Setx (NM_198033) Mouse Untagged Clone

CAT#: MC225382

Setx (untagged) - Mouse senataxin (Setx), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Setx
• Synonyms: A130090N03; A930037J23Rik; Als4; AOA2; AW060766; mKIAA0625; SCAR1; Sen1
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225382 representing NM_198033
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGAGCACATGCTGTTGGTGTACTCCAGGTGGGTCTTCCACCATTGATGTCCTAAAGCGCTATGCATCTA
  GCACTGGGTCAAGTGAATTTCAGACAGCTGATGAAGACCTCTGCTACTGCTTAGAGTGTGTGGCTGAGTA
  CCACCGAGCCAGAGATGAGGTGCCGTTCTTGCACGAGGTTTTATGGGAGCTAGAAACCTTACGCCTCGTA
  AGTCACTTTGAGAAGTCCATGAAGGCAGAAGCTGAAGATGACGATGATTTATATATAGTAGACAACAATG
  GAGAGGAACAGCTGTTTGACTGTAGTGGCCAAGATTTTGAAAATAAGCTTCGAGTTCCTCTTTTTGAAAT
  ACTGAAGTACCCTTACTTGCTTCTGCATGAGCGTGTTAATGAACTGTGTGTGGAAGCGCTTTGCCGAATG
  GAACAAAACAATTGCTCCTTTCAGGTTTTTGACAAATATCCAGGCATCTATTTGTTTTTGGTTCATCCCA
  ATGAAATGGTTCGGCGATGGGCTATTCTGACTGCAAGAAACCTGGGGAAGGTGGACAGAGATGACTATTA
  TGACTTACAGGAAGTTTTAACTTGCCTTTTTAAAGTCATTGAGCTGGGGCTTTTGGAAAGTCCAGACATT
  TACACATCTTCTGTGCTTGAAAAAGGCAAACTGATCCTTTTGCCTGCACACATGTATGATACTACCAACT
  ACAAAAACTATTGGCTAGGTATTTGCATGTTGTTGACTATTCTTGAGGAGCAAGCCATGGATTCACTGTT
  GCTGGGCTCAGACAAGCAAAATGATTTTATGCAATCAATTCTTCACACCATGGAGAAGCAATCGGATGAT
  GATAGCATGGATCCTTTTTGGCCAGCATTACACTGTTTCATGGTGATTCTTGATCGCCTTGGATCTAAGG
  TATGGGGTCAACTTATTGACCCTATTGAAGCATTTCAAACCATCATTAACAACGAGAGCTACAACAGAGA
  GATCCAGAATATACGGAACAGCTCCATAAGGACCAAGTTAGAACCGGAGCCACATTTTGATGATATGGTG
  ACGTGCAGCCAGATTGTTTATAACTTTAATCCTGAAAAGACCAAAAAGGATTCTGGGTGGAGATCAGCCA
  TTTGTCCAGATTATTGTCCAAACATGTATGAAGAAATGGAAACATTAGCCAATGTACTTCAGTCAGATAT
  TGGTCAAGATATGCGTGTTCATAACAGCACCTTTCTGTGGTTCATACCTTTTGTTCAGTCACTCATGGAT
  CTTAAGGATTTGGGTGTGGCTTACATAGTAGAAGTTATTCATCATCTATACTCAGAAGTCAAAGATGTCC
  TCAACCAGACAGATGCTGTGTGTGACAAAGTCACTGAATTTTTTATTCTGATTTTAATATCAGTGATTGA
  GCTGCATAGAAATAAAAAATGCTTGCATCTGCTGTGGGTGAGTTCTCAGCAGTGGGTAGAAGCTGTTGTG
  AAGTGTGCCAAGCTTCCTACTACCGCATTTGTCCGGAGTTGTGAGAAGTCACCTGGAAGTACCTCCAGAG
  GAGCAGCAATAATGTCGTCCTTGGCGTTGCATTCGGTGCAGTCTAACTCTGTCCAGCTTGCTTGTGTACA
  GTTGATTAGAGGTCTCCTCAAAGAAGGTTATCAGCTTGGTCAGCAAACACTTTGTAAGCGGTTCTGGGAT
  AAGCTTAACTTATTCCTTCGAGGAAATTTGTCTCTGGGTTGGCAATTGACTGGTCAAGAAACCCATGAGT
  TACAAATGTGTTTGAAACAAATAATTAGAAACATAAAATTCAAAATGCCCCAATATAGCACTTTTGGGGA
  TTCAACTTCTACATTTAAAACCCCTCCATCTTTTAAAGAAGAAAGTGATAAAATAGACAGGAAGCATAAA
  AAAAACATTTATTGTTTGGAAAATTGCAGTCCAGTGTCTTCTAAAGAGCCAATGAAAGCTGACACCCATC
  GAGTATTGATGAAAGTAAATACTACAGAAGAGGAGAACTTCAAGCAGCATTACATTGATTTGAATGAAGA
  AGAGCAAGAGCCTCTTCCAGCTGAGTTGTGCTTGAAGCAGAAAAGTGAGGCCCTTTTTTCTGAAAGTGCT
  CAAGAGCAAGTTAAAATTAGCGCAGAGAAGTCTGGGAAAGAAAGCTCTTCATATGCACCATCAAATAGTA
  CTTCAAGAAATGGTCCAGAATGGGGATGTGACAGAGGAGTGATAATGTCAGCACATTCATTGACTGATTC
  TAGCAGTGATTTTATGGAACAGGTATCTACATCAAATGAAGATGTCTCATTAAAGGATGGCTCTGTTGGT
  AAAACTTCAAAACCAAGTTTCAAATTACAGAAAGATGAAATTTGTGCAAAGTTATCACATGTCATAAAGA
  AGCAAATCAGGAAAAGTACTTTGGTAGATAATATTATCGATCTAGAGGAAAATACAGCTATATCTGACCT
  TGAGAACTGTTCAGGAACAGATGGAGGAGCTCTAAAGGAAGATAGTATTGGACACAATGTCCCTTCAGAC
  CCTGTTCTGGATGACAAGCATGAAGAGCAAAAATCTCAAAACAGTTCATTATTCAAGAAAGAGATAAAGA
  GTGAGGAGTTGGATAATAGTAGTTCTGATGATGAAGACAAGCTTCAAATCCAGGAAGGCCGTGCTGACGA
  TGATTTGGTATCATTTACAGAAGTTACTGATACACTGGTGAAAGCTCCATGTGAGGGTCATGTAAAGATG
  GTAGTTGAATCAAGAGATAAGGAAATGAGAGAGAGTACAGCGTTGACTTCTAACTTGGTAGAAGGACAGG
  TGCCTCATGACAGTAGCAAGCCTTTGGTTGCAGGTCGTCAAATAGACCTCTGTAACATAACTTTAATATC
  TCAAACCACTGTTATTCAATTTCCATCAGGTTTAAGTAAACAGAATTCATTTCAGCTACAAAAAGGTGAT
  AAAAGATGTTTGACAGCTAACCAAAACAGTGCTGCCACCTGCCGTGGACAAGTTATTGTGATTTCAGATT
  CTGACGAAGAAGAGGATGAGGATGAAGATGAAAGAAGTAGTAGTGAGGAAAACATCAAACAGAGTAAAGC
  ATGCATAGGGAAAGACTGCTCAGAGCATCGTAGCTTGGCAGTTAATGCCAGTGTGGAGAAGCAGCTTGTA
  AAAGAGGAAGAAAGGTACCCTGTAGAATTTGAAGACTCTGAATCTCAGGTTTTTGAGTTTGAAAGCTCAT
  CTGAAGTCTTTTCAGTTTGGCAAGATCATAAAATAGACAGCAAAAACTCCCTTCAAGGGGAACAGAAGAG
  CTATGTAACTCATGTAGCTGATAGTACAAACAATAACTTGGGTTGTGGTGACTCTGTGTCTGAAGAGGTT
  GTTAGAAACAAAGCAGAGGGAGTTAAAGAGCATGCAGGACCACATAGTAGTGTTTCTGCTGAGGAATTTT
  GTAAAACTGGAGTAAAAAAACCTAAGAGGAAACGCTATGACAAAGTTACAGCTGAAGATCCTCAGAGGCC
  TTCCTCTTCTGTTGGAACTGATCAATTGCCTGATCGCAGAGATCTTACTGAAAGTGATTTAAAGAGTGCA
  GACATGGGGATGGCAACTCCCAGTTCAAGTGTTGAGAGAGATTCTACAATTTTACAGAAGTCTACAAAAT
  CTCGAACTCACTCAAAACCTGTTAGGAAAGTTCCAGCCTCTAAGGCAACTAAGAAAACACATTCAGACAC
  CAGAAGAGGACAGTCTAAGAGTTCATGTTACATAAGTTGTAGAACTTCTCCTGCTATTGTGCCACCAAAG
  AAGCTTCGTCAGTGTCCAGAGCCAACTTCAACAGTTGAAAAACTTGGTCTGAAAAAAGCCCCTAGGAAGG
  CATTTGAGTTGTCCCAGAGGTCTCTGGAGTGTATAGTCCAATTACGTGACCACGGGAAGACTGTTGGAGT
  AGTTGACGCCCCCAAGAAAGCTAAATTAATTTCTCCTCAGACTCTTTCTATCAAAAATAATAAGAAGCTT
  CTGACAAGCCAGGATCTTCAATTTCAAAGGCTTATGAGATCCAGATCACATAAAAAACGAGACTTTGATT
  ACAAAAATACTGATACTGTAAGAGTGTCACGCATAGTACAGGGATCAGATGTACTTGAAGCAGACTCTGA
  TGAGCCAGATGATCATAGAGTAAGTGAGCCACTTGCCATCAGTAATGAAAAACAGTTAGCAAAATGCATG
  CTTTCCAAAACAGAAGTGGCAGAAGCCTCTTCTGATCCTTGGGTGACAGGTATAACTTGTCTTGTGAACC
  AGTGTGAATCTAGAGTGTTAAGTGGAGGAGTGCCAACAGATGTGGTGATGGTCTCTGCTTCAGAGGACCC
  TGTGGATGGAGGTGCTGTCACAGTTCAAGTTGGGGAGGTGGCATCTGTGAAAGCTGCAGAGCCAGCGTCT
  AGTAGTGATACAGATGATGATGACAACTTATTCCTAACACAACATGATCCTCAAGATATGGATCTGTGCT
  CACAGTTGGAAAATAAAACCATTATCGTGGCTCATAAAAAAGATACAGTTCAGAGAGAAGATTCTTTAAG
  TCGGCCTCAGTTGGAGTCTTTGAGTATCACAAAGTGTAAATACAAAGACTGTGTCGAAACTACAAAAAAC
  CAGGGTGAATACTGCCCAAGACACTCTGAAGCTAAAGCAGCAGATGACGGCCTGTTCCGTAAACCTGGCT
  TGCCTCTTTCTGTAGCCAGGCCCTTGAGACCTACTACTACCAAGATATTTAGCTCAAGCAGCGCTTCACG
  AACTGCCAATCTTTCCAAGTCTTTGGAAAGTACTACACTTCAGCAGTCAGCACTAAAAAATAAGTCAAGT
  GGAGCGCAGCCTAATTTGAAGGTGACACCACCCTCTTCCATGGGTTCTCAGAAGCCAGTGGCTGAGGTGA
  AAAGTCTATGCAATATTTTTCATTTTCAGACTCCAAGCAGTTCCAGCAAACAGAGTTGCAAGCTTACATT
  TAGTGAGAACAGGCCTACATCAGCTGCTTCTCCAGTGAATATTCTCTTGCCATCGCAGTCTATCTTTGAC
  ACCTTCATTAAAGAGGTCTTAAAATGGAAATACCAAATGTTTTTGAACTTTGATAAGTGTGGTGCTCCAA
  CAAGTCTCTGTCAGTCTATCTCAAGACCTGTGCCTGTCCGATTTCAAGATTGTGCAGAATATTTTAATGT
  TTTTCTACCTTTGATTATATTGAATGCTTTTGAAACAGTGGCACAGGAATGGCTGAGCTCTCCAAATAAA
  GAGAATTTCTATCAGTTGCAATTACGAAAATTTCCAGCTGACTATAAAAAATACTGGGAGTTTCTGATTT
  ACTTGAACGAATCTGAACTTGCTAAACAGCTTCACCCAAAGGAAAATGATCTGGTGTTTCTGGCTCCTGA
  GAAGAGTTATATGGACAGGCATGGCATGCAAGATTGCAGTCACTATTACTGTGGCTATGTTCATAAGTTT
  CGTCGCACTTCAGTTATGCGCAGTGGGAAAGCTGAGTGTTCATTATGCATACAGACACAAGATACCTTGC
  CAGCCAGTGTAAAAAATCTTACAAGATGCATTGTGATCAGTTCTCTGGTAACTACACAGAGGAAATTGAA
  AGCCATGTCTCTGTTGAGTAGTCGGAACCAGTTGGCCAGAGCTGTTCTAAATCCAAACCCCATGGACTTC
  TGTACCAAAGATCTACTAACTACAACTTCTGAAAGAATTGTTGCCTACTTAAAAGACTTTAATGAAGACC
  AAAAGAAAGCCATAGAAACTGCATATGCCATGGTGAAACACTCACCATCCGTTGCCAAAATCTGTCTGAT
  TCATGGACCACCTGGAACAGGAAAATCCAAAACTATTGTTGGTCTCTTGTACCGCTTACTGACAGAGAAC
  CAGAGGAAGGGCCATTCAGATGAAAATTTCAATGCCAAAATCAAACAAAATCGAGTCCTCGTGTGTGCAC
  CTTCCAATGCGGCGGTTGATGAACTTATGAAAAAAATTATCCTCGAATTTAAAGAAAAATGTAAAGACAA
  GAAGAATCCTTTGGGAAACTGTGGAGATATAAATTTAGTACGACTAGGTCCAGAAAAGTCTATTAATACA
  GAGGTCTTAAAATTCAGTTTGGACAGCCAAGTCAACCATAGAATGAAAAAAGACTTGCCTTCTCATATTC
  AAGAAATGCTTAGAAGAAAAGAAATTCTAGATGCTCAACTTGATGAGCTTTCTCGTCAGCGAGCTCTGTG
  CCGAGGTGGGCGGGAGATGCAGAGGCAAGAATTAGATGAACACATTGCCATAGTCTCAAAAGAAAGGCAA
  GAACTTGCTTCGAAAATTAAAGAGGTTCAGGGACGCCCACAGAGAGCACAGAATACCATCATCTTGGAGT
  CCCATGTCATCTGCTGCACATTGAGCACTAGTGGTGGTTTATTGCTTGAGTCTGCTTTTCGAGGGCAAGG
  GGGTGTCCCCTTCAGTTGTGTCATCGTAGATGAGGCTGGGCAGTCTTGTGAAGTTGAGACACTTTCTCCA
  CTCATCCACCGCTGCAATAAACTTATCCTAGTAGGAGACCCCAAACAGCTCCCTCCCACAGTCATCTCTA
  TGAAAGCACAGGAGTATGGCTATGACCAGTCGATGATGGCCCGATTCTGCAAGCTGCTGGAAGAGAATGT
  GGAGCAGAACATGATTGGCAGGCTGCCGGTGTTACAGCTTACCATTCAGTACAGGATGCATCCAGACATA
  TGTCTTTTCCCTTCTAATTACGTTTATAACAAAAACCTGAAGACAAATAGATTGACTGAATCCATTCGAT
  GTTCATCAGAGTGGCCATTTCAGCCCTACCTCGTGTTTGATGTTGGAGATGGTTCAGAACGACGGGATAA
  TGACTCATATATAAATGTTCAAGAAATAAAGTTGGTGATGGAAATAATTAAACTTATTAAAGAGAAAAGA
  AAAGATATTTCCTTCCGAAATATTGGCATAATAACCCATTACAAGGCTCAGAAGACGATGATCCAGAAGG
  ATTTGGAGAAAGAATTTGATAAGAAAGGACCTGCAGAAGTGGACACAGTAGATGCCTTCCAGGGCCGGCA
  GAAAGACTGTATCATCGTTACCTGTGTCAGGGCAAGTGCTGTGCAAGGCTCAATAGGATTCCTGGCAAGT
  TTGCAGAGATTGAATGTCACCATTACACGAGCCAAGTATAGCCTCTTTATCCTTGGACATTTGAGGACTC
  TGATGGAAAACCAGCATTGGTATGAACTGATTCAGGATGCTCAGAAGCGTGGGGCCATTATTAAGACCAG
  TGACCCAAACTATAGACATGACGCAATGAAGATTCTGAAACTGAAGCCTGTGCTACAGAGGAGTCTGACC
  CATCCCCCAGCCACTGCCCCGGAGGCACCCAGACCCCAGGGTGGCTTGCCCAGCAACAGACTGGACAGTG
  GACTTGCCACAACATCTTTTGCTGCTTCTTTGTATCACACACCCTCTGATACTGTCACTTCAAAGGGACC
  TGAAAGGCCACTTCTTCAAGACCGACTTCGAGATCCACGACTACTCAGGAGATTGGATGCTGAAGCCAAG
  GGAACATTCCTGAAGGATCCACAGCCCGTTAGCCCCCAGCTCCCCGGGGTAGTTCATCTCTTGGGAGAGC
  CTGGCTTCCCTGTGGTTTTCCAGGACCTAGGTTTTGTTGTGCCGCCATCCACTGCCATTGTTGCTCCTCT
  GGGCAGCCACAGGTCACCTATGCAGGCTGAGCCACCACCTGCTCACCCTGCTGCTGCCGCCTCCACAAGT
  AAGAGGAAGTACAGTGACCCAGATGCTGGGCTCAGCCACAAAAGAGAACCCAGGGCCTTCAGTGGAGAGC
  AGGGGAGGCATGGCTCTGTGACTCATCACGTGCTGAGAAGCACTGACTGGGACAGGAGGAGGCTGGATGA
  CAGCAGTGCCAAGAGGAGACAATTTCTATAG
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_198033
• Insert Size: 7941 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_198033.2, NP_932150.2
• RefSeq Size: 10970 bp
• RefSeq ORF: 7941 bp
• Locus ID: 269254
• UniProt ID: A2AKX3
• Cytogenetics: 2 B
• Gene Summary: Probable RNA/DNA helicase involved in diverse aspects of RNA metabolism and genomic integrity. Plays a role in transcription regulation by its ability to modulate RNA Polymerase II (Pol II) binding to chromatin and through its interaction with proteins involved in transcription. Contributes to the mRNA splicing efficiency and splice site selection. Required for the resolution of R-loop RNA-DNA hybrid formation at G-rich pause sites located downstream of the poly(A) site, allowing XRN2 recruitment and XRN2-mediated degradation of the downstream cleaved RNA and hence efficient RNA polymerase II (RNAp II) transcription termination (By similarity). Required for the 3' transcriptional termination of PER1 and CRY2, thus playing an important role in the circadian rhythm regulation (PubMed:22767893). Involved in DNA double-strand breaks damage response generated by oxidative stress. In association with RRP45, targets the RNA exosome complex to sites of transcription-induced DNA damage (By similarity). Plays a role in the development and maturation of germ cells: essential for male meiosis, acting at the interface of transcription and meiotic recombination, and in the process of gene silencing during meiotic sex chromosome inactivation (MSCI) (PubMed:23593030). Plays a role in neurite outgrowth in hippocampal cells through FGF8-activated signaling pathways. Inhibits retinoic acid-induced apoptosis. May be involved in telomeric stability through the regulation of telomere repeat-containing RNA (TERRA) transcription (By similarity).[UniProtKB/Swiss-Prot Function]