Chd4 (NM_145979) Mouse Untagged Clone

CAT#: MC225032

Chd4 (untagged) - Mouse chromodomain helicase DNA binding protein 4 (Chd4), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Chd4
• Synonyms: 9530019N15Rik; AA617397; BC005710; D6Ertd380e; Mi-2beta; mKIAA4075
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225032 representing NM_145979
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGCGTCGGGCCTGGGCTCCCCGTCCCCCTGCTCAGCGGGCAGTGAGGAGGAGGATATGGACGCACTTC
  TGAACAACAGCCTGCCCCCACCCCATCCAGAAAATGAGGAAGACCCAGACGAGGATTTATCCGAAGCAGA
  GACTCCAAAGCTCAAGAAGAAGAAAAAGCCTAAGAAACCTCGAGACCCTAAAATCCCTAAGAGCAAGCGC
  CAAAAAAAGGAGCTGGGGGACAGCTCTGGGGAGGGGCCAGAGTTTGTGGAGGAGGAGGAAGAGGTGGCTC
  TGCGCTCAGACAGTGAGGGCAGCGACTATACTCCTGGCAAGAAGAAGAAAAAGAAGCTCGGACCTAAGAA
  AGAGAAGAAGAGCAAATCCAAGCGGAAGGAGGAGGAGGAAGAGGAGGACGAGGATGATGACTCGAAGGAA
  CCTAAGTCATCAGCCCAGCTTTTAGAAGACTGGGGTATGGAAGACATCGACCATGTGTTCTCAGAGGAGG
  ATTATCGGACCCTCACCAACTACAAGGCCTTCAGCCAATTTGTTAGACCCCTGATTGCTGCTAAAAACCC
  CAAGATTGCTGTCTCCAAGATGATGATGGTCTTGGGTGCAAAGTGGAGGGAATTCAGTACCAACAACCCC
  TTCAAGGGCAGCTCCGGAGCATCAGTGGCAGCTGCGGCGGCGGCGGCTGTGGCTGTGGTTGAGAGCATGG
  TGACAGCTACTGAAGTCGCCCCTCCCCCTCCCCCTGTGGAGGTGCCGATCCGCAAGGCCAAGACCAAGGA
  GGGCAAAGGTCCCAATGCTCGGAGGAAGCCGAAAGGCAGCCCGCGAGTGCCTGACGCCAAGAAGCCCAAA
  CCCAAGAAAGTAGCTCCTCTGAAGATCAAGCTGGGAGGGTTCGGCTCCAAGCGGAAGAGATCCTCGAGTG
  AGGACGACGATTTAGATGTAGAGTCTGACTTCGACGATGCCAGTATCAACAGCTATTCTGTTTCGGATGG
  TTCCACCAGCCGCAGTAGTCGGAGCCGTAAGAAACTCCGGACCGCTAAAAAGAAAAAGAAAGGCGAGGAG
  GAGGTGACTGCTGTGGATGGTTATGAGACAGACCACCAGGACTATTGCGAGGTGTGCCAGCAAGGCGGCG
  AGATCATCCTGTGTGATACCTGTCCCCGAGCCTACCATATGGTGTGCCTGGACCCAGACATGGAGAAGGC
  CCCGGAGGGCAAGTGGAGCTGTCCGCACTGTGAGAAGGAGGGGATCCAGTGGGAAGCTAAGGAGGACAAT
  TCTGAGGGTGAGGAGATTCTGGAAGAAGTCGGGGGGGACCCAGAAGAGGAGGATGACCATCACATGGAAT
  TCTGTCGCGTCTGCAAGGACGGCGGGGAGCTCCTGTGCTGTGACACATGCCCTTCTTCCTACCACATCCA
  CTGCCTGAACCCCCCGCTGCCAGAGATCCCAAACGGCGAATGGCTCTGTCCCCGCTGTACTTGTCCAGCT
  CTTAAGGGCAAAGTGCAGAAGATCCTAATTTGGAAGTGGGGCCAGCCACCGTCTCCCACACCAGTGCCTC
  GGCCTCCAGATGCTGACCCTAATACCCCGTCGCCCAAGCCCTTGGAGGGGCGGCCAGAGAGGCAGTTCTT
  TGTGAAATGGCAAGGCATGTCTTACTGGCACTGCTCCTGGGTGTCAGAACTGCAGTTGGAGCTGCACTGT
  CAGGTGATGTTCAGAAACTACCAGCGGAAGAATGATATGGACGAGCCGCCTTCTGGGGACTTTGGTGGAG
  ATGAAGAGAAGAGCCGGAAGCGAAAGAACAAGGACCCTAAGTTTGCAGAGATGGAAGAGCGCTTCTACCG
  CTATGGAATAAAACCGGAGTGGATGATGATCCACCGCATCCTCAACCACAGTGTGGACAAGAAGGGCCAC
  GTTCACTATTTAATCAAGTGGCGAGACCTGCCCTATGACCAGGCGTCCTGGGAGAGCGAGGACGTGGAGA
  TTCAGGACTACGACCTGTTCAAGCAGAGCTACTGGAACCACAGGGAGTTAATGAGGGGTGAAGAAGGACG
  ACCCGGCAAGAAGCTTAAGAAGGTGAAGCTACGGAAACTGGAAAGGCCTCCGGAGACCCCAACTGTTGAT
  CCCACCGTGAAGTATGAGCGACAGCCGGAGTATCTGGATGCGACGGGTGGAACCCTGCATCCCTACCAAA
  TGGAAGGCTTAAACTGGCTCCGCTTCTCCTGGGCTCAGGGAACCGATACTATCTTGGCTGATGAGATGGG
  CCTTGGGAAAACTGTGCAGACAGCAGTCTTCCTCTACTCCCTCTATAAGGAGGGTCACTCCAAAGGCCCC
  TTCTTAGTGAGCGCTCCTCTGTCCACCATCATCAACTGGGAGAGAGAGTTTGAGATGTGGGCTCCTGATA
  TGTATGTGGTAACCTATGTGGGTGACAAGGACAGCCGTGCCATCATCCGGGAAAATGAGTTCTCCTTTGA
  AGACAATGCCATTCGTGGTGGCAAGAAGGCCTCGAGGATGAAGAAAGAAGCATCGGTGAAATTCCATGTT
  CTGCTGACATCCTATGAGTTGATCACCATTGATATGGCCATCTTGGGTTCTATTGACTGGGCCTGCCTCA
  TTGTGGATGAAGCCCATCGGCTGAAGAACAACCAGTCTAAGTTCTTTCGAGTTTTGAATGGTTACTCACT
  CCAGCACAAGCTGTTGCTAACTGGAACTCCGTTACAGAACAATCTAGAGGAACTGTTTCATCTGCTCAAC
  TTTCTCACCCCTGAGAGGTTCCACAACTTAGAAGGCTTCTTGGAGGAGTTTGCAGACATTGCCAAAGAGG
  ACCAGATTAAAAAACTCCACGACATGCTGGGGCCTCATATGTTGCGGCGGCTCAAAGCTGACGTCTTCAA
  GAATATGCCATCCAAGACAGAGCTGATTGTGCGCGTGGAGTTGAGTCCTATGCAGAAGAAGTACTACAAG
  TATATTCTCACGCGGAATTTCGAAGCACTTAATGCTCGAGGTGGTGGCAACCAGGTTTCTCTGCTGAACG
  TGGTGATGGATCTTAAGAAATGCTGCAACCACCCTTATCTCTTCCCTGTGGCAGCAATGGAAGCCCCTAA
  GATGCCTAATGGTATGTATGATGGCAGTGCCCTAATCAGAGCATCTGGGAAGTTGTTGCTGCTGCAGAAG
  ATGCTTAAGAACCTGAAAGAGGGAGGGCATCGTGTGCTCATCTTCTCCCAGATGACCAAGATGTTGGACT
  TGCTAGAGGATTTTTTAGAACATGAAGGTTATAAATATGAACGTATTGATGGTGGAATCACTGGGAACAT
  GCGTCAGGAGGCCATTGATCGCTTCAATGCACCGGGTGCTCAACAGTTCTGCTTCTTGCTTTCCACTCGA
  GCTGGGGGCCTTGGGATCAATCTGGCCACTGCGGACACAGTTATTATATATGACTCTGACTGGAACCCCC
  ATAATGACATCCAGGCCTTTAGCAGAGCCCACCGTATTGGGCAAAATAAGAAGGTGATGATCTACCGGTT
  TGTGACCCGTGCATCAGTGGAGGAGCGCATCACGCAGGTGGCAAAGAAGAAGATGATGCTGACACATTTA
  GTGGTACGGCCTGGCCTGGGCTCCAAGACAGGCTCAATGTCTAAACAGGAGCTTGATGATATCCTCAAAT
  TTGGCACTGAGGAGCTATTCAAGGATGAAGCCACGGATGGAGGAGGAGACAACAAGGAGGGAGAAGACAG
  CAGTGTTATCCACTATGACGATAAGGCCATTGAACGACTGCTGGATCGAAACCAGGATGAGACTGAAGAC
  ACAGAATTGCAGGGCATGAATGAATATTTGAGCTCATTCAAAGTGGCTCAGTATGTGGTACGGGAAGAAG
  AGATGGGGGAGGAAGAGGAGGTAGAACGGGAAATCATAAAACAGGAAGAAAGTGTGGATCCTGACTACTG
  GGAGAAATTGCTGCGGCACCATTATGAGCAGCAGCAAGAAGATCTAGCCCGAAATCTGGGCAAAGGAAAA
  AGAATCCGTAAACAGGTCAACTACAATGATGGCTCACAGGAGGACCGAGATTGGCAGGACGACCAGTCCG
  ACAACCAGTCCGATTACTCAGTGGCCTCAGAGGAAGGTGATGAAGACTTTGACGAACGGTCAGAAGCTCC
  CCGCAGGCCCAGTCGCAAGGGCCTGCGGAATGATAAAGATAAGCCATTACCTCCTCTGTTGGCCCGTGTT
  GGTGGGAATATTGAAGTACTTGGTTTTAATGCTCGTCAGCGAAAAGCATTTCTTAATGCAATTATGCGAT
  ATGGCATGCCACCTCAGGATGCTTTTACCACTCAGTGGCTTGTGAGAGATCTTCGAGGCAAGTCAGAGAA
  AGAATTTAAGGCTTATGTGTCACTCTTCATGCGACATTTGTGTGAGCCTGGGGCAGATGGGGCTGAGACC
  TTTGCTGATGGCGTCCCACGAGAAGGCCTGTCTCGTCAACATGTTCTCACTAGGATCGGTGTCATGTCTC
  TGATTCGAAAGAAGGTTCAGGAGTTTGAACATGTTAATGGACGCTGGAGCATGCCCGAACTGGCTGAAGT
  AGAGGAAAACAAAAAAATGTCTCAGCCAGGTTCACCTTCTCCAAAGACTCCTACACCTTCCACACCAGGG
  GACACACAACCCAATACTCCTGCGCCTGTGCCACCTGCTGAGGATGGGATAAAAATAGAGGAAAATAGCC
  TTAAAGAAGAAGAGAGCACAGAAGGAGAGAAGGAAGTTAAATCTACAGCCCCTGAGGCGACTGTGGAGTG
  TGCACAGCCCCCTGCCCCTGCCCCTGCCACTGCCCCTGCCACTGCCACTGCCCCTGAGGATGACAAGGCT
  CCTGCTGAGCCTCCTGAGGGGGAGGAAAAAGTGGAAAAGGCAGAGGTGAAGGAGAGAACAGAGGAGCCTA
  TGGAGACAGAGGCCAAAGGTACTACTGAGGTGGAGAAAGTGGAGGAGAAGTCTGCGGTAGACCTGACCCC
  GATCGTGGTGGAAGACAAAGAAGAGAAGAAGGAGGAGGAGGAGAAAAAGGACGTGATGCTTCAGAATGGA
  GAAACTCCCAAGGATCTTAGTGATGAGAAGCAGAAGAAAAACAGCAAACAGCGTTTCATGTTCAACATTG
  CAGATGGTGGTTTTACTGAGTTGCACTCACTGTGGCAGAATGAAGAGCGGGCAGCCACAGTCACTAAGAA
  GACTTACGAGATCTGGCACCGTCGCCATGATTACTGGCTGCTGGCTGGCATTATAAACCACGGCTATGCC
  CGGTGGCAGGACATCCAGAATGACCCACGGTATGCCATCCTCAATGAGCCTTTCAAGGGTGAAATGAATC
  GTGGCAATTTTCTAGAGATCAAGAATAAATTTTTAGCTCGAAGATTCAAGCTCTTAGAACAAGCCCTGGT
  GATCGAGGAGCAGCTTCGCAGGGCAGCTTACCTGAACATGTCCGAGGACCCCTCTCACCCGTCTATGGCC
  CTTAACACCCGCTTCGCTGAGGTGGAGTGTTTGGCAGAAAGTCACCAGCACCTGTCCAAGGAGTCGATGG
  CAGGGAATAAGCCGGCCAATGCAGTCCTACACAAAGTCCTGAAACAGCTGGAGGAACTGTTGAGTGACAT
  GAAAGCTGATGTGACGCGGCTCCCAGCCACCATTGCCCGCATCCCCCCAGTCGCTGTGAGGTTACAGATG
  TCAGAGCGGAACATTCTCAGCCGCCTGGCAAACAGGGCGCCAGAACCTCCCCCACAGCAGGTAGCCCAGC
  AGCAGTGA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_145979
• Insert Size: 5748 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_145979.2, NP_666091.1
• RefSeq Size: 6438 bp
• RefSeq ORF: 5748 bp
• Locus ID: 107932
• UniProt ID: Q6PDQ2
• Cytogenetics: 6 59.28 cM
• Gene Summary: Component of the histone deacetylase NuRD complex which participates in the remodeling of chromatin by deacetylating histones.[UniProtKB/Swiss-Prot Function]