FER1L6 (NM_001039112) Human Untagged Clone

CAT#: SC310845

FER1L6 (untagged)-Human fer-1-like 6 (C. elegans) (FER1L6)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: FER1L6
• Synonyms: C8ORFK23
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >SC310845 representing NM_001039112.
  Blue=Insert sequence Red=Cloning site Green=Tag(s)
  
  GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG
  GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC
  ATGTTTGGGCTGAAGGTGAAGAAGAAGAGAAATAAGGCAGAGAAGGGGTTAATCCTAGCCAACAAGGCT
  GCGAAAGATAGTCAAGGTGACACTGAAGCACTGCAGGAGGAGCCTTCTCACCAGGAAGGACCGAGAGGA
  GATTTGGTCCATGATGATGCTTCTATCTTTCCTGTCCCCTCAGCTTCTCCAAAGAGAAGATCAAAACTG
  TTGACTAAGATCCATGATGGGGAGGTCAGATCCCAAAATTATCAAATTGCCATAACCATCACCGAGGCT
  CGCCAGCTGGTGGGTGAGAACATTGACCCAGTTGTGACCATTGAGATTGGGGATGAGAAGAAGCAAAGC
  ACAGTGAAGGAAGGAACCAACAGCCCATTTTATAATGAATACTTTGTCTTCGACTTCATTGGGCCCCAA
  GTGCATCTTTTTGACAAGATCATCAAAATCTCCGTCTTTCACCACAAGCTGATAGGAAGTGTACTGATT
  GGCTCTTTCAAAGTAGACCTGGGGACCGTGTACAACCAACCTGGTCATCAGTTCTGCAACAAGTGGGCC
  CTGCTCACAGACCCTGGTGACATCAGGACTGGCACCAAGGGGTACCTGAAATGTGACATCAGTGTCATG
  GGAAAAGGTGATGTCTTGAAGACCAGCCCTAAAACTTCTGACACCGAGGAGCCAATAGAAAAGAACCTT
  TTGATCCCCAATGGGTTTCCACTGGAGAGACCGTGGGCCAGATTCTATGTGAGACTCTACAAAGCAGAA
  GGGTTGCCCAAAATGAATTCAAGCATCATGGCGAACGTCACCAAGGCATTTGTGGGTGACAGTAAGGAC
  CTGGTGGATCCCTTTGTGGAGGTCTCCTTTGCTGGGCAGATGGGGCGAACCACAGTGCAGAAGAACTGT
  GCTGATCCTGTGTGGCATGAACAGGTGATCTTCAAGGAAATGTTCCCTCCCTTGTGTCGGAGGGTGAAA
  ATCCAGGTGTGGGATGAAGGCAGCATGAATGACGTAGCCCTGGCAACCCATTTCATTGACCTGAAGAAA
  ATCTCCAACGAACAGGATGGAGACAAAGGCTTTCTGCCCACCTTTGGGCCTGCCTGGATTAACCTGTAT
  GGCTCGCCCAGGAACCACAGTCTGATGGATGACTACCAGGAAATGAACGAAGGCTTTGGGGAAGGTGTG
  TCATTCAGGGGCAGAATCTTGGTAGAAATTGCTGTGGAAATCCTCTCAGGACGGGCACAGGAATCTAAA
  TTTTCCAAGGCCCTGAAGGAGCTCAAGTTGCCTTCCAAGGACAAAGACTCCAAATCTTCCAAAGGTAAA
  GACAAGGCTGACAAAACTGAAGATGGAAAATCCCAACAGGCTTCAAACAAAACTAACTCAACCGAGGTG
  GAGGTGGAATCGTTCGATGTCCCCCCGGAGATTGTACCAGAAAAAAATGAGGAATTTTTACTCTTTGGA
  GCATTTTTTGAAGCTACCATGATTGACCGGAAGATTGGAGATAAACCCATCAGCTTTGAAGTTTCTATT
  GGTAATTTTGGAAACCTGATTGATGGAGGATCCCATCATGGGAGTAAGAAGTCAGCTGAATCAGCTGAA
  GAAGACCTCCTTCCACTGCTTCACGAAGGGCAAGGGGATGTGGCCCATGATGTTCCCATTCCTATGGCC
  TCCACCACTCACCCGGAGAAGCCACTGGTGACAGAAGGGAACAGGAATTACAACTATTTGCCATTTGAG
  GCTAAGAAGCCCTGTGTCTATTTCATCAGCTCTTGGGGAGACCAGACCTTCAGGCTGCACTGGTCCAAC
  ATGCTGGAGAAAATGGCAGACTTCCTGGAAGAAAGTATAGAAGAAGTGAGAGAATTGATCAAGATTTCA
  CAGGAGGCACCTGAAGAGAAAATGAAAACAGTGCTCAGTGACTTCATCAGTCGGAGCAGTGCCTTTATC
  TCTGAAGCAGAAAAAAAGCCCAAGATGTTGAACCAAACCACTTTAGATAAGAAGCGACTTACGCTCTGC
  TGGCAGGAGCTGGAAGCAATGTGCAAGGAGGCCAAGGGGATCATTCAGCAGCAGAAGAAAAAGTTATCT
  GTTGATGAAATGATTCACGAAGCCCAAAACTTTGTGGAAAAAATCCGCTTTCTTGTTGATGAGCCCCAG
  CACACTATCCCTGACGTTTTCATCTGGATGCTCAGCAACAACAGGAGAGTGGCCTATGCCCGCATCGCC
  TCCAAAGACCTCCTCTATTCCCCTGTCGCGGGGCAGATGGGCAAACACTGCGGCAAGATCAAAACTCAC
  TTCCTCAAACCTCCTGGGAAACGACCGGCTGGTTGGTCTGTGCAAGCAAAAGTCGACGTGTACCTGTGG
  CTGGGCTCCATCAAGCATGCCAGTGCCATTTTGGACAACTTGCCAGTAGGCTATGAAGCAGAAATGTCC
  TCCAAAGGGGCTGGCACCAATCACCCCCCATCTAACCTGCTCTACCAAGAACAGCATGTTTTTCAGCTG
  AGGGCTCACATGTACCAAGCCCGGGGCCTCATCGCAGCTGACAGCAATGGACTTTCAGACCCTTTTGCC
  AAAGTCACGTTCCTTTCTCACTGCCAGACAACAAAGATAATCTCCCAGACCCTCTCTCCGACCTGGAAC
  CAGATGCTGCTGTTCAATGATTTGGTGCTGCATGGAGATGTGAAGGAGCTGGCAGAGTCCCCGCCCTTA
  GTGGTGGTGGAGCTGTATGACAGCGACGCTGTGGGGAAGCCAGAATATTTGGGTGCCACAGTGGCTGCT
  CCTGTTGTGAAGCTGGCTGACCAGGACTATGAGCCCCCCAGGTTATGCTATCACCCCATCTTTTGTGGG
  AATCTCTCTGGAGGGGATCTCCTTGCTGTATTTGAACTGCTGCAGGTTCCTCCTTCTGGGCTGCAAGGC
  CTCCCACCCGTTGAGCCACCAGACATCACCCAGATCTACCCGGTTCCTGCCAACATTCGGCCGGTGCTG
  AGCAAATACCGAGTGGAGGTTCTCTTCTGGGGAGTTCGGGAAATGAAGAAGGTGCAGCTCCTCTCTGTG
  GATCGGCCTCAGGCTCTCATTGAGTGCGGAGGACAAGGTGTGAAGTCCTGCGTGATCCAGAGCTACAAG
  AACAACCCGAACTTCAGCATCCAGGCAGACGCTTTCGAAGTGGAACTGCCTGAGAACGAGCTTCTGCAC
  CCGCCACTGAGCATCTGCGTGGTGGACTGGAGAGCTTTTGGGAGGAGTACCCTTGTGGGCACCTACACC
  ATCAACTACTTGAAGCAGTTTTTGTGTAAACTCAGAGAGCCCCTTGCCCCCATCACACAGGTGGATGGA
  ACCCAGCCTGGGCACGATATTTCAGATTCGCTAACAGCCACTGAGTCCTCTGGAGCCCACAGCTCCTCC
  CAGGATCCCCCAGCAGATCACATTTATGTGGATGTTGAGCCACCTCCCACAGTGGTGCCCGACTCTGCC
  CAGGCCCAGCCGGCCATCCTGGTTGACGTCCCTGACTCATCCCCGATGCTGGAGCCTGAACACACACCT
  GTAGCCCAGGAGCCACCAAAAGATGGAAAACCTAAGGATCCCAGGAAGCCTTCCCGGAGGTCCACTAAG
  AGGAGAAAGAGGACCATAGCAGATGAATCTGCTGAAAACGTGATTGACTGGTGGTCTAAGTATTATGCC
  TCCCTGAAGAAAGCCCAGAAGGCAAAGGAGAGAAATCCCAAGGGAAAAAAAGGCAATACAGAGGCAAAG
  CCAGATGAGGTAGTGGTAGATATAGAAGATGGGCCAAAGAAGAAGAAAGACAAAATGCTCAAGAAGAAA
  CCCAAAGATGATGGAATCCCCAACCTGGCCATCTTGCAGATATATGACGGTGATCTCGAGAGTGAATTC
  AACAATTTTGAAGACTGGGTGAAAACTTTTGAGCTCTTCAGAGGCAAGTCTACGGAAGATGACCATGGT
  CTTGATGGAGACCGAGTCATAGGAAAATTTAAGGGCTCCTTCTGCATCTACAAAAGCCCCCAGGATTCT
  AGCTCTGAGGACAGCGGGCAGCTGAGAATCCAGCAAGGGATTCCGCCCAATCACCCTGTCACAGTGCTG
  ATCAGAGTATACATTGTCGCGGCATTTAATCTTAGTCCAGCTGATCCAGATGGCAAATCAGATCCCTAC
  ATTGTGATCAAGCTTGGCAAGACAGAAATCAAAGACCGGGATAAATACATCCCTAAACAACTGAACCCA
  GTATTTGGAAGGTCATTTGAGATCCAAGCCACATTCCCAAAAGAGTCCCTGCTCTCCATCCTGATCTAT
  GACCATGACATGATTGGCACAGATGACCTTATTGGTGAGACCAAGATCGACCTGGAGAACCGCTTCTAC
  AGCAAACACCGAGCCATCTGTGGCTTGCAGAGCCAGTATGAGATAGAAGGATACAATGCCTGGAGAGAC
  ACGTCCAAACCCACCGAAATCCTCACTAAGCTCTGCAAAGACAACAAGCTGGATGGACCCTACTTTCAC
  CCTGGGAAAATACAGATAGGAAACCAAGTCTTTTCTGGAAAAACTATCTTCACTGAAGAGGACACTGAT
  GAGACAGTGGAGTCTTATGAACACCTGGCCCTCAAGGTTTTACACTCTTGGGAGGATATCCCGGAAGTC
  GGGTGTAGGCTGGTTCCTGAACACATAGAAACTCGGCCACTGTACCACAAGGATAAGCCAGGAATGGAG
  CAGGGCCGCCTGCAGATGTGGGTGGACATGTTTCCCAAGGATATGCCTCAACCTGGACCTCCTGTTGAC
  ATCTCTCCAAGGCGACCCAAAGGATACGAATTGAGAGTGACCATCTGGAACACTGAAGATGTCATTTTA
  GAGGATGAGAATATCTTCACAGGCCAAAAATCAAGTGATATTTATGTGAAAGGGTGGTTAAAGGGCTTG
  GAGGATGACAAGCAGGAGACAGATGTGCATTACAACTCCCTGACTGGAGAGGGCAACTTCAACTGGCGC
  TTCCTGTTTCCCTTTCAGTATCTCCCAGCTGAGAAGCAAATGGTCATTACCAAGAGGGAGAACATCTTC
  TCTTTAGAGAAGATGGAGTGTAAGACTCCTGCTGTGTTGGTGCTGCAGGTTTGGGATTTTGAAAGGCTG
  TCCTCAGATGACTTCCTGGGCACCCTGGAAATGAACCTCAACAGTTTCCCTCGAGCAGCTAAGTCTGCC
  AAAGCCTGTGATCTTGCCAAGTTTGAAAATGCAAGTGAGGAGACCAAGATCTCTATATTCCAGCAAAAA
  CGTGTGCGTGGCTGGTGGCCTTTTTCTAAAAGCAAAGAACTCACAGGCAAGGTTGAAGCTGAGTTCCAC
  CTAGTTACAGCAGAAGAAGCTGAGAAAAATCCTGTTGGAAAAGCCCGAAAGGAGCCAGAGCCCCTGGCC
  AAGCCCAACCGCCCAGACACCTCCTTTTCGTGGTTCATGAGCCCCTTTAAGTGCCTGTACTACCTCATC
  TGGAAGAATTACAAAAAGTACATCATCATTGCTTTCATTCTCATCATCCTCATCATCTTCCTCGTCCTT
  TTCATCTACACCTTGCCAGGAGCCATCAGCCGAAGGATCGTTGTGGGCTCATAG
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGAT
  TACAAGGATGACGACGATAAGGTTTAAACGGCCGGC
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_001039112
• Insert Size: 5574 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).
• OTI Annotation: This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.
• 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_001039112.2
• RefSeq Size: 6051 bp
• RefSeq ORF: 5574 bp
• Locus ID: 654463
• UniProt ID: Q2WGJ9
• Cytogenetics: 8q24.13
• Protein Families: Transmembrane
• MW: 209.3 kDa