTTGTGACGAAGAACCATGTCCTGTGCCAGGAGGTGCAAAG AAATTTTATTGAGCTCTCCAAGTCCACCAAGGCCACCAGTCACTATAAACCACTGGATCCCAATGTCCAC AAACTCCAGGACCTGAGGGATGAAAACTTCCCTCTGTTTGTGACTTCTAAACAGCTTCTCCTCCTGCTCG ATGCCTCTCTGCCAAAACCTTTTTTTCTGAGAAACGAAGATGGAAGCTTAAAAAGAACCATTGTAGGATG GTCCACACAGGAAGAGTTTAGCATCCCCAGCTGGGAAGAGGATGATGAAGAGGTTGAGGCAGATGGGAAC TACAATGAGGAGGAGAAAGCTACAGAAACACAAACAGGGGACAGTGATCCCCGGGTGTATGTGACATTTG AGGTGTTCACCAATGAGATATGGCCCAAAATGATCAAAGGGAGAAGTTCCTACAACCCAGCACTGATTTG GAAAGAGATAAAATCATTCCTGAAGGGTTCTTTTGAGGCTCTTAGTTGTCCCCATGGGAGACTGACTGAA GAAGCCTATAAGAAATTAGGGAGGAAACGATCCCCCAATTTTAAGGAAGATCGGAGTGAGATCTACAGCC TCTTCTGCCTGTATCAACAGATCAGGTCCCAGAAAGGGTATTTTGATGAAGAGGACGTCCTGTACAACCT GTCCTGGAGGCTGTCGAAGCTCAGGGTGCTCCCCTGGTCCATCCATGAGCTTTATGGTGATGAGATTCAG GACTTCACCCAAGCAGAGCTGGCACTGCTGATGAAATGCATCAATGACCCCAACGCCATGTTCCTTACTG GAGACACTGCCCAAAGCATAATGAAAGGCGTGGCTTTCCGTTTCAGTGACCTGCTCTCTCTGTTCCACTA TGCCAGCAGAAGCACAGTAGACAAGCAATGTGCTGTTCGAAAGCCCAAGAGGATCCATCAGCTGTACCAG AATTACAGATCTCACTCAGGAATCCTCAATCTTGCATCTGGAGTAGTGGATTTACTTCAGTTCTATTTCC CAGAATCCTTTGATCGCCTTCCAAGAGATTCTGGACTCTTTGATGGTCCCAAGCCAACTCTCTTGGATTC TTGTAGTGTAAGTGACTTGGCAATCTTGCTGCGAGGGAACAAAAGAAAAACTCAGCCCATCGAATTTGGT GCCCACCAGGTGATTCTTGTTGCCAATGAAAAGGCTAAGGAGAAAATCCCAGAGGAGCTGGGGTTAGCTC TCGTGCTAACTGTTTATGAGGCCAAAGGGCTGGAGTTTGACGATGTCCTCCTTTACAACTTCTTTACTGA CTCTGAGGCTTACAAGGAATGGAAGATCATTTCCTCGTTCACACCGTCATCTGACTCCAGAGAGGAAAAG TGGCCATTGGTTGACGTTCCCTTGGAGAGATCAAGTCCCTCTCAGGCGCGGTCCCTTATGGTGAACCCAG AGATGTACAAGCTCCTCAATGGAGAGCTGAAGCAACTCTACACTGCCATCACTCGGGCTCGGGTCAACCT TTGGATCTTTGACGAAAACCTAGAGAAACGAGCTCCTGCTTTCAAATATTTCATTAGGAGAGACTTTGTC CAAGTTGTAAAGACAGATGAAAATAAAGACTTTGATGATAGCATGTTTGTTAAGACCTCAACTCCTTATG AATGGATCATACAAGGAGACTATTATGCCAAGCACCAGTGCTGGAAGGTGGCAGCTAAGTGTTACCAGAA AGGAGATGCATTAGAGAAGGAGAAGCTGGCCCTGGCCCACTACACTGCCCTGAATATGAAATCCAAGAAA TTCAGCCCCAAGGAGAAGGAGCTGCAGTATTTGGAACTGGCTAAGACTTACTTGGAGTGCAATGAACCAA AGCTATCTCTTAAGTGTTTGAGCTACGCTAAGGAGTTCCAGCTCTCTGCCCAGTTGTGTGAGAGGCTGGG AAAGATAAGAGACGCGGCCTATTTCTATAAGCGAAGCCAGTGCTTCCAAGATGCTTTCAGATGCTTTGAG CAGATTCAGGAATTTGATCTTGCCCTCAGAATGTACTGCCAAGAGGAGCTTTTTGAGGAAGCTGCTATTG CAGTGGAAAAGTATGAAGAAATGCTGAAGAACAAGACCTTTCCCATTCCCAAGCTCTCCTATTCTGCCAG TCAGTTTTACCTGGAAGCTGCTGCAAAGTACCTGAGTGCAAATAAGAGCAAGGAAATGATGGCCGTCCTC TCCAAGCTCGACGTAGAGGACCAGCTGGTGTTCCTTAAGTCACGGAAATGCCTAGCAGAAGCGGCAGAAT TGCTCAACAGGGAGGGCCGGAGGGAAGAGGCTGCCCTATTGATGAAGCAACATGGCTGCCTTCTGGAGGC TGCCAGGCTCACTGCCAACAAGGATTTTCAGGCCTCATGCCTCCTGGGGGTTGCCCGCTTCAATGTGGCC AGAGATTCTGACATAGAACACACAAAGGTTATTCTGAGAGAAGCACTCGATCTCTGCTATCAAACCAGCC AGCTGGCTGGCATCGCAGAGGCCCAGTTCCTGCTAGGGATTATCCTGAGAGACTTTCAGAAGCTTAGAGA TGCCTTCATCAAGTTTGACATGCTCAACCACTCAGCTGGAATGGTAGAAGCTCTCTATGAAGCAGCCAGC CTGTGTGAGTCTGAGCATCAGAAGGTCCTGGCGCTGGCTCCTGGGGGCTTGGAAGTCCTTCTCAATCTGG TCAGGGCCCTTAAAAACGTGACCAACAATGCTGAGAAGGAAATGGTCAAATCTTGCTTTGAGTTCTTTGG AATTTTTCAGGTGGATGCCAAATATTGCCAGATAGCCCAGAATGACCCAGGGCCCATATTAAGAATAATT TTAGACCTGGATTTGACCTTGAGTGAGAAGAAAACAAAGGATCATTTCTTAATAGTGACTGACCAGGTGA AACTAGCCCTGAATAAGCACCTTTTGGGCAGACTGTGTCAGATCACACAGATCCTGCTCGGGAAGGCCTA CCCAGGAATCTGCATGAGATTTATTGTGGGTTTGAAATGTGAGGATGAGCAGTGTGAAGATTTCCACAGG CCCCTCAGGCGCTGTGAGGCCAAGTGCATGGTTCAGTCAAAAATGCACCTGGTTGCAATCAACGGGTTGC TTCTGGAGGCCAAGAAAGTGTTCCCTAATGTCTTAGCTGAAGATCTTGAAGAAATGGATTATATTTTGTC TCCAGATACATATGGCCTTTGCAAATCGTTCCTAAACCTCCTCTTCCCCAGGCATTTCCACCAGAGAGTG CTGTCAGAAAACCCCATGGCCTGTAAAGACATCCTCAAGCCAAATTACAAGTCCTTTCGCTCCTTCCGGT GTGCCTTGAAAGAGTACATCCATGACCTGTTTCAGAAAGAGAGTGCACACAGCCGCAGGGAGTCCACAGA CCTGTGGCTGAGTGCCATGCAGGCCTTCCTTCTGTCCTCCAGCTACCCAGAGGACTTTGAGAAGCTGCTC CGCCAGGAGGAGGACAGTTACAACCGGGAGCTGAAAGTGCTCGAGTCTGACAGAGAGGACAGAGGCAGGG GTCGAGGCAGCAGAGTGAGAGGCATAGAAGGGAAGTTTGGCATGTTGGTGCCCAACAGGGAGGATGAGAA CGTGGAGAAGTCCTACCTGTGCTTCATCCGGCTGCTGGAGAGTTCCATGGACCAGCTCTATGTTCGCAGG AACCCTGGAGACTACAAGAGGCTCTTCTTCCGCTTCATGAATGTTCTCATCAAGAGGTGCAAAGCGCCGC TGGTCCCCAGCATTATCAATACAGTGGTGCTGCTGGAGCTGCAGTTTGTGCACTGTGGGGTGGTACTGAC CCGCCTCTGGAAGAATGCTGTCCTGTGCCTCCCCAAGAGCTACATCGCACTCCTGCACTTCTGGGAGTTT CTGTACGGCAAGAAGGACCGGGAATCTGGGGAGGTGTTCTCCATCATCCAAGAGTACAAGCCAAAGGATG TGACCAGAGCTATCCGGGACTTCCGGTTCCACCTGTCCTACCTTGTCAAGGTGCTGTGTGGCTACGAGAA TATGAACTTCAACGTCCTGCTTGACTCCTTCAGCGAAATAGACTATGTGATATCGGGGGAGGCAGAGCGG ACACTGGTGCTGTGCTTGGTGATGCTGGTGAATGCTGAGGAAGTCCTGCAGCCTTTCTGCAAGCCGCTTC TCTTCCGCCACTTCCGGGAGATCCAGACAAGGCTGCAGCTGATGAGCATGGATTGGCCGGGCCAGGTGCC CAAGAGGCTGCTGAAGGTGGTGCAGCGGGTGCTGGTGGCAGCCAGTGTGAAGTCTGTGGCTGAGGCGCTG CAGGACCTGCTCTTCGAGCGAGACGAGGAGTACCTGGTGGATTGCCACTGGCGGTGGGACAGTGTGCATA CCAAAGGCACTGTGGTCCGTGGCCTCTGCCATGAGGAGGTCAGACTGAACCGCCTGCTCTGTACGGGCCC CATGGACCAGTTTGCTGACTCAGAGTGGGATTTTGGTGAAGATGAGACTCATGAATTAGATGAGTTGGCC CAGGAAGACCGAGATAATTTTCTGGCTGCCATCCTTTCCCAGAAGCAGCGAAAGGCCTTGATCCAGCGCA AGCTGCGCAGAGTCTGCCTAGTGGTGTCTCTGTGCATCCGCTGGAGGAGGTGGGTCCAGACAGAGCACAG CAGAGAGGATAGGGAGGTCAGACCTGGGAACTTCAAAAGGGCCGATGTAGACAGGACCCAGTGCGACCTG TGTGGAGTAAAGTTTACCCGCAGCCCCGAAAGCTACTTTAGTCCTGGCAAAGCATTTGAGGGAACAGCCA CAGAGGCTGTGCTGATTTCCAGGGCTGAACTGGAGGGGAGGGAGTGCCGAGAGAGAATCAGTGAGTCTTA TGAGCAGCACATTCGCCTGGAAGGCCACCGGAGGCAGCAAGCAGCCTACCAGAAGTACTTGGATTTTTTC CATGAAAAGGTAGACCCCATCATCGAAGAAGGCAAAGTGGTGGTGCAGGGCATTGAGCAGAGCGTCTGGA TCCGTAGTCACCTGGGCTCCAAGGAGCAGAGCCACATGCTGCAGAGGAAGGTGCAGGAGCACATCAGGAG GGTTTCAGATCTGGTGGAGGAGCTCTACAGGCGGAAGGCCTGGGCTGAAGCAGAGGAGGTGATGACTCAG CAGGTCAAAATTCTGACCCTGTCAGTCAAGAACGCACAGGAGTGGCTGAAGAAGACAGAGCTCCGCTTAA AAGATGAAGGTACTGTTCAGGAGGAAGAGTATGAAAATGAAGTGGAAGACTTTGGTGAGCTCCGCCCTAG AAGGCGTGCCCAGAAATGTGGGAAGCAGAGAAAGCACTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_001164659 |
ORF Size | 9000 bp |
Insert Size | 9000 |
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_001164659.1, NP_001158131.1 |
RefSeq Size | 10553 |
RefSeq ORF | 9000 |
Locus ID | 320429 |
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