Cadherin like 23 (CDH23) (NM_022124) Human Untagged Clone

CAT#: SC304999

CDH23 (untagged)-Human cadherin-related 23 (CDH23), transcript variant 1

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: CDH23
• Synonyms: CDHR23; PITA5; USH1D
• Vector: pCMV6 series
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_022124, the custom clone sequence may differ by one or more nucleotides
  ATGGGGCGCCATGTTGCCACCAGCTGCCACGTGGCCTGGCTTTTGGTGCTGATCTCTGGA
  TGCTGGGGCCAGGTGAACCGGCTGCCCTTCTTCACCAACCACTTCTTTGATACATACCTG
  CTGATCAGCGAGGACACGCCTGTGGGTTCTTCTGTGACCCAGTTGCTGGCCCAAGACATG
  GACAATGACCCCCTGGTGTTTGGCGTGTCTGGGGAGGAGGCCTCTCGCTTCTTTGCAGTG
  GAGCCTGACACTGGCGTGGTGTGGCTCCGGCAGCCACTGGACAGAGAGACCAAGTCAGAG
  TTCACCGTGGAGTTCTCTGTCAGCGACCACCAGGGGGTGATCACACGGAAGGTGAACATC
  CAGGTTGGGGATGTGAATGACAACGCGCCCACATTTCACAATCAGCCCTACAGCGTCCGC
  ATCCCTGAGAATACACCAGTGGGGACGCCCATCTTCATCGTGAATGCCACAGACCCCGAC
  TTGGGGGCAGGGGGCAGCGTCCTCTACTCCTTCCAGCCCCCCTCCCAATTCTTCGCCATT
  GACAGCGCCCGCGGTATCGTCACAGTGATCCGGGAGCTGGACTACGAGACCACACAGGCC
  TACCAGCTCACGGTCAACGCCACAGATCAAGACAAGACCAGGCCTCTGTCCACCCTGGCC
  AACTTGGCCATCATCATCACAGATGTCCAGGACATGGACCCCATCTTCATCAACCTGCCT
  TACAGCACCAACATCTACGAGCATTCTCCTCCGGGCACGACGGTGCGCATCATCACCGCC
  ATAGACCAGGATAAAGGACGTCCCCGGGGCATTGGCTACACCATCGTTTCAGGGAATACC
  AACAGCATCTTTGCCCTGGACTACATCAGCGGAGTGCTGACCTTGAATGGCCTGCTGGAC
  CGGGAGAACCCCCTGTACAGCCATGGCTTCATCCTGACTGTGAAGGGCACGGAGCTGAAC
  GATGACCGCACCCCATCTGACGCTACAGTCACCACGACCTTCAATATCCTGGTTATTGAC
  ATCAATGACAATGCCCCGGAGTTCAACAGCTCCGAGTACAGCGTGGCCATCACTGAGCTG
  GCACAGGTCGGCTTTGCCCTTCCACTCTTCATCCAGGTGGTGGACAAGGATGAGAATTTG
  GGCCTGAACAGCATGTTTGAGGTGTACTTGGTGGGGAACAACTCCCACCACTTCATCATC
  TCCCCGACCTCCGTCCAGGGGAAGGCGGACATTCGTATTCGGGTGGCCATCCCACTGGAC
  TACGAGACCGTGGACCGCTACGACTTTGATCTCTTTGCCAATGAGAGTGTGCCTGACCAT
  GTGGGCTATGCCAAGGTGAAGATCACTCTCATCAATGAAAATGACAACCGGCCCATCTTC
  AGCCAGCCACTGTACAACATCAGCCTGTACGAGAACGTCACCGTGGGGACCTCTGTGCTG
  ACAGTCCTGGCAACTGACAATGATGCAGGCACCTTTGGGGAAGTCAGCTACTTCTTCAGT
  GATGACCCTGACAGGTTCTCGCTGGACAAGGACACGGGACTCATCATGCTGATTGCCAGG
  CTGGACTATGAGCTCATCCAGCGCTTCACCCTGACGATCATTGCCCGGGACGGGGGCGGC
  GAGGAGACCACAGGCCGGGTCAGGATCAATGTGTTGGATGTCAACGACAACGTGCCCACC
  TTCCAGAAGGATGCCTACGTGGGTGCTCTGCGGGAGAACGAGCCTTCTGTCACACAGCTG
  GTGCGGCTCCGGGCAACAGATGAAGACTCCCCTCCCAACAACCAGATCACCTACAGCATT
  GTCAGTGCATCTGCCTTTGGCAGCTACTTCGACATCAGCCTGTACGAGGGCTATGGAGTG
  ATCAGCGTCAGTCGCCCCCTGGATTATGAACAGATATCCAATGGGCTGATTTATCTGACG
  GTCATGGCCATGGATGCTGGCAACCCCCCTCTCAACAGCACCGTCCCTGTCACCATCGAG
  GTGTTTGATGAGAATGACAACCCTCCCACCTTCAGCAAGCCCGCCTACTTCGTCTCCGTG
  GTGGAGAACATCATGGCAGGAGCCACGGTGCTGTTCCTGAATGCCACAGACCTGGACCGC
  TCCCGGGAGTACGGCCAGGAGTCCATCATCTACTCCTTGGAAGGCTCCACCCAGTTTCGG
  ATCAATGCCCGCTCAGGGGAAATCACCACCACGTCTCTGCTTGACCGAGAGACCAAGTCT
  GAATACATCCTCATCGTTCGCGCAGTGGACGGGGGTGTGGGCCACAACCAGAAAACTGGC
  ATCGCCACCGTAAACATCACCCTCCTGGACATCAATGACAACCACCCCACGTGGAAGGAC
  GCACCCTACTACATCAACCTGGTGGAGATGACCCCTCCAGACTCTGATGTGACCACGGTG
  GTGGCTGTTGACCCAGACCTGGGGGAGAATGGCACCCTGGTGTACAGCATCCAGCCACCC
  AACAAGTTCTACAGCCTCAACAGCACCACGGGCAAGATCCGCACCACCCACGCCATGCTG
  GACCGGGAGAACCCCGACCCCCATGAGGCCGAGCTGATGCGCAAAATCGTCGTCTCTGTT
  ACTGACTGTGGCAGGCCCCCTCTGAAAGCCACCAGCAGTGCCACAGTGTTTGTGAACCTC
  TTGGATCTCAATGACAATGACCCCACCTTTCAGAACCTGCCTTTTGTGGCCGAGGTGCTT
  GAAGGCATCCCGGCGGGGGTCTCCATCTACCAAGTGGTGGCCATCGACCTCGATGAGGGC
  CTGAACGGCCTGGTGTCCTACCGCATGCCGGTGGGCATGCCCCGCATGGACTTCCTCATC
  AACAGCAGCAGCGGCGTGGTGGTCACCACCACCGAGCTGGACCGCGAGCGCATCGCGGAG
  TACCAGCTGCGGGTGGTGGCCAGTGATGCAGGCACGCCCACCAAGAGCTCCACCAGCACG
  CTCACCATCCATGTGCTGGATGTGAACGACGAGACGCCCACCTTCTTCCCGGCCGTGTAC
  AATGTGTCTGTGTCCGAGGACGTGCCACGCGAGTTCCGGGTGGTCTGGCTGAACTGCACG
  GACAACGACGTGGGCCTCAATGCAGAGCTCAGCTACTTCATCACAGGTGGCAACGTGGAT
  GGGAAGTTCAGCGTGGGTTACCGCGATGCCGTTGTGAGAACCGTGGTGGGCCTGGACCGG
  GAGACCACAGCCGCCTACATGCTCATCCTGGAGGCCATCGACAACGGCCCTGTAGGGAAG
  CGACACACGGGCACAGCCACCGTGTTCGTCACTGTCCTGGATGTGAATGACAACCGGCCC
  ATCTTTCTGCAGAGCAGCTATGAGGCCAGCGTCCCTGAGGACATCCCTGAAGGCCACAGC
  ATCTTGCAGCTGAAAGCCACGGACGCAGATGAGGGCGAGTTTGGGCGTGTGTGGTACCGC
  ATCCTCCATGGTAACCATGGCAACAACTTCCGGATCCATGTCAGCAATGGGCTCCTGATG
  CGAGGGCCCCGGCCCCTGGACCGGGAGCGGAACTCATCCCACGTGCTGATAGTGGAGGCC
  TACAACCACGACCTGGGCCCCATGCGGAGCTCCGTCAGGGTGATTGTGTACGTGGAGGAC
  ATCAACGATGAGGCCCCCGTGTTCACACAGCAGCAGTACAGCCGTCTGGGGCTTCGAGAG
  ACCGCAGGCATTGGAACGTCAGTCATCGTGGTCCAAGCCACAGACCGAGACTCTGGGGAT
  GGTGGCCTGGTGAACTACCGCATCCTGTCGGGCGCAGAGGGGAAGTTTGAGATTGACGAG
  AGCACAGGGCTTATCATCACCGTGAATTACCTGGACTACGAGACCAAGACCAGCTACATG
  ATGAATGTGTCGGCCACTGACCAGGCCCCGCCCTTCAACCAGGGCTTCTGCAGCGTCTAC
  ATCACTCTGCTCAACGAGCTGGACGAGGCCGTGCAGTTCTCCAATGCCTCATACGAGGCT
  GCCATCCTGGAGAATCTGGCACTGGGTACTGAGATTGTGCGGGTCCAGGCCTACTCCATC
  GACAACCTCAACCAAATCACGTACCGCTTCAACGCCTACACCAGCACCCAGGCCAAAGCC
  CTCTTCAAGATAGACGCCATCACGGGTGTGATCACAGTCCAGGGCCTGGTGGACCGTGAG
  AAGGGCGACTTCTATACCTTGACAGTGGTGGCAGATGACGGCGGCCCCAAGGTGGACTCC
  ACCGTGAAGGTCTACATCACTGTGCTGGACGAGAATGACAACAGCCCCCGGTTTGACTTC
  ACCTCCGACTCGGCGGTCAGCATACCCGAGGACTGCCCTGTGGGCCAGCGAGTGGCTACT
  GTCAAGGCCTGGGACCCTGATGCTGGCAGCAATGGGCAGGTGGTCTTCTCCCTGGCCTCT
  GGCAACATCGCGGGGGCCTTTGAGATCGTCACCACCAATGACTCCATTGGCGAAGTGTTT
  GTGGCCAGGCCCCTGGACAGAGAAGAGCTGGATCACTACATCCTCCAGGTTGTGGCTTCT
  GACCGAGGCACCCCTCCACGGAAGAAGGACCACATCCTGCAGGTGACCATCCTGGACATC
  AATGACAACCCTCCAGTCATCGAGAGCCCCTTTGGATACAATGTCAGTGTGAATGAGAAC
  GTGGGTGGAGGTACTGCTGTGGTCCAGGTGAGAGCCACTGACCGTGACATCGGGATCAAC
  AGTGTTCTGTCCTACTACATCACCGAGGGCAACAAGGACATGGCCTTCCGCATGGACCGC
  ATCAGCGGTGAGATCGCCACACGGCCTGCCCCGCCTGACCGCGAGCGCCAGAGCTTCTAC
  CACCTGGTGGCCACTGTGGAGGACGAGGGCACCCCAACCCTGTCGGCCACCACGCACGTG
  TACGTGACCATTGTGGATGAGAATGATAACGCGCCCATGTTCCAGCAGCCCCACTATGAG
  GTGCTGCTGGATGAGGGCCCAGACACGCTCAACACCAGCCTCATCACCATCCAGGCACTG
  GACCTGGATGAGGGTCCCAACGGCACAGTCACCTATGCCATCGTCGCAGGCAACATCGTC
  AACACCTTCCGCATCGACAGACACATGGGTGTCATCACTGCTGCCAAAGAGCTGGACTAC
  GAGATCAGCCACGGCCGCTACACCCTGATCGTCACTGCCACAGACCAGTGCCCCATCTTA
  TCCCACCGCCTCACCTCTACCACCACGGTGCTTGTGAATGTGAATGACATCAACGACAAT
  GTGCCTACCTTCCCCCGGGACTATGAGGGACCATTTGAAGTCACTGAGGGCCAGCCGGGG
  CCCAGAGTGTGGACCTTCCTGGCCCATGACCGAGACTCAGGACCCAACGGGCAGGTGGAG
  TACAGCATCATGGATGGAGACCCTCTGGGGGAGTTTGTGATCTCTCCTGTGGAGGGGGTG
  CTAAGGGTCCGGAAGGACGTGGAGCTGGACCGGGAGACCATCGCCTTCTACAACCTGACC
  ATCTGTGCCCGTGACCGGGGGATGCCCCCACTCAGCTCCACAATGCTGGTGGGGATCCGG
  GTGCTGGACATCAACGACAACGACCCTGTGCTGCTGAACCTGCCCATGAACATCACCATC
  AGCGAGAACAGCCCTGTCTCCAGCTTTGTCGCCCATGTCCTGGCCAGTGACGCTGACAGT
  GGCTGCAATGCACGCCTCACCTTCAACATCACTGCGGGCAACCGCGAGCGGGCCTTCTTC
  ATCAATGCCACGACAGGGATCGTCACTGTGAACCGGCCCCTGGACCGCGAGCGGATCCCA
  GAGTACAAGCTGACCATTTCTGTGAAGGACAACCCGGAGAATCCACGCATAGCCAGGAGG
  GATTATGACTTGCTTCTGATCTTCCTTTCTGATGAGAATGACAACCACCCCCTCTTCACT
  AAAAGCACCTACCAGGCAGAGGTGATGGAAAACTCTCCCGCTGGCACCCCTCTCACGGTG
  CTCAATGGGCCCATCCTGGCCCTGGATGCAGACCAAGACATCTACGCCGTGGTGACCTAC
  CAGCTGCTGGGTGCCCAGAGTGGCCTCTTTGACATCAACAGCAGCACCGGTGTGGTGACC
  GTGAGGTCAGGTGTCATCATTGACCGGGAGGCATTCTCGCCACCCATCCTGGAGCTGCTG
  CTGCTGGCTGAGGACATCGGGCTGCTCAACAGCACGGCCCACCTGCTCATCACCATCCTG
  GATGACAATGACAACCGGCCCACCTTTAGCCCTGCCACCCTCACTGTCCATCTGCTAGAG
  AACTGCCCGCCTGGATTCTCAGTCCTTCAAGTCACAGCCACAGATGAGGACAGTGGCCTC
  AATGGGGAGCTGGTCTACCGAATAGAAGCTGGGGCTCAGGACCGCTTCCTCATTCATCTG
  GTCACCGGGGTCATCCGTGTTGGTAATGCCACCATCGACAGAGAGGAGCAGGAGTCCTAC
  AGGCTAACGGTGGTGGCCACCGACCGGGGCACCGTTCCTCTCTCGGGCACAGCCATTGTC
  ACCATTCTGATCGATGACATCAATGACTCCCGCCCCGAGTTCCTCAACCCCATCCAGACA
  GTGAGCGTGCTGGAGTCGGCTGAGCCAGGCACTGTCATTGCCAATATCACGGCCATTGAC
  CACGACCTCAACCCAAAGCTAGAGTACCACATTGTCGGCATTGTGGCCAAGGACGACACT
  GATCGCCTGGTGCCCAACCAGGAGGACGCCTTTGCTGTGAATATCAACACAGGATCTGTA
  ATGGTGAAGTCCCCCATGAATCGGGAGCTGGTTGCCACCTATGAGGTCACTCTCTCAGTG
  ATTGACAATGCCAGCGACCTACCAGAGCGCTCTGTCAGTGTGCCAAATGCCAAGCTGACT
  GTCAACGTCCTGGACGTCAATGACAATACGCCCCAGTTCAAGCCCTTTGGGATCACCTAC
  TACATGGAGCGGATCCTGGAGGGGGCCACCCCTGGGACCACACTCATTGCTGTGGCAGCC
  GTGGACCCTGACAAGGGCCTTAATGGGCTGGTCACCTACACCCTGCTGGACCTGGTGCCC
  CCAGGGTATGTCCAGCTGGAGGACTCCTCGGCAGGGAAGGTCATTGCCAACCGGACAGTG
  GACTACGAGGAGGTGCACTGGCTCAACTTTACCGTGAGGGCCTCAGACAACGGGTCCCCG
  CCCCGGGCAGCTGAGATCCCTGTCTACCTGGAAATCGTGGACATCAATGACAACAACCCC
  ATCTTTGACCAGCCCTCCTACCAGGAGGCTGTCTTTGAGGATGTGCCTGTGGGCACAATC
  ATCCTGACAGTCACTGCCACTGATGCTGACTCAGGCAACTTTGCACTCATTGAGTACAGC
  CTTGGAGATGGAGAGAGCAAGTTTGCCATCAACCCCACCACGGGTGACATCTATGTGCTG
  TCTTCTCTGGACCGGGAGAAGAAGGACCACTATATCCTGACTGCCTTGGCCAAAGACAAC
  CCTGGGGATGTAGCCAGCAACCGTCGCGAAAATTCAGTGCAGGTGGTGATCCAAGTGCTG
  GATGTCAATGACTGCCGGCCACAGTTCTCCAAGCCCCAGTTCAGCACAAGCGTGTATGAG
  AATGAGCCGGCGGGCACCTCGGTCATCACCATGATGGCCACTGACCAGGATGAAGGTCCC
  AATGGAGAGTTGACCTACTCACTTGAGGGCCCTGGCGTGGAGGCCTTCCATGTGGACATG
  GACTCGGGCTTGGTGACCACACAGCGGCCACTGCAGTCCTACGAGAAGTTCAGTCTGACC
  GTGGTGGCCACAGATGGTGGAGAGCCCCCACTCTGGGGCACCACCATGCTCCTGGTGGAG
  GTCATCGACGTCAATGACAACCGCCCTGTCTTTGTGCGCCCACCCAACGGCACCATCCTC
  CACATCAGAGAGGAGATCCCGCTGCGCTCCAACGTGTACGAGGTCTACGCCACGGACAAG
  GATGAGGGCCTCAACGGGGCGGTGCGCTACAGCTTCCTGAAGACTGCGGGCAACCGGGAC
  TGGGAGTTCTTCATCATCGACCCAATCAGCGGCCTCATCCAGACTGCTCAGCGCCTGGAC
  CGCGAGTCGCAGGCGGTGTACAGCCTCATCTTGGTGGCCAGCGACCTGGGCCAGCCAGTG
  CCATACGAGACTATGCAGCCGCTGCAGGTGGCCCTGGAGGACATCGATGACAACGAACCC
  CTTTTCGTGAGGCCTCCAAAAGGCAGCCCCCAGTACCAGCTGCTGACAGTGCCTGAGCAC
  TCACCACGCGGCACCCTCGTGGGCAACGTGACAGGCGCAGTGGATGCAGATGAGGGCCCC
  AACGCGATCGTGTACTACTTCATCGCAGCCGGCAACGAAGAGAAGAACTTCCATCTGCAG
  CCCGATGGGTGTCTGCTGGTGCTGCGGGACCTGGACCGGGAGCGAGAAGCCATCTTCTCC
  TTCATCGTCAAGGCCTCCAGCAATCGCAGCTGGACACCTCCCCGTGGACCCTCCCCAACC
  CTCGACCTGGTTGCTGACCTCACACTGCAGGAGGTGCGCGTTGTGCTAGAGGACATCAAC
  GACCAGCCACCACGCTTCACCAAGGCTGAGTACACTGCAGGGGTGGCCACCGACGCCAAG
  GTGGGCTCAGAGTTGATCCAGGTGCTGGCCCTGGATGCAGACATTGGCAACAACAGCCTT
  GTCTTCTACAGCATTCTGGCCATCCACTACTTCCGGGCCCTTGCCAACGACTCTGAAGAT
  GTGGGCCAGGTCTTCACCATGGGGAGCATGGACGGCATTCTGCGCACCTTCGACCTCTTC
  ATGGCCTACAGCCCCGGCTACTTCGTGGTGGACATTGTGGCCCGAGACCTGGCAGGCCAC
  AACGACACGGCCATCATCGGCATCTACATCCTGAGGGACGACCAGCGCGTCAAGATCGTC
  ATTAACGAGATCCCCGACCGTGTGCGCGGCTTCGAGGAGGAGTTCATCCACCTGCTCTCC
  AACATCACTGGGGCCATTGTCAATACTGACAATGTGCAGTTCCATGTGGACAAGAAGGGC
  CGGGTGAACTTTGCGCAGACAGAACTGCTTATCCACGTGGTGAACCGCGATACCAACCGC
  ATCCTGGACGTGGACCGGGTGATCCAGATGATCGATGAGAACAAGGAGCAGCTACGGAAT
  CTTTTCCGGAACTACAACGTCCTGGACGTGCAGCCTGCCATCTCTGTCCGGCTGCCGGAT
  GACATGTCTGCCCTGCAGATGGCGATCATCGTCCTGGCTATCCTCCTGTTCCTGGCCGCC
  ATGCTCTTTGTCCTCATGAACTGGTACTACAGGACTGTACACAAGAGGAAGCTCAAGGCC
  ATTGTGGCTGGCTCAGCTGGGAATCGTGGCTTCATCGACATCATGGACATGCCTAACACC
  AACAAGTACTCCTTTGATGGAGCCAACCCTGTGTGGCTGGATCCCTTCTGTCGGAACCTG
  GAGCTGGCCGCCCAGGCGGAGCATGAGGATGACCTACCGGAGAACCTGAGTGAGATCGCC
  GACCTGTGGAACAGCCCCACGCGCACCCATGGAACTTTTGGGCGTGAGCCAGCAGCTGTC
  AAGCCTGATGATGACCGATACCTGCGGGCTGCCATCCAGGAGTATGACAACATTGCCAAG
  CTGGGCCAGATCATTCGTGAGGGGCCAATCAAGGGCTCGCTGCTGAAGGTGGTCCTGGAG
  GATTACCTGCGGCTCAAAAAGCTCTTTGCACAGCGGATGGTGCAAAAAGCCTCCTCCTGC
  CACTCCTCCATCTCTGAGCTGATACAGACTGAGCTGGACGAGGAGCCAGGAGACCACAGC
  CCAGGGCAGGGTAGCCTGCGCTTCCGCCACAAGCCACCAGTGGAGCTCAAGGGGCCCGAT
  GGGATCCATGTGGTGCACGGCAGCACGGGCACGCTGCTGGCCACCGACCTCAACAGCCTG
  CCCGAGGAAGACCAGAAGGGCCTGGGCCGCTCGCTGGAGACGCTGACCGCTGCCGAGGCC
  ACTGCCTTCGAGCGCAACGCCCGCACAGAATCCGCCAAATCCACACCCCTGCACAAACTT
  CGCGACGTGATCATGGAGACCCCCCTGGAGATCACAGAGCTGTGA
  
• Restriction Sites: Please inquire
• ACCN: NM_022124
• ORF Size: 10065 bp
• 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.
  
  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.

Reference Data

• RefSeq: NM_022124.2, NP_071407.2
• RefSeq Size: 11073
• RefSeq ORF: 10065
• Locus ID: 64072
• Protein Families: Transmembrane
• Gene Summary: This gene is a member of the cadherin superfamily, whose genes encode calcium dependent cell-cell adhesion glycoproteins. The encoded protein is thought to be involved in stereocilia organization and hair bundle formation. The gene is located in a region containing the human deafness loci DFNB12 and USH1D. Usher syndrome 1D and nonsyndromic autosomal recessive deafness DFNB12 are caused by allelic mutations of this cadherin-like gene. Upregulation of this gene may also be associated with breast cancer. Alternative splice variants encoding different isoforms have been described. [provided by RefSeq, May 2013]
  Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1).