TDRD6 (NM_001010870) Human Untagged Clone

CAT#: SC301493

TDRD6 (untagged)-Human tudor domain containing 6 (TDRD6), transcript variant 1

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: TDRD6
• Synonyms: bA446F17.4; CT41.2; NY-CO-45; SPATA36; TDR2
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_001010870, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGTGCTCGACGCCCGGAATGCCGGCGCCGGGGGCCTCGCTGGCCCTGCGGGTGTCCTTCGTGGACGTGC
  ATCCCGATGTGATCCCGGTGCAGCTGTGGGGGCTGGTGGGCGAGCGGCGGGGCGAGTACCTGCGGCTGAG
  CCGGGAAATCCAGGAAGCGGCGGCCACGCGCGGCCAGTGGGCGCTGGGCAGCGCCTCGGCCTCGCCCGGC
  GAGCTGTGCCTGGTGCAGGTCGGGCTTTTGTGGCACCGCTGCCGCGTGGTCAGCCGGCAGGCACAGGAGA
  GCCGTGTCTTCCTGCTGGACGAGGGCCGCACCATCACGGCCGGAGCAGGCTCGCTGGCGCCTGGGCGCAG
  AGAGTTCTTCAATTTGCCCTCGGAAGTGCTGGGCTGCGTGCTAGCGGGCCTGGTGCCGGCAGGCTGCGGC
  GCGGGCTCAGGCGAGCCGCCGCAGCACTGGCCCGCCGACGCCGTGGACTTCCTTAGCAACCTTCAGGGCA
  AGGAGGTGCACGGGTGCGTCCTGGACGTGCTGCTGCTCCATCGCCTGGTCCTCCTGGAGGTGCCTGATGT
  GTTCCAACAGATGCGGGAGCTGGGCCTGGCTCGGCGGGTGCCCGACAGCCTCTTCCGTTCGCTGCTGGAG
  CGCTATCTCACAGCGGCCACTGCTAGCGTGGGCTCCGGGGTCCCGGTTCTCTCGCGAGTCCCGCTCAAGC
  AAAAGCAGCCTGGTCTGGATTACTTCTATCCCCAGCTGCAGCTGGGCGTGACGGAGGCCGTGGTCATAAC
  CCAAGTGTGCCATCCCCACCGCATTCACTGCCAGCTCCGCAGCGTCTCGCAGGAGATCCACCGCCTCTCC
  GAGAGCATGGCCCAGGTATACCGGGGTTCCACGGGGACAGGGGATGAGAACTCTACCAGTGCCACCTGGG
  AGGAGAGGGAGGAGAGCCCAGATAAGCCGGGCTCTCCGTGTGCATCCTGTGGCCTGGATGGACATTGGTA
  CAGAGCACTGTTGCTTGAGACTTTTCGGCCCCAGCGCTGTGCCCAGGTGCTTCATGTGGACTATGGAAGG
  AAGGAGTTAGTGAGTTGCAGCAGCCTTCGGTACTTGCTGCCTGAATATTTTCGAATGCCGGTGGTGACCT
  ACCCTTGTGCTTTGTATGGACTCTGGGACGGTGGGAGAGGCTGGTCTCGGTCACAGGTCGGTGACCTGAA
  GACACTGATACTAGGCAAGGCAGTGAATGCAAAGATTGAATTTTATTGCTCCTTTGAGCATGTGTATTAT
  GTCAGCCTGTATGGAGAAGATGGGATTAATCTGAACCGTGTGTTTGGAGTACAGTCGTGTTGCTTGGCTG
  ACCGAGTCCTTCAGAGCCAGGCAACAGAGGAGGAGGAACCAGAAACATCTCAGTCTCAGTCTCCTGCTGA
  AGAAGTAGATGAAGAGATTTCACTCCCAGCCTTAAGATCTATCAGGTTAAAGATGAATGCCTTCTACGAT
  GCGCAGGTAGAGTTTGTTAAAAATCCTTCTGAGTTTTGGATTAGGTTGAGGAAACACAATGTCACCTTCA
  GTAAGCTGATGAGGAGAATGTGTGGTTTCTATTCCTCTGCCAGTAAGCTGGATGGTGTAGTTTTGAAACC
  TGAACCTGATGACCTTTGCTGTGTCAAGTGGAAAGAAAATGGTTATTATAGGGCCATAGTCACCAAATTG
  GATGACAAGAGTGTGGATGTATTCTTAGTTGACCGAGGCAATTCGGAAAATGTGGACTGGTATGACGTAA
  GGATGCTGCTTCCTCAGTTTAGGCAGCTACCAATATTGGCTGTGAAGTGCACCCTGGCTGATATTTGGCC
  TTTGGGAAAAACTTGGAGCCAGGAGGCAGTTTCCTTTTTTAAAAAGACTGTGCTCCACAAAGAATTAGTC
  ATCCATATTCTTGATAAACAGGATCATCAATATGTTATTGAGATTCTTGACGAATCAAGAACAGGGGAAG
  AAAACATTAGTAAGGTAATTGCCCAAGCTGGATATGCCAAGTATCAGGAATTTGAAACAAAGGAAAATAT
  CCTGGTAAATGCCCACTCCCCAGGGCATGTTTCAAACCACTTTACTACGGAGAGTAACAAAATACCTTTT
  GCCAAGACTGGAGAAGGAGAGCAGAAAGCCAAGAGAGAGAATAAAACCACATCTGTTTCAAAAGCTTTGA
  GTGACACAACAGTTGTAACAAATGGTTCAACTGAACTAGTTGTGCAGGAAAAAGTGAAAAGAGCATCTGT
  TTATTTTCCTCTTATGCAGAATTGCTTGGAAATTAAGCCAGGCTCCTCTAGTAAAGGAGAGCTGGAAGTT
  GGAAGTACAGTAGAAGTCAGAGTGTCTTATGTTGAAAACCCTGGCTATTTCTGGTGTCAGCTGACCAGGA
  ACATACAAGGACTTAAAACTCTAATGTCTGATATTCAGTACTATTGCAAAAATACAGCTGCTCCTCACCA
  GAGAAACACCCTTGCTTGTTTGGCTAAGCGAACAGTAAACAGACAGTGGTCCAGAGCACTTATTAGTGGG
  ATACAGTCTGTGGAGCATGTCAATGTAACATTTGTAGATTATGGAGACAGAGAAATGGTATCTGTGAAGA
  ATATTTATTCAATTAGTGAAGAATTTCTGAAGGTTAAGGCACAGGCTTTTAGGTGCAGTCTTTATAATTT
  AATTCAACCAGTTGGCCAGAATCCCTTTGTTTGGGATGTAAAGGCAATACAAGCTTTCAATGAATTTATA
  GATAATGCATGGCAAAAAAATCTAGAATTAAAATGTACAATATTTGCTCTGGCTTCAATTAATGAAGAAC
  TGTTTAACATTGTGGATTTGCTAACCCCCTTTCAGAGTGCATGCCATTTCTTGGTAGAAAAGAGACTTGC
  AAGACCAGTAAAACTTCAGAAGCCTTTGGAGTCCTCTGTTCAGCTACATTCCTACTTCTATTCTACACAT
  GATATGAAAATTGGAAGTGAAGAATTAGTTTATATAACGCATATTGATGACCCTTGGACATTTTATTGCC
  AGCTGGCAAGAAATGCAAATATTTTAGAACAGTTGTCATGTAGTATTACACAATTAAGTAAAGTTTTGCT
  GAATTTAAAAACATCTCCCTTGAACCCTGGAACCTTGTGCCTTGCCAAGTATACTGATGGAAACTGGTAT
  AGGGGCATAGTAATAGAGAAAGAGCCAAAGAAAGTCTTCTTTGTTGATTTTGGGAATATTTATGTAGTAA
  CAAGTGATGATCTGCTTCCAATACCTAGTGATGCATATGATGTCTTACTTTTGCCCATGCAAGCTGTCAG
  ATGTTCATTATCTGATATTCCTGATCATATACCAGAAGAAGTGGTGGTGTGGTTTCAGGAGACTATTTTA
  GATAAGTCATTGAAGGCTTTAGTTGTAGCAAAAGATCCAGATGGAACACTGATTATAGAACTATATGGTG
  ACAATATTCAAATTAGTGCTAGTATTAATAAGAAGTTGGGGCTACTTAGTTACAAAGATAGAATAAGAAA
  AAAAGAAAGTGAAGTCCTCTGTTCTACAACTGAAACTCTTGAAGAAAAAAATGAGAATATGAAGTTGCCA
  TGTACAGAGTATTTAAGTAAATCAGTAGGGTACAAGTTACCTAATAAAGAAATTTTGGAAGAGTCATATA
  AACCTCAGATCAACTCATCATACAAGGAACTCAAACTTTTACAAAGTTTAACAAAAACAAACTTAGTCAC
  TCAATATCAAGACTCTGTGGGAAATAAAAATAGTCAAGTGTTTCCATTAACAACAGAAAAGAAAGAAGAA
  ATTTCTGCTGAGACACCCTTGAAAACAGCAAGAGTAGAAGCTACTCTTTCAGAGAGAAAAATAGGAGATT
  CATGTGACAAAGATTTGCCTCTGAAATTTTGTGAGTTCCCACAGAAGACTATAATGCCTGGATTTAAAAC
  AACTGTATATGTTTCTCATATAAATGACCTTTCAGACTTTTATGTTCAACTAATAGAAGATGAAGCTGAA
  ATTAGTCATCTTTCAGAGAGATTAAACAGTGTTAAAACAAGGCCCGAATATTATGTAGGTCCACCTTTGC
  AAAGAGGAGATATGATATGTGCTGTTTTCCCAGAAGATAATTTATGGTATCGTGCTGTGATCAAGGAGCA
  ACAACCCAATGACCTTCTCTCTGTGCAGTTTATAGATTATGGCAATGTTTCTGTGGTTCATACTAACAAA
  ATAGGTAGGCTTGACCTTGTTAATGCAATATTGCCGGGGTTGTGCATTCATTGCTCCTTGCAGGGATTTG
  AGGTTCCTGACAATAAAAATTCTAAGAAAATGATGCATTACTTTTCCCAACGGACCAGCGAGGCTGCAAT
  AAGATGTGAATTTGTTAAATTTCAAGACAGATGGGAAGTTATTCTTGCTGATGAACATGGGATCATAGCA
  GATGATATGATTAGCAGGTATGCTCTCAGTGAAAAATCTCAAGTAGAACTTTCTACCCAAGTAATTAAAA
  GTGCCAGTTCAAAGTCTGTTAACAAATCAGACATTGACACTTCAGTATTTCTTAACTGGTATAATCCAGA
  AAAAAAAATGATAAGAGCTTATGCCACTGTGATAGATGGACCTGAGTACTTTTGGTGTCAGTTTGCTGAT
  ACGGAGAAACTTCAGTGTTTAGAAGTAGAAGTACAGACTGCTGGAGAACAGGTAGCAGACAGGAGAAATT
  GTATCCCATGTCCTTATATTGGAGATCCTTGTATAGTAAGATACAGAGAAGATGGACATTATTATAGGGC
  ACTTATCACTAATATTTGTGAAGATTATCTTGTATCTGTCAGGCTTGTGGACTTTGGAAACATTGAAGAC
  TGTGTGGACCCAAAAGCACTCTGGGCCATTCCTTCTGAACTTCTGTCGGTTCCCATGCAAGCCTTTCCAT
  GTTGCCTCTCAGGGTTTAACATTTCAGAAGGATTATGTTCTCAAGAGGGAAATGACTATTTCTATGAAAT
  AATAACAGAAGATGTGTTGGAAATAACAATACTAGAAATCAGAAGGGATGTTTGTGATATCCCTTTAGCA
  ATTGTTGACTTGAAAAGCAAAGGTAAAAGTATTAATGAGAAAATGGAGAAATATTCTAAGACTGGTATTA
  AAAGTGCTCTTCCCTATGAAAATATTGACTCAGAGATAAAGCAGACTCTTGGGTCCTACAATCTTGATGT
  AGGACTTAAGAAATTAAGTAATAAAGCTGTACAAAATAAAATATATATGGAACAACAGACAGATGAGCTT
  GCTGAAATAACTGAAAAAGATGTAAACATTATTGGAACCAAACCAAGTAACTTCCGTGACCCTAAAACTG
  ATAACATTTGTGAAGGGTTTGAAAACCCCTGCAAAGATAAAATTGATACTGAGGAACTGGAAGGTGAATT
  AGAGTGCCATCTGGTTGACAAAGCAGAGTTTGATGATAAATACCTGATTACAGGATTTAACACATTACTA
  CCACATGCTAATGAAACAAAGGAGATACTAGAACTGAATTCACTTGAGGTGCCGCTTTCTCCTGATGATG
  AATCAAAAGAATTCTTAGAACTGGAATCTATTGAGTTACAGAATTCTCTGGTGGTGGATGAAGAAAAAGG
  GGAGCTAAGCCCGGTGCCACCGAATGTGCCACTCTCCCAAGAGTGTGTCACAAAAGGCGCCATGGAGCTA
  TTTACACTGCAGCTTCCTCTCAGCTGTGAAGCTGAGAAACAGCCAGAACTAGAACTACCTACAGCCCAGC
  TGCCTTTAGATGACAAGATGGATCCTTTGTCTTTAGGAGTTAGTCAGAAAGCACAGGAATCCATGTGTAC
  TGAGGACATGAGAAAGTCAAGTTGTGTAGAATCTTTTGATGACCAGCGCAGGATGTCATTGCATCTACAT
  GGAGCAGATTGTGATCCTAAAACACAGAATGAAATGAATATATGTGAAGAAGAATTTGTAGAGTATAAAA
  ACAGGGATGCCATTTCGGCATTGATGCCTTTGTTCTCTGAGGAAGAAAGCAGTGATGGAAGCAAGCACAA
  TAATGGTTTACCAGATCATATCTCAGCTCAACTACAGAACACCTACACTCTGAAAGCCTTTACTGTTGGA
  TCTAAATGTGTTGTGTGGTCAAGTCTAAGAAACACATGGTCTAAATGTGAGATTTTAGAAACAGCTGAAG
  AAGGAACAAGGGTTTTGAACCTTTCAAATGGTATGGAGGAGATAGTGAACCCTGAGAATGTCTGGAATGG
  CATACCCAAATTGGATAAGAGTCCACCTGAGAAAAGGGGTTTGGAGGTGATGGAGATTTAA
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_001010870
• ORF Size: 6291 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.

Reference Data

• RefSeq: NM_001010870.2, NP_001010870.1
• RefSeq Size: 8977
• RefSeq ORF: 6291
• Locus ID: 221400
• Gene Summary: This gene encodes a tudor domain-containing protein and component of the chromatoid body, a type of ribonucleoprotein granule present in male germ cells. Studies in rodents have demonstrated a role for the encoded protein in spermiogenesis and the nonsense mediated decay (NMD) pathway. This protein is a major autoantigen in human patients with autoimmune polyendocrine syndrome type 1 (APS1). [provided by RefSeq, Oct 2016]
  Transcript Variant: This variant (1) represents the longest transcript and encodes the longer isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.