Rp1l1 (NM_146246) Mouse Untagged Clone

CAT#: MC224985

Rp1l1 (untagged) - Mouse retinitis pigmentosa 1 homolog (human)-like 1 (Rp1l1), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Rp1l1
• Synonyms: BC031365; BE983540; Dcdc4; Rp1; Rp1hl1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC224985 representing NM_146246
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGAACAGCACCCCAGGAGACACGAGGGATGCTCCTGCACCAAGCCACCCTGCACCAAGCCACCGGCAGT
  GTCTCCTGCCCTCCGTGGCTCACACTCCCTCCGTTACTGAGGTGACACCGGCCAAGAAGATAACCTTCCT
  CAAGCGAGGTGATCCCCAGTTTGCTGGGGTTCGCCTGGCTGTTCACCAGCGCACCTTCAAGACCTTCAGC
  TCCCTAATGGATGAGCTGTCTCAGCGCATGCCTCTTTCCTTTGGGGTGCGTTCCGTCACCACACCCCGGG
  GCTTGCATGGCCTCAGTGCCCTGGAGCAGCTGCAAGATGGGGGCTGCTACCTCTGCTCTGATAGGAAGCC
  CCCCAAAACCTCCAGAGAGCCAGGCCGGCTTCAACGGAAAAGCCCCTCTGCTGGGCAGGCACAGGTTTTC
  CAAGGTGGGCATGAAGCTCCAGAAACATCCTATTCCTGGAAAGGTCCCGTGGCCCCAAGGAGGCTGACTC
  TGGTGAAGAACGGGGATCCTAGACGCCAGCAGACAGTGGTTCTCAGTCACAAGAATACCAGGAGTCTGGC
  AGCTTTCCTCGGCAAAGCCTCTGAGCTTCTGCGCTTTCCCGTCAAGCAGGTGTACACGACCCGGGGGAAG
  AAGGTGGACTCTCTGCAGACACTCCTTGATGGCCCCTCTGTGCTGGTATGTGCTGGGAACGAGGCCTTCA
  GATGTCTGGAGATGGAAAATGACAGAGGAAACAGGACCAGAAAGTTATCTAGTGTGACTGCGAGGAGTGA
  ACGTGGTTGCTGGGGACCAAACGCCAAACAAAGTGTCATACACTCGAGGGGCAGGTCTGGCGGCAAGCTG
  CGGCAGGTTTCCTTGACGTCAGAGAGGTCTGGTCTCAGTGACCATCCAGCATCCGGTCATCGAGCCTGGG
  CAGGCCCTGCTTTGGACAGGTGCCCTCAGGACATGCCTGTCCCACCTGGTTCCTTGGTGGCTGCTGATGA
  TGTGGAGAAGAAGGTCTGCATGAATGAGGACGGCAGTCTGTCTGTGGAGATGAAAGTCCGCTTCCAACTT
  CTGGGCGAGGACACCCTGCGGTGGTCCCAAAGGGTGGGGCAGGCCAGTGTCTTCACAGCAGCCAGTGGAA
  AGGGTCAGGACCCGAGGGAGGCTGACAGGTTCTGTTGCAGACAGGAGGGCTACCCTTGGGGCATCTTAAA
  GCCTGGGGCACAGGGACTGGGTTCCTATGATGGAGGATGCCAGGAAGCCTTTGATGTGGGCCAAAAGTCA
  CAACCCAGCTATGACATATGGAGGAACCCCCTGGCCACCCCTGAGGGCACAGGACCAACACCTCGAAGGA
  GATGGGGTCTGGCTAAGCTCTCTGGATGCAAGAGCCACTGGAGACAGGAGGCCAATCATAGGAAAGGGCA
  TGACAAGGATAATCTCAGCCGAGTCTCAACTCCCAGGCACCCTAGAAGTGTCCAGCCAGGCTCCTGCTGT
  CCTTGGACTCCAGACGGCGATACAGGCAGTGACACCTTGCATCCAGTCTCCTCAGCTTCTTCCCACAATG
  AGACTGACCTGGAATCTGGTGAAGGCCTCTGCCTAGAGGACACAGGACCCCATGGCTCGAGACCTGAGAC
  CCAAAGTACAGAAAGGGCCCTGTCTGATACATCAGTCAGTGCCAAGTCTCGTGAGGAGTCTAGTGAAGGT
  GGTGGTCAGCTCCACAGAAGCTCAAGCCAGGCAAGGGTCATGGCTTCCCGGGAGCAAGTCACCAAGGGTG
  ACAACCCCTGTATTTCCACCCAGAGTCACTTACCTTTGAATCACATGGGTCTTCAGACAGAGAAGTATAG
  ACAGGGCACCAGGGGTTGGGAGGTCAGCGGAGAGCCTGAACTGAGACTGGCCCTGGTTCCAGGCCATTCT
  GGCTCTCAGGACACACAGAGAGATGCTCTCCCAGCTCCTGCCTGTGCCCCAGCCCAATGGAGGCAGAGAA
  AGCAGAAGAGGCCAGCTAGTGTTGAGTGTTTGCCCAGTGTCTCTGTCCCTTACCAAGTGGCTCAGAAAGG
  CCATGCCAGGCAGGATCACTATTACAGGGACACTCAATCCTCACTGGACACAGCCTTGCAAATGCCAATG
  CCTCAGGAAAGAGAACAGGCCTGCCCAGGAAGCCCAGCACCACAATCTCCTTCAAATTCACCCAGTGCTG
  GGAATCAAGCCTCTGAGGACCTGAGATCCCCATTCTCTAGTTCTCTTGATCTTCAGGAACCACAAGCCAC
  CAGCAAAGCCACCACCATCGCCGTGAGTGGCTCAGACTGTGTTTGCCACAGCACTCGCTCTGTGGAGCCA
  GCAGGAGACACCAAGTGCCAGGCTCACTCATCAACTCCCACACCTGCCCACAGAGGAGAGCTTGGTTGCC
  TGTGGGACAAGGCAGGGACCACCCCTGAGCCTTTCTCATTCTCTGTGCTACTGGACAGATGCCCTGAGGC
  AGATGATCCAAGAACCTACCACGATTGCTGCTGCTTACAGGCTGTGCCATCTTCTCCCCTTGCAGCCCCC
  AGTGGTCAGACACAAACCTCCATCTCTGAGGCCTGCTTAGGGGGCAGTAGTTTCTGCCCAACTCCACCCA
  AGGAGCAAACATGCTTTGGGAGGGAGTCTGCAAGCAACGGTAGTACCAGCAGTGGTCACAGTCGAGCCGA
  TGGCTTTGCCGGGCCCAGGAGGACTCTGCTGGTGAAGTCCCCCGGTGTCAGGGGAAGCCTTGAGGAGCGG
  GAAGCAGATGGTGGTGTGACGCCGAGCGCTCTGCCTTACGCCTCTCCAGATGCTGTGGTTCGTGAGTGGC
  TAGGCAACATCCCAGAAAAGCCGGTACTCATGACGTATGAGATGGCAGACGAGAACACAGAGGTGCCCAG
  TGATGGCCCAGAAGGTCCCAAGGAGGACTCTTTGAAAGTCCTGGGGGAACCGTCTCAGGCCAAACAGCAG
  CCCCCGGAAGGGGCTACCAATGAGCACCCAGAGCCAGCGGGAGTCCTCTCAGGACCTGGCTCTGTGTGCT
  GCAGACTGGGAGGTGATCTGCATCCAGATGCAACATCAGGTGAAAGGCTCAAGGCTCCTGCAGAAGCTGG
  AATAGGAGAAGGGGCCAGAGTGGACCATGGTGTAAGCTTATGTGCACTCCCCACTAAGGTCGCAGCCTCT
  ACACAGATCATGAAGGCCCTGCTGGGCTCCAAGCCAGGTCGGCCCAGCAGTCTACCAGAGGTCTCTAGCA
  CAGTAGCCCAGAGGCTCAGTAGCTCTGCTGGGGCCTTCATTGCCTGCCTTGCCAGGCTCCATTTCTTTGA
  TGAGAGTCTGGGGCCTCTGGATGGCAAAGTGAGGCTTGAAGAGTCCCCTAAGTACCAGGAGATGCTGAGA
  CTCTTCCAGACGCTGTGGCCTGGGAGTGAGCTTTGGCAAGGCCAGCTGGACTTCAGCCTCAGGAAGCTCA
  CTTCGCACCAGGCTCTGCTAGGGACTGAGGACTTCACACCCACCTCCTCCTCCGGCGTGGATGTGAGCAG
  TGGTTCTGGAGGCTCAGGGGAGAGCAGCGTGCCCTGTGTCATGGATAACACCCTGGCTCCCGAGAAGAGA
  GATTTGCCCTTGAAAATCCCTTCTCAAAGACCTGATTCCAGGAACCAGGGGTACCCAGAACTAGTGGGTC
  ATTCCACAGTCTCATCTGTCTCCCAGGTGAGGGCTTGTGCCACCGGTGGGGAGGAGACAGGTAAAGGAGG
  CAGGAAGCAGACATGGGGCAATGCCCCAGAACAATCGGTCCATAGCACGATGCTGGAAGGTGATGCACTG
  TCAGAAGAAACAGAAGGGAGAGTGAGAGAAAGGCTACAGGAAAATAGTGTCCATGGAAAGGGGCTGCCAG
  AAGAAGGGGTTAGGGTCTGCAGTCAGGAAATGCTTGCAGCTGGCTCTCAGGATGGAGCAGGTTCACCAGA
  AGATACCAGAGTGCCAACAGATGAAGCAGGAGCTGATGCGGCCTCTGGAGGACTGTGGCCCCTAGATGGG
  AGAGAGGAGCCCACAGAGTCCCCTCAGCATTTCAGCGAGAGCAACTCAAGGGTTCGTGAGCATCAAAGCG
  CTCACAAACTGGAGCTAGGGTTGGAAGAGGTGTCCAGATTGGATGCAAGGGGCTGCAAGCAAGCCTGCAT
  CAAGGCCAGCTCAGGAACCATGGCTCACAAGGGATCTCTGGACCCTGACCCAATCTGGGTGTCCAAGCTG
  CTGAAGAAGATAGAGAAAGCCTTCATGGCTCACCTGGCTGATGCCACAGCCGAACTCCGAGCCCGATGGG
  ATCTTCATGACAATCACCTGCTGGACCAGATGGTGACCGAGCTGGAGCAGGATGTGGGCCGACGGCTGCA
  GGCAAGCACTGTTATGGAAGTCAGGAAGATCCAGAGCCGGGCAGGGAGGATGGTTCCAGAACCACCCCGG
  GAAGCCCTCAGAGGCCAGGCTTCTCTACAGACAGAGCAGCGCAGGCGTCGCCTTCAGGGCTTGCGCAACT
  TCTCAGCCGTCCCTGGCCAGGGTCCCCTCTCCCTCACCCTGGAGGATGGGCCCACACTCAAAACAGCCTT
  AGGGACCAAGTCAGGTGCAGAGCCTGCGGAGGATGAGTTCTGTCCCTGTGAAATCTGTCTGAAGAAGAAG
  AGGACCCCTAGATTCCCAAAGGATGCTGCAACAGTCTCTGGTGCTCCTGTCAGAAAGGCCTTTGACCTGC
  AGCAAATTCTACAGAGCAAGAAAGGAGGAAGCAGCAATAGAGAGGCCATGGAGGTGGCCCCTCAGAGGAC
  AGGAAGGATGTTGTCTCAGGAGGACCTCGGAACTGTCCAGGGAGCTGATGAGAAGCAAGGGCTTGGGGTG
  GCTGAGGGAGAGGAGGGGGAAGGGAAACAGAGGCTGAGAGCAGAGGAGGATCCCGAGATTTTGAAAACAG
  AAGGATCTGGTTGCTGTGCACCAGAAGAGGATGAAGCCACTGAGGAAGATGGGGAAATCTGCATCGGCAC
  TGCCCAAGAAAGCCAGCAGTTAGAGGGGACTGAGATGGGCAAGGAGGGAACCCTGCCCCAGAGCTTTAGA
  GATGGAGGCACTTTAGAGGCTCCAGCAAGACAGGGTACCCACTCTGTGGAGATTCAGGAAGCTTCCAGAG
  AAAGACAGCAGGAGGTAGAAGGAAGACATCAAGATGTAAAGGAAGACAGTCCTTGGGTGAGCTCAGGAGA
  GAGCCAGGGAAGGGTGGGTTCTGAAAACACCAGCCTAGACCAAGAGGGGAGGCTCCTGAACCACCATCAA
  AGGCCAGGCCCCCAGAGCCACCACACAGCATGCTCCTCCAGGGCATTGTCTCTGGACAACAGTTCACAGG
  TGTCTCAGAAGGGCTCAGATGGAGACTTAACAAGTGGAGACCTCAAGTGCACCAAAGCCAAGAACAGCAG
  GGTATTGCATGCAGAGAAGAAAGTCCCCGTGATGTATCCAGAGAGATCCTCTTCTGAGCAAGAAGTCCCC
  TCCAGCCCAAGGCTTCCAAAGCAAGGGAAAGGGGAAGATGAAGGATCAGCTGGAAGCTTGGCTTGTACCC
  AGGTTGGGGGCAAGGTAGATGGCTTTGGCCAGGATGACTTAGATTTCTAG
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_146246
• Insert Size: 5580 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_146246.3, NP_666358.2
• RefSeq Size: 6811 bp
• RefSeq ORF: 5580 bp
• Locus ID: 271209
• UniProt ID: Q8CGM2
• Cytogenetics: 14 D1
• Gene Summary: This gene encodes a member of the doublecortin family. This protein is a retinal-specific protein. It contains two N-terminal doublecortin domains, which can assemble and stabilize axonemal microtubules, but lacks the C-terminal repetitive regions including the 16aa repeat found in human RP1L1. This protein and the RP1 protein, another retinal-specific protein, play essential and synergistic roles in affecting photosensitivity and outer segment morphogenesis of rod photoreceptors. [provided by RefSeq, Sep 2010]