Trank1 (NM_001164659) Mouse Untagged Clone

CAT#: MC225442

Trank1 (untagged) - Mouse tetratricopeptide repeat and ankyrin repeat containing 1 (Trank1), (10ug)

SDS

  "NM_001164659" in other vectors (2)

Reconstitution Protocol

USD 5,070.00

12 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

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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

Other Versions

SKU Description Size Price
MR221388 Trank1 (Myc-DDK-tagged) - Mouse tetratricopeptide repeat and ankyrin repeat containing 1 (Trank1)
    • 10 ug

USD 2,370.00

MG221388 Trank1 (GFP-tagged) - Mouse tetratricopeptide repeat and ankyrin repeat containing 1 (Trank1), (10ug)
    • 10 ug

USD 2,610.00

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