Pcnx (NM_018814) Mouse Untagged Clone

CAT#: MC225285

Pcnx (untagged) - Mouse pecanex homolog (Drosophila) (Pcnx), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Pcnx
• Synonyms: 2900024E21Rik; 3526401J03Rik; AF096286; AI327143; AI413187; Pcnx1; Pcnxl1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225285 representing NM_018814
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGGGTCGCAGACGCTGCAGATCCTCCGGCAGGGGGTGTGGGCCGCGCTCAGCGGCGGCTGGTACTACG
  ACCCGCACCAGGCCACCTTCGTGAACGCGCTCCACCTCTACCTGTGGCTCTTTCTGCTCGGCCTGCCCTT
  CACGCTTTACATGGCCCTTCCCTCCTCGATGATTATAGTAGCAGTGTATTGTCCTGTGGTAGCTGCTGTT
  TTCATTATTTTGAAGATGGTCAACTATCGACTCCACAGAGCACTTGATGCCGGGGAAATTGTAGATAGGA
  GTGCAAAGGAGTTCACAGATCAGCGAGCCAAAGCCGAACAAGGCAACTGTTCAACAAGGAGGAAGGACAG
  CAACGGTCCAAGTGACCCTGGAGGAGGGATTGAGATGTCAGAATTCATTCGGGAGGCCACACCTCCGGTT
  GGCTGCAGTTCAAGAAATTCTTATGCTGGTCTAGACCCAAGCAATCAGATTGGATCTGGATCCTCTCGAC
  TTGGAACAGCAGCAACTATTAAAGGAGACACGGACACTGCTAAGACCTCTGATGACATAAGTTTGAGTCT
  GGGCCAGAGTTCTAGTCTTTGTAAAGAAGGAAGTGAAGAACAAGATTTGGCGACTGATCGCAAGCTCTTC
  CGCCTGGTCTCCAATGATTCCTTCATTTCTATTCAGCCATCCTTGTCCTCTTGTGGACAGGATTTACCAA
  GGGACTTCAGTGACAAAGTGAGCCTGCCAAGTCATAGCCAGCACCACCGTGTTGATCAGTCACTGTGCAG
  TGCCTGTGACACAGAAGTGGCTTCTCTTGTACCTTTACATTCGCACTCTTATAGGAAGGAGCACCGACCA
  CGAGGAGTGCCACGGACTTCCAGCTCTGCCGTGGCTTTTCCTGACGCATCACTGAGTGGCCTCCCTCTTT
  ATCAGCAGCAGCAGAGACGGGGGTTAGACCCTGTTACTGAGTTAGACTCATCTAAGCCTCACTCAGGCAC
  TCGAGAGTCCTCAGCGGGCAAGTCCTGCCCTCCGGCACAGTCTCAGCCTGCTGCTGACAGAAGAAAAAGT
  AGCTCCCAGCCACCTACAAAGTGTGGGAAGAGCAGGGCGCTGAATGCGGAAAAGAGTGTGGACAGTCTCA
  GGAGCCTGAGCACGCGGAGTAGCGGGTCCACCGAGAGCTACTGCAGTGGGACCGACAGGGACACCAACAG
  CACCCTCAGCAGCTATAAAAGTGAGCAGACCAGCTCCACTCACATCGAGAGCATCTTGTCTGAGCATGAG
  GAATCTCCTAAAGTGGGAGACAAGAGTGCCCGGAAGAGAGAGTGCGGTGCTGACTCAGTGGAAGAGAGGA
  GCCATCGGGCTGATGACCGAAGGACTAGCAGTGACAAGACTGCCCCAGAGGGAAACACACCTGCTGGGCC
  TCCCGAGGCTCCAGATGCTCAGGCATCTGAGGAGATGGCTGACCAGGCTGCTCCCAGCAGCTCTGCATCA
  GAAGATGCCAATAAAAACCCCCATGCAAATGAGTTTACTGTGCCTGGCGACAGGCCGCCTGAGCAGAGTG
  CAGAGAGCAAAGAGGAGCAGAGCGAGAAGCCCAGCCTGGCCACCGACTCCAGAGTTTGTAAAGACGATGG
  TGGGAAGCAGAAGGAAGGAGATGTCCGGCCCAAATCCTCCAGCTTAATCCACCGGACAACTTCTGCCCAC
  AAGCCAGGCAGGAGGCGCACAGGAAAGAAACGGGCCAGCAGTTTTGATTCTAGTCGCCATAGGGACTATG
  TTTCCTTTCGAGGAGTCTCTGGAACCAAGCCGCACAGTGCTGTATTTGGTCATGACGAGGATTCTAGTGA
  TCAAAGCGACTTGAGCAGAGCTCCCAGTATTCATTCGGCTCACCAGTTCAGCAGCGACAGCTCTTCCAGT
  GCCACGTCTCATTCCTGCCAGTCTCCCGAGGGCAAATACGGTGCCCTCAAGACCAAACATGGCCATAGGG
  ACCGGGGCACAGACTCAGACCACACGCACAGAGCTCATCCAGGCCCTGAGGGAACCACCAAAAAGAGGGC
  CTCTCGGAGGACTTCCAGCACAAGTAGTGCCAAGACGCGGGCTCGGGTGCTGAGCTTGGATAGTGGCACT
  GTGGCCTGTTTGAATGACTCAAACAGGCTGCTGGCACCGGACAGTATGAAGCCCTTAACCACTTCAAAGT
  CAGATCTTGAGGCCAAAGAGGGAGAGGTGCTGGATGAGCTGTCTTTACTGGGCCGGGCTTCCCAGCTAGA
  GACGGTCACACGCTCCAGGAATAGTTTGCCAAGCCAGGTTGCATTTCCTGAAGGGGAAGAGCAGGATGCA
  GCCACTGGAGCAGCACAGGCCAGCGAGGAGGCAGTGGCCTTTCGCCGTGAACGCAGCACATTTAGGCGCC
  AGGCAGTACGGCGCCGGCACAATGCAGGGAGTAACCCTACCCCTCCTACCTTGCTCATCGGATCGCCCCT
  AAGCCTTCAAGATGGTCAGCAAGGCCAGCAGTCCACAGCCCAGGTCAAGGTCCAGTCCCGCCCCCCATCC
  CAGGCTGCAGTGCTCAGTGCTAGTGCCTCCTTGCTGGTGAGAAAAGGGAGTGTCCACTTAGAAGCCTCAC
  ATGACCATGCATCTGCCGTAGGCGGTAGCAGTTTGCACGATGAACTTGGTAAGTTCTCGTCCACCCTCTA
  TGAGACGGGCGGCTGTGACATGTCACTGGTGAACTTCGAACCAGCAGCAAGAAGAGCGTCCAATATCTGT
  GACACGGATTCTCATGTATCAAGTTCTACCTCAGTTCGATTTTATCCACATGATATGCTTTCTCTCCCAC
  AGATTCGGTTGAATAGACTGTTGACCATTGACACAGATCTCTTGGAGCAGCAGGACATTGACCTAAGCCC
  TGACTTGGCAGCCACTTATGGCCCCACAGAAGAAGCTGCCCAAAAAGTTAAACACTATTACCGCTTTTGG
  GTCCTGCCCCAGCTGTGGATTGGCATCAACTTTGACAGACTCACTCTGTTGGCACTGTTTGATAGAAACC
  GTGAGATCCTGGAGAATATATTAGCTGTTGTCCTGGCTATTCTTGTGGCTTTTTTGGGGTCCATCCTTCT
  CATCCAAGGCTTCTTCAGAGACATCTGGGTGTTCCAGTTCTGCCTGGTGATCGCCAGCTGCCAGTACTCG
  CTACTCAAGAGTGTTCAGCCTGATTCTTCCTCTCCTAGACATGGTCATAATCGTATTATTGCCTACAGTA
  GACCAGTTTACTTCTGTTTATGTTGTGGTCTCATTTGGCTCTTGGATTATGGCAGCAGAAACCTAACCAC
  AAGCAAGTTCAAGTTATATGGAGTAACCTTCACCAACCCGCTGGTGCTTCTGTCGGCCAGGGACTTGGTT
  ATAGTGTTTACACTCTGTTTCCCAATAGTATTTTTCATTGGTCTCCTGCCTCAGGTGAACACGTTTGTAA
  TGTACCTTTGTGAACAATTGGATATCCATATCTTTGGTGGGAATGCCACCACCAGCCTGCTGGCAGCACT
  GTACAGTTTCCTGTGCAGCATTGTGGCCGTCGCCTTGCTGTATGGGTTGTGCTACGGAGCATTAAGGGAT
  TCCTGGGATGGCCAGCACGTTCCTGTGCTTTTCTCTGTCTTCTGTGGTTTGTTGGTGGCAGTGTCCTATC
  ACCTCAGCCGACAGAGCAGTGACCCGTCTGTGCTCTTCTCTTTGATGCAATCCAAGATTTTTCCCAAAGC
  TGACGAGAAGAACCCAGAAGACCCTCTGTCTGAGGTGAAAGACCCTCTCCCAGAGAAGCTCAGCAACTCT
  GTTAGTGAGCGCTTACAGTCCGACCTGGTAGTGTGTGTCATTATTGGTGTGCTGTATTTCGCTATTCATG
  TGAGCACAGTGTTCACGGCATTGCAGCCTGCTCTCAAGTACGTGCTGTACGCGCTGGTTGGTGTTGTGGG
  GCTTGTAACCCATTATGTGCTGCCTCAGGTGAGGAAGCAGCTCCCCTGGCACTGCTTCTCCCGGCCTCTG
  CTGAGGACAGCCGAGCACAGTCAGTATGAAGTCCGAAATGCAGCCACTATGATGTGGTTCGAAAAACTTC
  ATGTGTGGCTTCTTTTTGTGGAGAAGAATATCATCTATCCACTGATTGTCCTCAACGAGCTTAGCAGCAG
  TGCAGAGACAATTGCCAGCCCAAAGAAACTAGATACAGAGTTGGGTGCTTTGATGATTACCATCGCTGGC
  CTGAAGCTGCTACGCTCTTCCTTCAGCAGCCCCACGTACCAGTACATCACCGTCATCTTCACTGTGCTCT
  TTTTCAAGTTTGACTATGAAGCCTTCTCAGAGACGATGCTGCTGGACCTCTTCTTCATGTCCATCCTGTT
  CAGCAAGCTTTGGGAACTCCTCTACAAGCTGCAGTTCGTGTACACCTATGTCGCTCCCTGGCAGATCACG
  TGGGGCTCTGCGTTCCATGCTTTCGCTCAGCCCTTTGCAGTGCCCCACTCGGCCATGCTCTTTGTCCAGG
  CGATAGTGTCGGCCTTCTTCTCCACGCCACTAAACCCCTTCCTGGGCAGCGCCATATTCATCACTTCCTA
  TGTTAGGCCTGTCAAGTTCTGGGAGAGAGACTACAACACAAAACGTGTAGACCATTCAAATACCAGATTG
  GCTTCTCAGCTTGATAGAAATCCAGGGTCGGATGACAACAATTTGAATTCTATCTTCTATGAACACTTAA
  CCAGATCTCTGCAGCACAGTCTCTGTGGCGACCTGCTCCTAGGACGGTGGGGAAACTATAGTACTGGGGA
  CTGCTTCATCCTTGCCTCCGACTATCTCAACGCCTTAGTACACCTCATAGAGATAGGCAATGGCCTGGTC
  ACTTTCCAGCTGCGGGGACTTGAATTCAGAGGTACCTACTGTCAGCAGCGGGAAGTGGAAGCCATCACTG
  AAGGAGTAGAAGAAGACGAAGGGTTTTGCTGTTGTGAGCCTGGCCATGTTCCGCACGTGCTGTCCTTTAA
  CGCTGCGTTTGGGCAGCGCTGGCTGGCCTGGGAAGTGGTTGTCACTAAGTACATTCTAGAGGGCTATAGC
  ATCACTGACAACAGTGCTGCTTCCATGCTCCAAGTCTTTGACCTTCGCCGAGTTCTTACCACCTACTATG
  TCAAGGGTATCATTTACTATGTCACAACCTCCTCCAAGTTGGAGGAGTGGCTGGCGAATGAGACAATGCA
  GGAAGGATTGCGTCTGTGTGCAGACCGGAACTACGTTGACGTGGACCCAACTTTTAACCCAAACATTGAT
  GAGGACTATGACCACCGGCTGGCAGGCATATCTCGGGAGAGCTTCTGTGTGATTTACCTCAGCTGGATAG
  AGTACTGCTCTTCCCGGAGAGCAAAGCCACTTGATGTAGATAAAGATTCATCTCTGGTGACTCTTTGTTA
  TGGACTCTGTGTTCTGGGACGAAGAGCTTTGGGAACAGCCTCCCACCATATGTCCAGTAACCTGGAGTCC
  TTCCTCTATGGATTGCATGCCCTGTTTAAAGGGGACTTCCGGATTTCTTCAGTCCGAGACGAGTGGATCT
  TCGCTGACATGGAGCTGCTGAGGAAAGTCGTGGTGCCTGGAATCCGTATGTCCATTAAACTCCACCAGGA
  TCATTTCACATCCCCAGATGAGTATGACGACCCCACTGTGCTCTACGAAGCCATCGTCTCTCACGAGAAG
  AACCTTGTGATAGCCCACGAAGGCGACCCTGCGTGGCGGAGTGCAGTCCTTGCCAACTCTCCCTCCTTGT
  TGGCTCTGCGGCATGTCATGGATGACGGCACCAACGAGTACAAGATCATCATGCTCAACCGGCGCTACCT
  GAGCTTCAGGGTCATCAAGGTGAACAAGGAATGTGTCCGAGGGCTCTGGGCAGGACAGCAACAGGAGCTC
  GTTTTTCTCCGGAACCGGAACCCAGAGAGAGGCAGCATCCAGAATGCCAAGCAGGCACTGCGAAACATGA
  TAAACTCGTCTTGTGATCAGCCTATTGGCTACCCGATCTTCGTGTCGCCCCTCACAACGTCTTACTCTGA
  CAGCCATGACCAACTCAAAGAAATTCTTGGGGGACCAATCAGCTTGGGAAACATCCGGAACTTCATAGTG
  TCCACCTGGCACAGGCTAAGGAAAGGCTGTGGAGCTGGCTGTAACAGTGGTGGCAATATTGAAGATTCTG
  ACACTGGAGGTGGGACTTCCTGTCCTGGTAACAGTGCAGTCACTGCCAGTGATCCCCACAACAATGTGTC
  CCAAGGAAGCACTGGACACCCGGGACAGGGAGCAGGATCCGGACTCCACCCGCCCACCACATCGTATCCT
  CCAACACTAGGCACCAGCCACAGTGCCCACTCGGTACAGTCCAGTCTGGTCAGACAGTCACCGGCACGCG
  CCTCCATGGCCAGCCAGTCTTCCTACTGCTACAGCAGCCGCCATTCATCCCTCCGCATGTCCACCACGGG
  CTTTGTGCCCTGCCGGCGCTCCTCCACCAGCCAGATATCTCTTCGGAACTTGCCATCATCCATCCAGTCC
  CGCCTCTCCATGGTGAACCAGATGGAAGCTGCCAGCCAGGGGGGCATGGGCTGTGTGCAGCACGGCCTGC
  CCTCCTCCAGCAGCTCCAGCCAGAGCATCCCGGCCTGCAAGCATCACACCCTCGTAGCCTTCCTGGGGGC
  AGAGGGCGGTCAGGGCAGTGCCACAGAGGCCCAGCCAGGCAACACCTCAAGTCCTGCCAACATTTCCCAT
  GCCAGAAAGGGGGAAGTGATTTACAGAGTCCAGATTGTGGATCTCAGTCAGATTCTGGAAGGAATCAACG
  TGTCAAAGAGGAAGGAGCTGCACTGGCCTGATGAAGGAATTCGGTTAAAAGCTGGGAGGAACAGCTGGAA
  AGACTGGAGTCCACAGGAGGGCATGGAAGGCCATGTGGTTCACCGATGGGTGCCTTGCAGCAGAGACCCA
  AGTACAAGGTCCCACATCGACAAGACAGTGCTTCTCGTTCAGATCGATGATAAATACGTGACTATAATTG
  AAACCGGGGTACTAGAACTGGGGGCCGAAGTGTGA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_018814
• Insert Size: 7035 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_018814.3, NP_061284.2
• RefSeq Size: 12139 bp
• RefSeq ORF: 7035 bp
• Locus ID: 54604
• UniProt ID: Q9QYC1
• Cytogenetics: 12 D1