ANKRD17 (NM_001286771) Human Untagged Clone

CAT#: SC338145

ANKRD17 (untagged) - Human ankyrin repeat domain 17 (ANKRD17), transcript variant 3

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: ANKRD17
• Synonyms: GTAR; MASK2; NY-BR-16
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_001286771, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGTGGAGACAGCGGCTGAAATGGAAGCATATGTTCTAGAAGACATTCTTGAGGTGGAGTCTTTCATTT
  TGGATCAGGATGATTTGGAAAATCCAATGCTGGAAACAGCTTCCAAGTTGCTCTTATCAGGTACTGCTGA
  TGGTGCAGACCTCAGGACAGTAGATCCAGAAACACAGGCTAGACTGGAAGCTTTACTAGAAGCTGCAGGA
  ATAGGAAAATTGTCCACGGCTGATGGTAAAGCCTTTGCAGATCCTGAAGTACTTCGGAGGTTGACATCGT
  CTGTTAGTTGTGCGTTGGATGAAGCTGCTGCTGCACTTACCCGTATGAGAGCTGAAAGCACAGCAAATGC
  AGGGCAGTCGGACAACCGCAGTTTGGCAGAAGCCTGTTCAGAAGGAGATGTAAATGCTGTGCGAAAGTTA
  CTCATTGAAGGGCGAAGTGTAAATGAACACACAGAGGAAGGGGAGAGCCTCCTTTGTTTAGCTTGTTCTG
  CTGGATACTATGAGCTTGCACAGGTTTTGTTGGCAATGCATGCAAATGTGGAAGATAGGGGAATCAAAGG
  TGACATTACACCTTTAATGGCTGCTGCTAATGGAGGACATGTCAAAATTGTGAAGTTGCTGCTAGCTCAT
  AAAGCAGATGTTAATGCACAGTCTTCAACAGGCAATACAGCACTTACATATGCTTGTGCTGGAGGCTATG
  TAGATGTTGTAAAGGTGCTCTTGGAATCCGGTGCTAGTATTGAGGACCATAATGAAAATGGTCATACCCC
  TCTTATGGAAGCTGGAAGTGCTGGACATGTGGAAGTAGCCAGATTGCTGCTAGAAAATGGGGCTGGCATT
  AATACGCATTCTAATGAATTTAAAGAGAGTGCCCTTACCTTAGCTTGTTACAAAGGACACTTAGAGATGG
  TGCGATTTCTTTTGGAAGCAGGCGCGGATCAAGAGCATAAAACAGATGAAATGCACACTGCTCTGATGGA
  GGCTTGCATGGATGGCCATGTTGAAGTAGCTAGGTTACTTCTTGACAGCGGTGCCCAAGTGAACATGCCT
  GCTGATTCATTTGAGTCACCATTAACTTTGGCTGCATGTGGTGGGCATGTGGAACTTGCGGCTTTACTTA
  TTGAAAGAGGAGCTAGCCTGGAAGAGGTCAATGATGAAGGTTATACACCATTGATGGAAGCAGCTCGAGA
  AGGACATGAAGAAATGGTGGCATTACTTCTTGGTCAAGGAGCAAATATCAATGCACAGACAGAAGAAACT
  CAAGAAACTGCCTTGACTCTGGCTTGCTGTGGAGGCTTTCTGGAAGTGGCAGACTTTCTAATTAAGGCAG
  GAGCCGATATAGAACTAGGGTGTTCTACCCCTTTAATGGAAGCTGCTCAAGAGGGTCATTTGGAGTTAGT
  TAAATACTTATTAGCTGCAGGAGCTAACGTTCATGCAACAACAGCAACAGGGGATACAGCACTAACATAT
  GCCTGTGAAAATGGTCATACTGATGTAGCAGATGTCTTACTTCAGGCAGGCGCAGATCTGGAACATGAAT
  CTGAAGGTGGAAGAACTCCTTTAATGAAAGCTGCAAGAGCTGGTCATGTTTGTACTGTTCAGTTCTTAAT
  TAGTAAAGGAGCGAATGTGAATAGAACCACAGCTAATAATGACCATACTGTACTGTCCCTGGCTTGTGCA
  GGGGGTCATCTGGCAGTGGTGGAACTACTTTTGGCTCATGGGGCAGATCCTACTCACCGTTTGAAAGATG
  GCTCAACTATGTTGATAGAAGCAGCAAAAGGTGGCCATACAAGTGTTGTTTGCTATCTCTTGGATTATCC
  TAATAACTTGCTTTCAGCCCCTCCACCAGATGTCACTCAGTTAACTCCCCCATCCCACGATTTAAATAGG
  GCTCCTCGTGTACCAGTTCAAGCACTGCCCATGGTTGTTCCACCTCAGGAGCCTGACAAACCACCTGCCA
  ATGTTGCCACCACTCTTCCCATCAGGAATAAAGCTGCTTCTAAACAAAAGTCCAGCAGCCATTTGCCAGC
  AAACAGCCAGGATGTACAGGGTTACATCACCAATCAGTCTCCAGAGAGCATTGTAGAAGAGGCTCAGGGA
  AAGTTAACAGAACTGGAACAGAGGATAAAAGAAGCCATAGAAAAGAATGCACAGCTGCAGTCCTTGGAAC
  TGGCTCATGCTGACCAACTTACCAAGGAGAAGATCGAGGAGCTCAACAAAACAAGGGAGGAACAAATTCA
  GAAGAAACAAAAGATTTTGGAGGAACTACAGAAAGTAGAACGAGAGTTACAACTGAAAACTCAGCAGCAG
  CTAAAAAAGCAGTATCTAGAGGTTAAAGCTCAAAGAATTCAACTTCAGCAACAGCAGCAACAGTCTTGCC
  AACACCTGGGATTACTAACTCCTGTTGGAGTTGGAGAGCAGCTTTCTGAGGGAGACTATGCACGGTTACA
  GCAAGTGGATCCTGTTTTACTTAAAGATGAACCCCAGCAGACTGCTGCTCAGATGGGTTTTGCGCCAATC
  CAGCCTCTGGCGATGCCTCAAGCTTTGCCTCTGGCGGCAGGTCCCTTGCCTCCAGGGTCCATCGCAAATC
  TTACAGAACTGCAAGGAGTGATAGTTGGACAGCCAGTACTGGGCCAAGCACAGTTGGCAGGGCTGGGGCA
  AGGAATTCTGACAGAAACACAACAAGGGTTAATGGTAGCCAGCCCTGCTCAGACCCTCAATGACACGCTG
  GATGACATCATGGCAGCAGTCAGTGGAAGAGCATCTGCAATGTCAAACACTCCTACCCACAGTATTGCTG
  CATCCATTTCCCAACCTCAGACTCCAACTCCAAGTCCTATCATCTCTCCTTCAGCCATGCTTCCTATCTA
  CCCTGCCATTGATATTGATGCACAGACTGAGAGTAATCATGACACGGCGCTAACACTTGCCTGTGCTGGT
  GGCCACGAGGAACTGGTACAAACACTGCTAGAGAGAGGAGCTAGTATAGAGCACCGAGACAAGAAAGGTT
  TTACTCCACTCATCTTGGCTGCCACAGCTGGTCATGTTGGTGTTGTGGAAATATTGCTGGACAATGGTGC
  AGACATTGAAGCCCAGTCTGAAAGAACCAAGGACACACCACTCTCCTTGGCTTGTTCTGGGGGAAGACAG
  GAGGTGGTGGAGCTATTGTTAGCTCGAGGGGCAAATAAAGAGCACAGGAATGTTTCTGATTACACACCTC
  TAAGTCTGGCTGCTTCTGGTGGCTATGTGAACATCATCAAAATATTACTAAATGCAGGAGCTGAGATTAA
  CTCTAGAACTGGTAGCAAATTGGGCATCTCTCCTCTGATGTTAGCAGCTATGAATGGGCATACAGCTGCT
  GTTAAGCTCCTGTTAGACATGGGCTCTGACATAAATGCTCAGATAGAAACCAATCGGAACACTGCCCTTA
  CTTTAGCCTGCTTCCAAGGAAGAACTGAAGTGGTTAGTCTTCTGCTTGATAGAAAAGCAAATGTTGAACA
  CAGAGCTAAGACTGGTCTCACACCACTAATGGAAGCTGCCTCTGGTGGATATGCGGAGGTGGGCCGAGTT
  CTTTTGGATAAAGGTGCTGATGTTAATGCCCCTCCAGTTCCCTCCTCAAGAGATACAGCTTTAACCATAG
  CAGCAGATAAAGGGCATTACAAATTCTGTGAGCTTCTTATTGGCAGGGGAGCTCATATTGATGTACGTAA
  CAAGAAGGGGAACACTCCATTGTGGCTAGCAGCAAATGGTGGACACCTCGATGTGGTTCAGTTACTGGTG
  CAAGCAGGTGCAGATGTGGATGCAGCAGATAACCGCAAGATAACTCCTCTTATGGCAGCATTTAGAAAGG
  GTCATGTGAAGGTGGTGCGCTACTTAGTCAAAGAAGTCAATCAGTTTCCATCAGATTCTGAATGTATGAG
  ATACATAGCAACCATCACTGATAAGGAGATGCTGAAGAAGTGTCATCTTTGTATGGAGTCAATAGTACAA
  GCCAAAGATAGACAGGCTGCTGAAGCAAACAAAAACGCCAGCATTTTGTTAGAGGAGTTAGACTTGGAAA
  AGTTAAGGGAAGAAAGTCGGAGGCTGGCTTTGGCTGCGAAAAGAGAAAAAAGAAAAGAGAAGAGAAGGAA
  GAAAAAGGAAGAACAAAGAAGGAAACTAGAAGAAATTGAAGCCAAAAATAAAGAGAACTTTGAACTCCAA
  GCTGCTCAAGAAAAAGAAAAGCTTAAAGTTGAAGATGAGCCTGAAGTCTTGACAGAACCTCCAAGTGCCA
  CAACCACTACTACCATAGGTATATCTGCAACCTGGACAACTTTGGCAGGTTCTCATGGTAAAAGAAATAA
  TACCATAACTACAACCAGTTCAAAGAGGAAAAACAGGAAAAATAAAATTACTCCAGAAAACGTTCAAATT
  ATATTTGATGATCCACTACCAATTTCATACAGTCAGCCAGAGAAGGTGAATGGAGAGTCCAAGAGCAGCA
  GTACCAGCGAGAGTGGGGACAGTGATAACATGAGGATTTCCAGCTGCAGCGATGAAAGTAGTAACAGCAA
  CAGCAGTCGTAAGAGTGACAATCATTCACCAGCTGTGGTCACTACCACTGTGAGCAGCAAAAAGCAGCCA
  TCAGTTCTTGTTACATTTCCAAAGGAAGAGAGAAAATCTGTTTCTGGCAAGGCTTCAATAAAATTGTCAG
  AAACTATCAGTGAAGGGACCAGTAATTCTCTATCTACTTGTACAAAATCTGGTCCATCTCCCCTTTCTTC
  TCCAAATGGGAAGTTAACAGTAGCAAGTCCTAAGCGTGGGCAAAAGAGGGAAGAAGGATGGAAAGAAGTT
  GTAAGAAGGTCAAAGAAAGTATCTGTTCCATCAACTGTGATATCCAGAGTGATTGGAAGAGGAGGCTGTA
  ATATCAATGCTATTCGGGAGTTTACTGGTGCACACATAGATATTGATAAACAGAAAGACAAGACTGGAGA
  CCGGATAATCACTATAAGGGGTGGCACTGAATCAACAAGACAAGCAACTCAATTGATTAATGCTTTGATC
  AAGGATCCAGACAAAGAAATTGATGAACTTATTCCAAAGAATCGTTTGAAAAGCTCCTCAGCAAATTCCA
  AAATAGGGTCATCAGCACCTACCACCACTGCTGCTAACACTTCCTTAATGGGAATTAAAATGACAACTGT
  AGCTCTGTCATCAACATCTCAAACTGCCACAGCACTCACTGTGCCTGCAATTTCTTCTGCATCCACTCAC
  AAAACCATTAAGAACCCAGTGAATAATGTGAGGCCTGGTTTTCCAGTTTCTCTTCCATTAGCATATCCTC
  CTCCACAGTTTGCACATGCTTTGCTTGCTGCTCAGACTTTCCAGCAGATCCGTCCACCAAGGTTGCCCAT
  GACCCACTTTGGAGGTACTTTTCCACCAGCTCAATCCACTTGGGGTCCGTTTCCTGTCAGGCCTTTGAGC
  CCTGCCAGAGCTACTAACTCGCCTAAGCCTCACATGGTGCCTCGCCATAGCAATCAGAATAGCAGTGGTT
  CTCAGGTGAATTCAGCAGGTTCTTTAACTTCAAGCCCAACAACTACAACCAGTTCATCAGCTTCAACGGT
  GCCTGGTACATCTACAAATGGCAGTCCAAGTTCACCTTCTGTCCGAAGGCAGCTTTTTGTCACAGTTGTG
  AAGACATCCAATGCCACCACAACAACAGTCACAACCACGGCAAGCAACAACAACACTGCACCCACAAATG
  CCACATATCCTATGCCTACTGCCAAAGAACACTATCCAGTATCATCCCCATCTTCCCCATCACCACCAGC
  CCAGCCAGGAGGGGTTTCTAGAAACAGCCCTTTGGATTGTGGATCAGCATCTCCAAATAAAGTGGCATCT
  TCCTCCGAACAGGAAGCAGGTAGTCCACCAGTAGTAGAAACAACAAACACTAGACCTCCAAACAGCAGCA
  GTTCTTCTGGGAGTTCATCAGCTCATTCTAATCAGCAACAACCTCCGGGATCTGTTTCTCAGGAACCAAG
  ACCACCTCTTCAGCAGTCTCAGGTTCCTCCCCCGGAAGTTAGAATGACTGTTCCTCCTTTAGCAACAAGT
  TCTGCTCCAGTGGCGGTGCCTTCTACTGCCCCAGTGACTTACCCTATGCCTCAGACACCAATGGGATGCC
  CCCAGCCTACTCCTAAAATGGAAACCCCTGCTATTAGACCACCCCCTCATGGCACAACTGCCCCTCACAA
  GAATTCAGCTTCAGTGCAAAATTCATCTGTTGCAGTCCTCAGTGTCAATCACATTAAAAGACCTCACAGT
  GTTCCCTCTTCTGTCCAGCTACCTTCGACCTTAAGTACACAAAGTGCTTGTCAGAATTCAGTACATCCAG
  CAAATAAGCCTATTGCTCCCAATTTCAGTGCCCCCTTACCATTTGGGCCCTTTAGCACATTGTTTGAAAA
  CAGCCCTACTTCTGCTCATGCCTTCTGGGGAGGATCTGTTGTTTCATCTCAGTCAACACCAGAATCTATG
  CTATCAGGAAAATCCTCATATTTGCCAAATTCAGATCCTTTACATCAGTCTGATACTTCCAAAGCTCCAG
  GTTTTAGACCACCATTACAGAGACCTGCTCCAAGTCCCTCAGGTATTGTCAATATGGACTCGCCATATGG
  TTCTGTAACACCTTCTTCAACACATTTGGGAAACTTTGCTTCAAACATTTCAGGAGGTCAGATGTACGGA
  CCTGGGGCACCCCTTGGAGGAGCACCCGCAGCTGCTAACTTTAACAGACAACATTTTTCCCCGCTTAGTT
  TGTTGACTCCGTGTTCATCAGCATCAAATGATTCTTCTGCACAGTCAGTATCCTCGGGAGTTCGTGCACC
  ATCTCCTGCCCCATCATCAGTACCGTTAGGGTCAGAAAAGCCCAGCAATGTGTCTCAGGACAGGAAAGTT
  CCAGTCCCTATTGGGACTGAACGTTCTGCACGTATCAGGCAAACTGGAACGTCAGCTCCATCTGTTATTG
  GGAGCAATTTGTCTACATCAGTAGGACATAGTGGCATCTGGTCCTTTGAAGGGATTGGTGGCAATCAAGA
  CAAAGTAGACTGGTGTAACCCTGGGATGGGAAATCCTATGATCCACAGACCGATGTCTGACCCAGGAGTA
  TTTTCACAACATCAAGCAATGGAGCGAGATAGTACAGGAATTGTAACTCCTTCTGGTACATTCCATCAGC
  ATGTTCCTGCAGGCTACATGGACTTTCCTAAAGTTGGGGGTATGCCTTTTTCTGTGTATGGGAATGCAAT
  GATTCCTCCAGTAGCACCTATCCCTGATGGTGCTGGAGGACCCATATTTAATGGCCCTCATGCTGCAGAC
  CCTTCTTGGAACTCACTGATAAAGATGGTTTCCAGCTCCACGGAAAATAATGGCCCTCAAACGGTGTGGA
  CTGGACCCTGGGCACCTCACATGAACAGTGTGCATATGAACCAGCTTGGCTGA
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_001286771
• ORF Size: 7473 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).

Reference Data

• RefSeq: NM_001286771.2, NP_001273700.1
• RefSeq Size: 9830
• RefSeq ORF: 7473
• Locus ID: 26057
• Gene Summary: The protein encoded by this gene belongs to the family of ankyrin repeat-containing proteins, and contains two distinct arrays of ankyrin repeats in its amino-terminal region, one with 15 ankyrin repeats, and the other with 10 ankyrin repeats. It also contains a nuclear export signal, nuclear localization signal, and a cyclin-binding RXL motif. Localization of this protein to the nucleus has been shown experimentally, and interactions between this protein and cyclin-dependent kinase 2 have been observed. It has been suggested that this protein plays a role in both DNA replication and in both anti-viral and anti-bacterial innate immune pathways. Alternative splicing results in multiple transcript variants encoding different isoforms. [provided by RefSeq, Dec 2015]
  Transcript Variant: This variant (3) differs in its 5' UTR, lacks a portion of the 5' coding region, and initiates translation at an alternate start codon, compared to variant a. The encoded isoform (c) has a distinct N-terminus and is shorter than isoform a.