ATAD2 (NM_014109) Human Untagged Clone

CAT#: SC115155

ATAD2 (untagged)-Human ATPase family, AAA domain containing 2 (ATAD2)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: ATAD2
• Synonyms: ANCCA; CT137; PRO2000
• Vector: pCMV6-XL4
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: None
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_014109, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGTGGTTCTCCGCAGCAGCTTGGAGCTGCACAACCACTCCGCGGCCTCGGCCACGGGCTCCTTGGACC
  TGTCCAGTGACTTCCTCAGTCTGGAGCACATCGGCCGGAGGCGGCTCCGCTCGGCCGGCGCGGCGCAGAA
  GAAACCCGCGGCGACCACAGCCAAAGCGGGCGATGGGTCATCAGTTAAGGAAGTTGAAACCTACCACCGG
  ACACGTGCTTTAAGATCTTTGAGAAAAGATGCACAGAATTCTTCAGATTCTAGTTTTGAGAAGAATGTGG
  AAATAACGGAGCAACTTGCTAATGGCAGGCATTTTACAAGGCAGTTGGCCAGACAGCAGGCTGATAAAAA
  AAAAGAAGAGCACAGAGAAGACAAAGTGATTCCAGTTACTCGGTCATTGAGGGCTAGAAACATCGTTCAA
  AGTACAGAACACTTACATGAAGATAATGGTGATGTTGAAGTGCGTCGAAGTTGTAGGATTAGAAGTCGTT
  ATAGTGGTGTAAACCAGTCCATGCTGTTTGACAAACTTATAACTAACACTGCTGAAGCTGTACTTCAAAA
  AATGGATGACATGAAGAAGATGCGTAGACAGCGAATGAGAGAACTTGAAGACTTGGGAGTGTTTAATGAA
  ACAGAAGAAAGCAATCTTAATATGTACACAAGAGGAAAACAGAAAGATATTCAAAGAACTGATGAAGAAA
  CAACTGATAATCAAGAAGGCAGTGTGGAGTCATCTGAAGAGGGTGAAGACCAAGAACATGAAGATGATGG
  TGAAGATGAAGATGATGAAGATGATGATGATGATGACGATGATGATGATGATGATGATGATGAAGATGAT
  GAAGATGAAGAAGATGGAGAAGAAGAGAATCAGAAGCGATATTATCTTAGACAGAGAAAAGCTACTGTTT
  ACTATCAGGCTCCATTGGAAAAACCTCGTCACCAGAGAAAGCCCAACATATTTTATAGTGGCCCAGCTTC
  TCCTGCAAGACCAAGATACCGATTATCTTCCGCAGGACCAAGAAGTCCTTACTGTAAACGAATGAACAGG
  CGAAGGCATGCAATCCACAGTAGTGACTCGACTTCATCTTCCTCCTCTGAAGATGAACAGCACTTTGAGA
  GGCGGAGGAAAAGGAGTCGTAATAGGGCTATCAATAGGTGCCTCCCACTAAATTTTCGGAAAGATGAATT
  AAAAGGCATTTATAAAGATCGAATGAAAATTGGAGCAAGCCTTGCCGATGTTGATCCAATGCAACTAGAT
  TCTTCAGTACGATTTGATAGTGTTGGTGGCCTGTCTAATCATATAGCAGCTCTAAAAGAGATGGTGGTGT
  TTCCATTACTTTATCCAGAAGTCTTTGAAAAATTTAAAATTCAACCCCCAAGAGGTTGTTTGTTTTATGG
  GCCACCTGGAACTGGAAAGACTCTGGTTGCCAGAGCACTTGCCAATGAGTGCAGTCAAGGGGATAAAAGA
  GTAGCATTTTTCATGAGGAAAGGTGCTGATTGTCTAAGTAAATGGGTAGGAGAATCTGAAAGACAGCTAC
  GATTGCTGTTTGATCAGGCCTATCAGATGCGCCCATCAATTATTTTTTTTGACGAAATTGATGGTCTGGC
  TCCAGTACGGTCAAGCAGGCAAGATCAGATTCACAGTTCTATTGTTTCCACCCTGCTAGCTCTTATGGAT
  GGATTGGACAGCAGAGGGGAAATTGTGGTCATTGGTGCTACGAACAGGCTAGATTCTATAGATCCTGCTT
  TACGAAGGCCTGGTCGCTTTGATAGAGAATTCCTCTTTAGCCTGCCTGATAAAGAGGCTCGAAAAGAGAT
  TCTAAAGATTCACACCAGGGATTGGAATCCCAAACCACTGGACACATTTTTAGAAGAGCTAGCAGAAAAC
  TGTGTTGGATACTGTGGAGCAGATATTAAATCAATATGTGCTGAAGCTGCTTTATGTGCTTTACGACGAC
  GCTACCCACAGATCTATACCACTAGTGAGAAACTGCAGTTGGATCTCTCTTCAATTAATATCTCAGCTAA
  GGATTTCGAGGTAGCTATGCAAAAGATGATACCAGCCTCCCAAAGAGCTGTGACATCACCTGGGCAGGCA
  CTGTCCACCGTTGTGAAACCACTCCTGCAAAACACTGTTGACAAGATTTTAGAAGCCCTGCAGAGAGTAT
  TTCCACATGCAGAATTCAGAACAAATAAAACATTAGACTCAGATATTTCTTGTCCTCTGCTAGAAAGTGA
  CTTGGCTTACAGTGATGATGATGTTCCATCAGTTTATGAAAATGGACTTTCTCAGAAATCTTCTCATAAG
  GCAAAAGACAATTTTAATTTTCTTCATTTGAATAGAAATGCTTGTTACCAACCTATGTCTTTTCGACCAA
  GAATATTGATAGTAGGAGAACCAGGATTTGGGCAAGGTTCTCACTTGGCACCAGCTGTCATTCATGCTTT
  GGAAAAGTTTACTGTATATACATTAGACATTCCTGTTCTTTTTGGAGTTAGTACTACATCCCCTGAAGAA
  ACATGTGCCCAGGTGATTCGTGAAGCTAAGAGAACAGCACCAAGTATAGTGTATGTTCCTCATATCCACG
  TGTGGTGGGAAATAGTTGGACCGACACTTAAAGCCACATTTACCACATTATTACAGAATATTCCTTCATT
  TGCTCCAGTTTTACTACTTGCAACTTCTGACAAACCCCATTCCGCTTTGCCAGAAGAGGTGCAAGAATTG
  TTTATCCGTGATTATGGAGAGATTTTTAATGTCCAGTTACCGGATAAAGAAGAACGGACAAAATTTTTTG
  AAGATTTAATTCTAAAACAAGCTGCTAAGCCTCCTATATCAAAAAAGAAAGCAGTTTTGCAGGCTTTGGA
  GGTACTCCCAGTAGCACCACCACCTGAGCCAAGATCACTGACAGCAGAAGAAGTGAAACGACTAGAAGAA
  CAAGAAGAAGATACATTTAGAGAACTGAGGATTTTCTTAAGAAATGTTACACATAGGCTTGCTATTGACA
  AGCGATTCCGAGTGTTTACTAAGCCTGTTGACCCTGATGAGGTTCCTGATTATGTCACTGTAATAAAGCA
  ACCAATGGACCTTTCATCTGTAATCAGTAAAATTGATCTACACAAGTATCTGACTGTGAAAGACTATTTG
  AGAGATATTGATCTAATCTGTAGTAATGCCTTAGAATACAATCCAGATAGAGATCCTGGAGATCGTCTTA
  TTAGGCATAGAGCCTGTGCTTTAAGAGATACTGCCTATGCCATAATTAAAGAAGAACTTGATGAAGACTT
  TGAGCAGCTCTGTGAAGAAATTCAGGAATCTAGAAAGAAAAGAGGTTGTAGCTCCTCCAAATATGCCCCG
  TCTTACTACCATGTGATGCCAAAGCAAAATTCCACTCTTGTTGGTGATAAAAGATCAGACCCAGAGCAGA
  ATGAAAAGCTAAAGACACCGAGTACTCCTGTGGCTTGCAGCACTCCTGCTCAGTTGAAGAGGAAAATTCG
  CAAAAAGTCAAACTGGTACTTAGGCACCATAAAAAAGCGAAGGAAGATTTCACAGGCAAAGGATGATAGC
  CAGAATGCCATAGATCACAAAATTGAGAGTGATACAGAGGAAACTCAAGACACAAGTGTAGATCATAATG
  AGACCGGAAACACAGGAGAGTCTTCGGTGGAAGAAAATGAAAAACAGCAAAATGCCTCTGAAAGCAAACT
  GGAATTGAGAAATAATTCAAATACTTGTAATATAGAGAATGAGCTTGAAGACTCTAGGAAGACTACAGCA
  TGTACAGAATTGAGAGACAAGATTGCTTGTAATGGAGATGCTTCTAGCTCTCAGATAATACATATTTCTG
  ATGAAAATGAAGGAAAAGAAATGTGTGTTCTGCGAATGACTCGAGCTAGACGTTCCCAGGTAGAACAGCA
  GCAGCTCATCACTGTTGAAAAGGCTTTGGCAATTCTTTCTCAGCCTACACCCTCACTTGTTGTGGATCAT
  GAGCGATTAAAAAATCTTTTGAAGACTGTTGTTAAAAAAAGTCAAAACTACAACATATTTCAGTTGGAAA
  ATTTGTATGCAGTAATCAGCCAATGTATTTATCGGCATCGCAAGGACCATGATAAAACATCACTTATTCA
  GAAAATGGAGCAAGAGGTAGAAAACTTCAGTTGTTCCAGATGA
  
  
  5' Read Nucleotide Sequence

  >OriGene 5' read for NM_014109 unedited
  CAAAATTTGTATACGACTCACTTATAGGGCGGCCGCGAATTCGCACGAGGCTGGATCTCT
  CTCCGGTCGCGCACGCCGAGGCCAGTAGGGAGAGAAGATGGTGGTTCTCCGCAGCAGCTT
  GGAGCTGCACAACCACTCCGCGGCCTCGGCCACGGGCTCCTTGGACCTGTCCAGTGACTT
  CCTCAGTCTGGAGCACATCGGCCGGAGGCGGCTCCGCTCGGCCGGCGCGGCGCAGAAGAA
  ACCCGCGGCGACCACAGCCAAAGCGGGCGATGGGTCATCAGTTAAGGAAGTTGAAACCTA
  CCACCGGACACGTGCTTTAAGATCTTTGAGAAAAGATGCACAGAATTCTTCAGATTCTAG
  TTTTGAGAAGAATGTGGAAATAACGGAGCAACTTGCTAATGGCAGGCATTTTACAAGGCA
  GTTGGCCAGACAGCAGGCTGATAAAAAAAAAGAAGAGCACAGAGAAGACAAAGTGATTCC
  AGTTACTCGGTCATTGAGGGCTAGAAACATCGTTCAAAGTACAGAACACTTACATGAAGA
  TAATGGTGATGTTGAAGTGCGTCGAAGTTGTAGGATTAGAAGTCGTTATAGTGGTGTAAA
  CCAGTCCATGCTGTTTGACAAACTTATAACTAACACTGCTGAAGCTGTACTTCAAAAAAT
  GGATGACATGAAGAAGATGCGTAGACAGCGAATGAGAGAACTTGAAGACTTGGGAGTGTT
  TAATGAAACAGAAGAANAGCATCTTAATATGTACACAAGAGGAAAACAGAAAGATATTCA
  AAGAACTGATGAAGAAACAACTGATAATCAAGAAGGCAGTGNTGGAGTCATCTGAAGAAG
  GGTGAAGACCAANAACATGAAGATGATGGNTGAAGATGAAAATGATGAANATGATGATGA
  TGATGACCATGATGATGATGATGATGATGATGAAAATGATGAAATTGAANAAGATGGGNA
  AAAANAAATCANNAGCGATATATCTTAAACGAGAAAGCTCTGGTACTATCAGC
  
  3' Read Nucleotide Sequence

  >OriGene 3' read for NM_014109 unedited
  TATGGAACCGCGGCCGCAATCTAGGATCGAGTTTTTTTTTTTTTTTTTTTTTTTTTTTTT
  CCAGGATATAAATATATTTAAATGTTCTCAGTGACTGGCATTGCTTTATGCATTACATAA
  GATAGTATGTACTAATTAAGGTATTGAATTCACTGGGTTTTAAAAGGCTTTAAAAAAAAT
  CCAGATAAATCAACAACAAAAATACAGCTCAACTTTGAACTGCATTAAAATCCAAAATCT
  CTCATTTTAGATGACCATTCCTTATTCCCCTCAAAAGGTTTCCAACAGAAGCTATTTCAC
  AAACTGATTATTAAAATGTCTTCTCCCCACTCTCCCCAAAAGCAAGTATGCATGGAAGTG
  CATGCTTTTAACCTTAAAAAATGTATTTTTGGTACCATTAATATAAAATTATAATATTTA
  TATTTATAAAATTGTATATAAAAAGTATCAATAGACTATAACCTAAACAGTTTTAGAAAG
  ATATCAACAGCTTGCAAATATAAAAACCTTGTGCTATTAAAAGGTGTTTAACAAGGTAGT
  TATTAATACATTTGTTGGGTATATAATTACAAAAGTAAACCAAGAAATATTTAAAATCTT
  TATTAACCCAAATTAGAATTATAAAAATGTTTGTCTCAAAAACAATGACTGTGATACNTC
  AGTACAGAATTGTGGTGCAGCCAGAAGTGGTTCAAGAGCCCTCCCGCAAATCATGACTTG
  CACTCTGGCTTTTAAATGAAGACGAAGGGATCTCAAGGCAGATGGAGGAGGGCATTTGAG
  AAAACAAAGATGACCAAAAGATTGGGGGGCACAATGGTTAAGTAAGTTTCTTGTCAGAAC
  ATAAACTATTTTTAGAAAGATAAAATTAAATGCTTAAACAAACAAATTAAGCTGCTATTA
  TCTTAGGTGCCTAAACATATTACCAAAAACTTTTAAGAGTGGCGACTTCACTTTATACAT
  T
  
• Restriction Sites: NotI-NotI
• ACCN: NM_014109
• Insert Size: 5420 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_014109.2, NP_054828.2
• RefSeq Size: 4916 bp
• RefSeq ORF: 4173 bp
• Locus ID: 29028
• UniProt ID: Q6PL18
• Cytogenetics: 8q24.13
• Domains: BROMO, AAA, AAA
• Protein Families: Druggable Genome
• Gene Summary: A large family of ATPases has been described, whose key feature is that they share a conserved region of about 220 amino acids that contains an ATP-binding site. The proteins that belong to this family either contain one or two AAA (ATPases Associated with diverse cellular Activities) domains. AAA family proteins often perform chaperone-like functions that assist in the assembly, operation, or disassembly of protein complexes. The protein encoded by this gene contains two AAA domains, as well as a bromodomain. [provided by RefSeq, Jul 2008]