Kif13a (NM_010617) Mouse Untagged Clone

CAT#: MC224904

Kif13a (untagged) - Mouse kinesin family member 13A (Kif13a), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Kif13a
• Synonyms: 4930505I07Rik; mKIAA4109
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC224904 representing NM_010617
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  CTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCCGGCGC
  GCCC
  
  ATGTCGGATACGAAGGTAAAAGTTGCCGTCCGGGTCCGGCCCATGAACCGAAGAGAGCTGGAACTGAACA
  CCAAGTGCGTGGTGGAGATGGAAGGGAACCAGACGGTCCTGCACCCTCCTCCTTCCAACACTAAGCAGGG
  AGAAAGAAAACCTCCCAAGGTGTTTGCCTTTGATTATTGCTTTTGGTCCATGGATGAATCGAACACAACA
  AAATATGCTGGTCAAGAAGTCGTTTTCAAGTGCCTCGGGGAAGGAATTCTCGAGAAAGCCTTTCAGGGAT
  ACAATGCTTGTATTTTTGCATATGGCCAGACAGGTTCTGGAAAGTCCTTTTCCATGATGGGCCACGCAGA
  GCAGCTGGGCCTTATCCCAAGGCTCTGCTGTGCTCTGTTTCAAAGGATCGCCCTGGAGCAAAATGAGTCA
  CAGACCTTCAAAGTCGAGGTATCGTATATGGAGATCTATAACGAGAAGGTCCGGGACCTCTTGGACCCCA
  AAGGGAGCAGGCAGTCTCTGAAAGTCCGAGAGCATAAGGTCCTGGGGCCGTATGTCGATGGTCTGTCTCA
  GCTGGCTGTCACCAGCTTTGAGGACATTGAGTCACTGATGTCTGAGGGAAATAAGTCTCGAACGGTAGCA
  GCGACCAACATGAATGAGGAGAGCAGCCGTTCCCATGCGGTCTTCAACATCATCATCACACAGACGCTGT
  ATGACCTACAGTCTGGGAACTCCGGGGAGAAGGTCAGCAAGGTGAGCCTGGTAGACCTGGCGGGGAGCGA
  GAGAGTGTCGAAGACTGGAGCTGCGGGTGAGCGGCTGAAAGAAGGCAGCAACATTAACAAATCCCTTACA
  ACCTTGGGATTGGTTATATCGTCACTGGCTGACCAGGCTGCTGGCAAAGGCAAAAACAAATTCGTGCCTT
  ATCGAGATTCGGTCCTTACTTGGCTTCTTAAGGACAATTTAGGAGGGAACAGCCAGACCTCTATGATAGC
  GACCATCAGCCCAGCAGCAGACAACTATGAGGAGACACTGTCCACGCTAAGATATGCAGATCGAGCCAAG
  AGGATTGTGAACCACGCTGTGGTGAATGAGGACCCCAATGCCAAGGTCATCCGAGAGCTTCGAGAGGAAG
  TGGAGAAACTGAGGGAGCAGCTCTCGCAGGCTGAGGCCATGAAGGCCCCCGAGCTAAAGGAGAAGCTCGA
  AGAGTCTGAGAAGCTGATAAAGGAGCTAACGGTGACGTGGGAAGAGAAGCTGAGGAAAACAGAAGCGATC
  GCACAGGAGAGACAGCGGCAGCTGGAAAGCATGGGAATCTCCCTGGAGACCTCTGGCATCAAGGTGGGGG
  ACGACAAGTGCTACCTCGTCAACCTGAACGCAGACCCTGCCCTCAACGAGCTTCTGGTTTACTATTTAAA
  GGATCATACCCGGGTGGGTGCAGATACCTCTCAGGACATCCAGCTCTTCGGAATAGGGATTCAGCCCGAG
  CACTGTGAGATCGACATCGCAGCGGATGGAGACATCACTCTCACGCCCAAAGAAAATGCAAGGTCCTGTG
  TCAATGGCACCCTTGTCTGCAGTACTACCCAGCTGTGGCACGGCGACAGGATCTTATGGGGAAACAACCA
  CTTTTTTAGAATTAACTTGCCTAAGAGGAAACGGCGGGACTGGTTGAAAGACTTTGAGAGAGAAACCAGT
  TCCGCGGAGCACGATCTAGACGCTGCGAGCGAGGCTTCCTCGGAGCCAGACTACAACTACGAGTTCGCAC
  AGATGGAGGTCATCATGAAAACACTGAACAGCAATGATCCAGTTCAAAATGTGGTTCAGGTCCTGGAGAA
  GCAGTACCTGGAAGAGAAGCGGACCGCCCTGGAGGAACAGCGGCTCATGTACGAACGCGAGCTGGAGCAG
  CTTCGCCAGCAGCTCTCTCCCGAGAGGCAGCCGCCCAGCAGCGCCTCAGACCGTCTGGCCTACAGCAGCC
  AGACAGCCCAGCAGAAGGTGACCCAGTGGGCCGAGGAGAGGGATGAACTCTTTAGGCAGAGCTTGGCCAA
  GCTTCGAGAGCAGCTGGTGAAAGCCAACACTTTGGTGAGGGAAGCCAACTTCCTAGCCGAGGAGATGAGC
  AAGCTCACTGACTACCAAGTGACTCTGCAGATCCCTGCGGCCAACCTCAGTGCCAACAGGAAGAGAGGCG
  CAATCGTCAGCGAGCCCGCCATCCAAGCCAGGAGGAAAGGGAAGGGCACCCAGGTCTGGACCATTGAGAA
  GCTGGAGAATAAGCTAATTGATATGAGAGACCTTTACCAAGAATGGAAAGAAAATGTTCCTGAGGCCAAG
  AGGCTCTATGGGAAGCGAGGTGACCCTTTTTATGAAGCGCAGGAGAATCACAACCTCATTGGTGTGGCTA
  ATGTGTTTTTGGAATGTCTCTTCTGTGATGTGAAGCTTCAATATGCAGTACCCATCATCAGCCAGCAGGG
  GGAGGTTGCCGGGCGCCTCCATGTGGAGGTGACGCGCATTACAGGAACCATTCCAGAACGCATGGCGGAG
  GATGACTCTTCAGAGAACTCTAGTGAGAGCGGGAGTCTTGAAGTGGTCGACAGCAGCGGCGAAGTCATTC
  ACCGGGTCAAAAAGCTGACATGCAGGGTGATAATTAAAGAGGCAACCGGGCTACCCATAAGCCTCTCAAA
  TTTCGTCTTCTGTCAGTACACGTTCTGGGACCAGTGTGAGTCTACAGTGGCTGCTCCAGTGGTGGACCCA
  GATGTGCCCTCCCCGCAGTCCAAGGACGCACAGTACACGGTGACCTTCTCTCACTGTAAGGACTATGTGG
  TGACTGTCACAGAAGAGTTCCTGGAGTTCATTTCTGATGGTGCGCTGGCGATTGAAGTGTGGGGCCACAG
  GTGTGCTGGGAACGGAAGCCCCATCTGGGAGGTGGACTCGCTCCATGCGAAGACAAGGACATTGCATGAC
  AGGTGGAATGAAGTGACCCGGAGAATAGAGGTGTGGATCTCCATTCTGGAGCTGAATGAGCTCGGGGATT
  ATGCCGCTGTGGAGCTTCACCAGGCGAAAGACGTCAACACCGGCGGCGTCTTCCAACTCAGACAGGGTCA
  CTCCCGTAGAGTGCAGGTCACAGTGAAACCTGTACAGCACTCAGGGACACTGCCACTCATGGTTGAAGCC
  ATCCTATCAGTATCCATTGGCTGCGTGACCGCCAGGTCCACCAAGCTGCAGAGAGGGCTGGACAGCTACC
  AGGAAGAAGACTTGAATTGTGTAAGAGAGAGATGGTCCGATGCACTCATTAAACGACGGGAATACTTAGA
  CGAACAGATTAAAAAAGTCAGCAATAAAAAAGAGAAAACAGAAGACGACATGGAGCGGGAAGCCAGGCTG
  GTGGAGCAGTGGGTGGGGCTGACAGAGGAGAGGAATGCTGTGCTGGTGCCCGCCCCTGGCAGCGGAATCC
  CCGGGGCACCTGCTGACTGGGTCCCACCTCCTGGCATGGAAACACACATCCCGGTTCTCTTCCTGGATCT
  GAACGCGGATGACCTCAGTGCCAATGAGCAGCTGGTGGGCCCCCATGCGTCCGGTGTGAACTCCATCCTG
  CCCAAGGAACACGGCAGTCAGTTTTTCTACCTGCCCATCATAAAGCACAGTGATGACGAGGTTTCAGCCA
  CAGCCTCCTGGGACTCCTCTGTGCACGACTCTCTTCACCTGAATCGGGTCACACCGCAGAATGAAAGGAT
  CTACCTGATCGTGAAGACCACCGTGCAGCTCAGCCACCCGGCCGCCATGGAGCTAGTGTTGCGGAAGCGG
  ATCGCGGCCAATATTTATAACAAGCAGAGTTTCACCCAGAGTTTGAAGAGACGAATATCACTGATCAATA
  TATGTTACTCCTGCGGCGTGACCTATGAGATAGTATCCAATATCCCAAAGGCGACCGAGGAGATTGAGGA
  CCGGGAAACCCTGGCCCTCCTGGCAGCGCGGAGTGAGAACGAGGGCACTTTGGATGGGGAGACATACATC
  GAGAAGTACACGCGGGGCGTGCTGCAGGTGGAGAATATCCTGAGCCTGGAGCGGCTCCGGCAGGCTGTCA
  CGGTGAAGGAAGCGCTTTCCACCAAAGCGAGGCACATTCGGAGAAGCCTCAGTACACCGAACGTTCACAA
  CGTCTCCTCTAGCCGGCCAGATCTCTCTGGCTTCGATGAAGACGATAAGGGCTGGCCCGAGAACCAGTTA
  GACGTGTCTGACTACAGCTCCAGCTACCAAGACGTCGCGTGCTATGGGACTTTACCCAGGGACTCACCTC
  GCAGGAGCAAGGAAGGTTGTCCATCAGAGAATCCTCATGCCTTAACAGTCAGCCCTTTTAAAGCGTTCTC
  TCCTCAGCCACCAAAGTTCTTCAAACCCCTCATGCCTGTAAAAGAGGAGCATAAGAAAAGGTTGGCCCTG
  GAAGCCAGACCTCTCCTAAGCCAAGAGGACTCGGAAGAGGAGGAAAACGAGCTGGAAGCTCTCAGCAGGA
  AGCTGATGCTTACACAGCCTTATGTGCCCGTGGAGTTCGCTGACTTCAGTGTTTACAATGCCAGCTTGGA
  GAACAGGGAGTGGTCCTCTTCTAAGGCGGACCTGACAGACTCGAGAGCCTTGGAGAAAGCAGTGTCCCGT
  AGCCCTACCACCAGCAGCCTCACCAGTGGCTACTTCTCCCACAGTGCCTCCAATGCCACTCTGTCTGACA
  TGGCAGTCCCCTCCAGCGACAGCTCAGACCAGCTTGCCGTCTCGACAAAGGAGGTCGAGTGCGCCGAGCC
  CCCGGGACCATCACTTGCACCGGATGTCAGACCAGCTTCGAATCAGGAGCTTACAGAAGTAGGAAGAGGC
  TCAGGGAAGGATGAGACAATCGCTGTGCCGCTGGAGGAAAACAGTGCCTTACCCAAGGGGACCCCGTCAC
  CCCAGAGCATCCCTGAGGAAAGTTCCAGAATGCCATGCAGGACTGCTTCATGTTCAGAACTGGATGTCGG
  CCCCAGCAAAGATGGCCACCAAGCCAGAGAATTCTGCCCAGGAGAGGTGACGATAGAACACACTACAAAC
  ATTTTGGAGGACCATTCCTTCACAGAGTTCATGGGTGTTTCTGATGGCAAAGACTTTGATGGTTTGGCAG
  ATTGTTCTGTAGGGGAGCCCTCCAGGAGGAGGGCTCTAACAAACGAAACAGACCATAAAGGTATCCCAGA
  AAGACCTCCAGATGCCGACCGGCTGCATCCCAAGATAGAGAACGACCAGGAAGCCACAGCCACTCGGTAA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: AscI-MluI
• ACCN: NM_010617
• Insert Size: 5250 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_010617.2, NP_034747.2
• RefSeq Size: 6866 bp
• RefSeq ORF: 5250 bp
• Locus ID: 16553
• Cytogenetics: 13 A5