Ptprf (NM_011213) Mouse Untagged Clone

CAT#: MC225019

Ptprf (untagged) - Mouse protein tyrosine phosphatase, receptor type, F (Ptprf), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Ptprf
• Synonyms: AA591035; LAR; LARS; RPTP-LAR
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225019 representing NM_011213
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGCTCCCGAGCCAGCCCCAGGGAGGAGGATGGTGCCCCTTGTGCCTGCTCTCGTGATGCTTGGTTTGA
  TGGCAGGTGCTCATGGCGACAGCAAACCCGTCTTTGTTAAGGTCCCCGAGGACCAGACTGGGCTGTCGGG
  AGGGGTGGCCTCCTTCGTGTGCCAAGCCACAGGGGAACCCAAGCCTCGAATTACGTGGATGAAGAAGGGG
  AAGAAAGTCAGCTCCCAGCGCTTTGAGGTAATTGAGTTTGACGATGGAGCAGGGTCAGTGCTGCGGATCC
  AGCCATTACGAGTGCAGCGAGACGAAGCCATCTATGAGTGCACAGCCACGAACAGTCTCGGGGAGATCAA
  CACAAGTGCCAAGCTGTCAGTGCTTGAAGAGGACCAGCTGCCGTCTGGGTTCCCGACTATCGACATGGGA
  CCTCAGCTGAAGGTGGTGGAGAAGGGTCGCACTGCCACCATGCTGTGTGCAGCCGGTGGGAACCCAGACC
  CTGAGATCTCTTGGTTCAAAGACTTCCTTCCTGTGGACCCTGCTGCAAGCAACGGTCGTATCAAACAGCT
  GCGATCAGGTGCATTGCAGATAGAGAGCAGCGAGGAGTCTGACCAAGGCAAGTACGAGTGTGTGGCCACC
  AACTCTGCAGGCACACGCTACTCGGCCCCCGCCAACCTGTATGTGCGAGTGCGTCGCGTGGCTCCTCGTT
  TCTCCATCCCTCCCAGCAGCCAAGAGGTGATGCCGGGCGGCAGCGTGAATCTCACATGTGTGGCAGTGGG
  CGCGCCCATGCCGTATGTGAAATGGATGATGGGCGCCGAGGAACTGACCAAAGAGGATGAGATGCCAGTC
  GGCCGAAATGTTCTGGAGCTCAGCAATGTCATGCGATCTGCCAACTATACCTGTGTGGCCATCTCTTCAT
  TAGGCATGATAGAAGCCACGGCCCAGGTCACAGTAAAAGCTCTGCCAAAGCCTCCAATTGATCTTGTGGT
  GACAGAGACAACCGCCACCAGTGTTACTCTGACATGGGACTCTGGAAATACCGAGCCTGTGTCCTTCTAC
  GGCATCCAGTACCGCGCAGCTGGCACAGACGGCCCCTTCCAGGAAGTGGATGGTGTGGCCAGCACCCGAT
  ACAGCATTGGTGGCCTCAGCCCCTTTTCGGAATATGCTTTCCGTGTGTTGGCTGTTAACAGCATTGGGCG
  AGGACCACCCAGTGAGGCAGTGCGAGCACGCACGGGGGAGCAGGCACCCTCCAGCCCTCCGCGCCGTGTG
  CAGGCTCGAATGCTTAGCGCCAGCACCATGCTGGTCCAGTGGGAACCACCTGAAGAGCCCAATGGCCTGG
  TACGGGGATATCGCGTCTACTATACCCCAGATTCCCGACGCCCTTTGAGCGCCTGGCACAAGCATAACAC
  TGACGCAGGACTCCTTACCACCGTGGGCAGCCTGCTACCTGGCATCACCTACAGCCTCCGAGTCCTTGCC
  TTCACTGCTGTGGGTGACGGCCCACCCAGCCCCACCATCCAAGTCAAGACACAGCAGGGAGTGCCTGCAC
  AGCCTGCGGACTTCCAGGCTAACGCTGAGTCGGACACCAGGATCCAGCTCTCGTGGCTGCTGCCCCCGCA
  GGAGCGGATCGTCAAGTATGAGCTGGTGTACTGGGCAGCCGAGGATGAGGGCCAGCAGCACAAGGTGACC
  TTCGACCCCACCTCCTCCTACACTCTGGAGGACCTGAAGCCTGACACATTGTACCACTTCCAGCTGGCTG
  CCCGTTCAGATTTGGGGGTGGGCGTCTTCACGCCCACCGTAGAGGCCCGTACAGCACAGTCCACCCCATC
  AGCCCCTCCCCAGAAGGTGACATGTGTGAGCACGGGCTCCACCACGGTCCGGGTAAGTTGGGTTCCACCG
  CCGGCCGACAGCCGCAACGGCATTATCACCCAGTACTCCGTGGCCTATGAGGCAGTGGACGGCGAAGACC
  GTAAGCGACATGTGGTGGATGGCATCAGCCGTGAGCATTCCAGCTGGGACCTGCTGGGCCTGGAGAAGTG
  GACGGAGTACCGGGTGTGGGTGCGGGCACACACAGATGTGGGCCCTGGCCCTGAGAGCAGCCCGGTGCTG
  GTGCGCACCGATGAGGACGTGCCTAGCGGGCCACCACGGAAGGTAGAGGTTGAGCCTCTGAACTCCACTG
  CTGTGCATGTCTCCTGGAAGCTGCCCGTCCCCAACAAGCAGCACGGACAGATTCGTGGCTACCAGGTCAC
  CTATGTGCGGTTGGAGAATGGTGAGCCCCGAGGCCAACCCATCATCCAGGATGTCATGCTGGCTGAGGCT
  CAGGAGACCACCATCAGCGGCCTCACCCCCGAGACCACCTACTCCATCACCGTCGCTGCCTACACCACTA
  AGGGGGATGGTGCCCGAAGCAAGCCCAAGGTGGTTACTACAACAGGGGCAGTCCCAGGACGGCCCACCAT
  GATGGTCAGCACCACGGCCATGCACACCGCGCTGCTGCAGTGGCACCCACCCAAGGAGCTGCCTGGAGAG
  CTGCTGGGCTACCGTCTCCAATACCGGCGGGCCGACGAGGCGCGGCCCAACACCATAGACTTTGGCAAGG
  ATGACCAACATTTTACAGTCACCGGCCTGCACAAAGGGGCCACCTACGTCTTCCGGCTCGCTGCCAAGAA
  CCGGGCTGGCCCAGGAGAAGAGTTTGAGAAAGAGATCACCACCCCCGAGGATGTGCCCAGTGGCTTTCCT
  CAAAATCTTCGAGTGACAGGACTGACCACATCTACCACGGAACTGACCTGGGACCCGCCGGTGCTGGCGG
  AGAGGAATGGTCACATCACCAACTATACTGTGGTCTACCGTGACATCAACAGCCAGCTTGAACTACAGAA
  TGTCACCAACGACACACACCTTACACTCTTGGGCCTTAAACCGGACACCACTTATGACATCAAGGTCCGT
  GCACATACCAGCAAAGGCGCCGGCCCTCTCAGCCCCAGCATCCAGTCCCGGACCATGCCCGTGGAGCAAG
  TGTTTGCCAAGAATTTCCGTGTGGCCGCTGCGATGAAGACATCTGTGCTGCTCAGTTGGGAGGTCCCCGA
  CTCTTATAAGTCAGCTGTGCCCTTCAAGATCCTGTACAATGGGCAGAGCGTGGAGGTGGATGGGCACTCG
  ATGCGGAAGCTGATTGCAGACCTGCAACCCAACACGGAGTACTCCTTCGTCCTGATGAATCGTGGCAGTA
  GCGCCGGGGGCCTACAGCACCTGGTGTCCATCCGCACTGCCCCGGACCTCCTACCCCAGAAGCCACTGCC
  TGCCTCCGCCTTTATAGAGGATGGCCGCTTCTCCCTCTCCATGCCTCAAGTGCAGGACCCCTCGCTAGTC
  AGGTGGTTCTACATTGTGGTGGTGCCCATTGACCGTGTGGGCGGGAACTTGCTGGCACCAAGATGGAACA
  CACCAGAGGAGTTGGAGCTGGACGAGCTTCTGGAGGCCATCGAGCAGGGCGAGGAGAAACAGCGGAGGCG
  CCGGCGCCAAGCAGAGCGGCTGAAGCCTTATGTGGCGGCCCAAGTGGATGTGCTCCCTGACACCTTCACC
  CTGGGGGACAAGAAGAGCTACCGCGGCTTCTACAACCGGCCCCTGTCTCCGGATCTGAGTTACCAGTGCT
  TCGTTCTCGCCTCCCTCAAGGAACCCATGGACCAGAAGCGCTACGCCTCCAGCCCCTACTCGGACGAGAT
  TGTAGTCCAGGTGACGCCAGCACAGCAGCAGGAGGAGCCCGAGATGCTGTGGGTGACAGGCCCTGTCCTG
  GCGGTCATTCTCATCATACTCATTGTCATCGCCATCCTCCTGTTCAAGAGGAAGAGAACACACTCCCCAT
  CATCAAAGGATGAGCAGTCAATCGGGCTGAAGGACTCCCTGTTGGCCCACTCTTCTGACCCTGTGGAGAT
  GCGAAGGCTTAACTACCAGACCCCAGGTATGCGAGACCACCCGCCCATCCCCATCACTGACCTGGCAGAC
  AATATTGAGCGCCTCAAAGCCAACGATGGGCTCAAGTTCTCCCAGGAGTATGAGTCCATTGACCCTGGAC
  AGCAGTTCACATGGGAGAATTCCAACTCGGAGGTGAACAAGCCCAAGAACCGCTATGCAAATGTCATTGC
  CTATGACCATTCTCGAGTCCTCCTCACCTCCATTGATGGTGTTCCTGGGAGTGACTACATCAATGCCAAC
  TACATTGATGGCTACCGAAAGCAGAATGCCTACATCGCCACACAGGGTCCGCTGCCCGAGACCATGGGCG
  ATTTCTGGAGGATGGTGTGGGAACAGCGCACAGCCACAGTGGTCATGATGACCAGGCTAGAGGAGAAATC
  CCGGGTGAAGTGTGATCAGTATTGGCCAGTCCGTGGCACTGAGACCTATGGCCTCATTCAGGTGACCCTG
  GTGGACACTGTGGAGTTGGCCACATACACCATGCGCACCTTTGCCCTCCATAAGAGTGGCTCCAGTGAGA
  AGCGTGAGCTGCGTCAGTTCCAGTTCATGGCCTGGCCAGACCACGGCGTTCCTGAGTACCCCACTCCCAT
  CTTGGCCTTCCTGAGACGGGTCAAGGCCTGTAACCCACTAGATGCGGGGCCCATGGTGGTGCATTGCAGT
  GCGGGTGTGGGGCGCACAGGCTGCTTCATCGTCATCGACGCAATGCTGGAGCGTATGAAGCACGAGAAGA
  CGGTTGACATCTATGGCCACGTGACGTGCATGCGCTCACAAAGGAACTACATGGTGCAGACCGAGGACCA
  GTATGTGTTCATCCACGAGGCCCTGCTAGAGGCTGCCATGTGCGGACACACCGAGGTGCTCGCTCGGAAC
  CTCTATGCCCACATCCAGAAGCTAGGCCAAGTGCCTCCCGGGGAGAGCGTCACGGCCATGGAACTTGAGT
  TCAAGTTGCTGGCCAACTCCAAGGCCCACACGTCGCGCTTTGTCAGTGCCAACCTGCCCTGCAACAAGTT
  CAAGAACCGCCTAGTGAACATCATGCCCTATGAGCTGACCCGAGTGTGCTTGCAACCCATCCGTGGTGTG
  GAGGGCTCAGACTACATCAATGCCAGCTTTCTAGATGGCTACAGACAGCAGAAGGCCTACATAGCTACAC
  AGGGGCCTCTGGCAGAGAGCACCGAGGACTTCTGGCGCATGTTATGGGAGCACAATTCCACCATCATCGT
  CATGCTGACCAAGCTTCGGGAGATGGGCAGGGAGAAATGTCACCAGTACTGGCCAGCAGAGCGCTCCGCT
  CGCTATCAGTACTTCGTTGTTGACCCGATGGCTGAGTACAACATGCCCCAGTATATTCTGCGTGAATTCA
  AAGTCACAGACGCCCGGGATGGGCAGTCAAGGACAATCCGACAGTTCCAGTTTACAGACTGGCCAGAGCA
  AGGAGTACCCAAAACAGGTGAAGGCTTCATCGACTTCATCGGGCAGGTGCACAAGACAAAGGAGCAGTTT
  GGCCAGGATGGGCCCATCACGGTGCACTGCAGTGCTGGTGTGGGCCGCACCGGTGTGTTCATCACCCTGA
  GCATTGTCCTGGAGCGCATGCGGTATGAGGGTGTGGTTGACATGTTCCAGACCGTGAAGACCCTCCGCAC
  ACAGCGCCCTGCAATGGTGCAGACAGAGGACCAATACCAGCTGTGCTACCGTGCGGCCCTGGAATACCTC
  GGCAGCTTTGATCACTATGCAACGTAA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_011213
• ORF Size: 5697 bp
• Insert Size: 5697
• OTI Disclaimer: Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.
  
  The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info

Reference Data

• RefSeq: NM_011213.2, NP_035343.2
• RefSeq Size: 7648
• RefSeq ORF: 5697
• Locus ID: 19268