GP210 (NUP210) (NM_024923) Human Untagged Clone

CAT#: SC305194

NUP210 (untagged)-Human nucleoporin 210kDa (NUP210)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: NUP210
• Synonyms: GP210; POM210
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_024923, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGCGGCGCGGGGCCGGGGGCTGCTGCTGCTGACGCTGTCGGTGCTGTTGGCGGCGGGCCCCTCCGCCG
  CTGCGGCCAAGCTCAACATCCCCAAAGTGCTGCTGCCCTTCACGCGGGCCACGCGCGTTAACTTCACGCT
  GGAGGCCTCGGAGGGCTGCTACCGCTGGTTGTCCACCCGGCCGGAGGTGGCCAGCATCGAGCCGCTGGGC
  CTGGACGAGCAGCAGTGCTCCCAGAAGGCAGTGGTGCAGGCCCGCCTGACCCAGCCTGCCCGCCTCACCA
  GCATCATCTTCGCAGAGGACATCACCACAGGCCAGGTCCTGCGCTGTGATGCCATTGTGGACCTCATCCA
  TGACATCCAGATCGTCTCCACCACCCGCGAGCTCTACCTGGAGGACTCCCCCCTGGAGCTGAAGATCCAG
  GCCCTGGACTCCGAAGGGAACACCTTCAGCACTCTGGCTGGACTGGTCTTCGAGTGGACGATTGTGAAGG
  ACTCCGAGGCGGACAGGTTCTCAGACTCCCACAATGCGCTGCGAATCCTCACTTTCTTGGAGTCTACGTA
  CATCCCTCCTTCTTACATCTCAGAGATGGAGAAGGCTGCCAAGCAAGGGGACACCATCCTGGTGTCTGGG
  ATGAAGACCGGGAGCTCCAAGCTCAAGGCTCGCATCCAGGAGGCTGTCTACAAGAATGTACGCCCTGCAG
  AAGTCAGGCTGCTGATTTTGGAAAACATCCTTCTGAACCCGGCCTATGACGTCTACCTGATGGTGGGAAC
  CTCCATTCACTACAAGGTGCAGAAGATCAGGCAAGGGAAAATTACAGAACTCTCCATGCCTTCCGATCAG
  TACGAGTTGCAGCTTCAGAACAGCATCCCGGGCCCCGAAGGAGACCCAGCCCGGCCGGTGGCTGTCTTGG
  CCCAGGACACGTCGATGGTCACTGCACTGCAGCTGGGACAGAGCAGCCTCGTCCTTGGCCACAGGAGTAT
  TCGCATGCAAGGTGCTTCTAGGTTACCCAACAGCACTATCTACGTGGTCGAACCTGGATACCTAGGGTTC
  ACTGTTCACCCTGGTGACAGGTGGGTGCTGGAGACCGGCCGCCTGTATGAAATCACCATCGAAGTTTTTG
  ACAAGTTCAGCAACAAGGTCTATGTATCTGACAACATCCGAATTGAAACTGTGCTTCCTGCTGAGTTCTT
  CGAGGTGCTCTCGTCCTCCCAGAATGGGTCATACCATCGCATCAGGGCACTAAAGAGGGGACAGACGGCC
  ATTGACGCGGCCCTCACCTCTGTGGTGGACCAGGATGGAGGGGTCCACATACTACAGGTGCCTGTGTGGA
  ACCAGCAGGAGGTGGAAATTCACATCCCGATCACCCTGTATCCCAGCATCTTGACATTTCCGTGGCAACC
  AAAGACGGGCGCCTATCAGTACACAATAAGGGCCCACGGTGGCAGTGGGAACTTCAGCTGGTCTTCGTCA
  AGCCACCTGGTTGCCACAGTTACTGTCAAGGGCGTGATGACCACAGGCAGTGACATCGGGTTCAGTGTGA
  TCCAGGCACATGATGTGCAGAACCCACTCCATTTCGGTGAGATGAAGGTGTATGTGATCGAGCCCCACAG
  CATGGAGTTTGCCCCGTGCCAGGTGGAGGCACGTGTGGGCCAGGCCCTGGAGCTGCCCCTGAGGATCAGT
  GGCCTCATGCCCGGCGGGGCCAGTGAGGTGGTCACCTTGAGCGACTGCTCCCACTTTGACTTGGCTGTCG
  AGGTGGAGAACCAGGGTGTGTTCCAGCCACTCCCAGGGAGGCTGCCGCCAGGCTCTGAGCACTGCAGCGG
  CATCCGGGTAAAGGCCGAGGCCCAGGGCTCTACCACGCTTCTTGTGAGCTACAGACACGGCCACGTCCAC
  CTGAGTGCCAAGATCACCATTGCTGCCTACCTGCCCCTCAAGGCTGTGGATCCCTCCTCTGTTGCCTTGG
  TAACCCTGGGCTCCTCAAAGGAGATGCTGTTTGAAGGAGGTCCCAGACCTTGGATCCTCGAGCCGTCCAA
  ATTCTTCCAGAACGTCACCGCTGAGGACACTGACAGCATCGGCCTGGCTCTCTTTGCCCCCCATTCCTCC
  CGGAATTATCAGCAACACTGGATCCTTGTGACCTGTCAGGCCTTGGGTGAGCAGGTCATCGCCCTGTCGG
  TGGGGAACAAGCCCAGCCTCACCAACCCCTTTCCTGCGGTGGAGCCTGCCGTGGTGAAGTTCGTCTGCGC
  CCCACCGTCCAGGCTCACCCTCGCGCCTGTCTACACCAGCCCCCAGCTGGACATGTCCTGTCCGCTGCTG
  CAGCAGAACAAGCAGGTGGTCCCAGTGTCCAGCCACCGCAACCCCCGGCTGGACCTGGCTGCTTACGACC
  AGGAGGGCCGCCGGTTCGACAACTTCAGCTCTCTGAGCATCCAGTGGGAGTCCACCAGGCCAGTGTTGGC
  CAGCATCGAGCCTGAGCTGCCCATGCAGCTGGTGTCCCAGGACGATGAGAGTGGCCAAAAGAAGCTGCAC
  GGTTTGCAGGCCATTTTGGTTCACGAGGCATCAGGAACCACAGCCATCACTGCCACTGCCACTGGCTACC
  AGGAGTCCCACCTCAGCTCTGCCAGAACAAAGCAGCCGCATGACCCTCTGGTGCCTCTGTCGGCCTCCAT
  AGAGCTCATCCTGGTGGAGGACGTGAGGGTGAGCCCAGAAGAGGTGACCATCTACAACCACCCTGGCATC
  CAGGCAGAGCTCCGCATCAGGGAAGGCTCAGGTTACTTCTTCCTCAACACCAGCACCGCAGATGTTGTCA
  AGGTGGCCTACCAGGAGGCCAGGGGTGTCGCCATGGTGCACCCTTTGCTCCCGGGCTCATCCACCATCAT
  GATCCATGACTTGTGCCTCGTCTTCCCGGCCCCAGCCAAGGCTGTCGTTTACGTGTCGGACATTCAGGAG
  CTGTACATCCGTGTGGTTGACAAGGTGGAGATTGGGAAGACAGTGAAGGCATACGTCCGCGTGCTGGACT
  TGCACAAGAAGCCCTTCCTTGCCAAATACTTCCCCTTTATGGACCTGAAGCTCCGAGCAGCCTCCCCGAT
  CATTACATTGGTGGCCCTTGATGAAGCCCTTGACAACTACACCATCACATTCCTCATCCGCGGTGTGGCC
  ATCGGCCAGACCAGTCTAACTGCAAGTGTGACCAATAAAGCTGGACAGAGAATCAACTCAGCCCCACAAC
  AGATTGAAGTCTTTCCCCCGTTCAGGCTGATGCCCAGGAAGGTGACACTGCTTATCGGGGCCACGATGCA
  GGTCACCTCCGAGGGCGGCCCCCAGCCTCAGTCCAACATCCTTTTCTCCATCAGCAATGAGAGCGTTGCG
  CTGGTGAGCGCTGCTGGGCTGGTACAGGGCCTCGCCATCGGGAACGGCACTGTGTCTGGGCTCGTGCAGG
  CAGTGGATGCAGAGACCGGCAAGGTGGTCATCATCTCTCAGGACCTCGTGCAGGTGGAGGTGCTGCTGCT
  AAGGGCCGTGAGGATCCGCGCCCCCATCATGCGGATGAGGACGGGCACCCAGATGCCCATCTATGTCACC
  GGCATCACCAACCACCAGAACCCTTTCTCCTTTGGCAATGCCGTGCCAGGCCTGACCTTCCACTGGTCTG
  TCACCAAGCGGGACGTCCTGGACCTCCGAGGGCGGCACCACGAGGCGTCGATCCGACTCCCGTCACAGTA
  CAACTTTGCCATGAACGTGCTCGGCCGGGTAAAAGGCCGGACCGGGCTGAGGGTGGTGGTCAAGGCTGTG
  GACCCCACATCGGGGCAGCTGTATGGCCTGGCCAGAGAACTCTCGGATGAGATCCAAGTCCAGGTGTTTG
  AGAAGCTGCAGCTGCTCAACCCTGAAATAGAAGCAGAACAAATATTAATGTCGCCCAACTCATATATAAA
  GCTGCAGACAAACAGGGATGGTGCAGCCTCTCTGAGCTACCGCGTCCTGGATGGACCCGAAAAGGTTCCA
  GTTGTGCATGTTGATGAGAAAGGCTTTCTAGCATCAGGGTCTATGATCGGGACATCCACCATCGAAGTGA
  TTGCACAAGAGCCCTTTGGGGCCAACCAAACCATCATTGTTGCTGTAAAGGTATCCCCTGTTTCCTACCT
  GAGGGTTTCCATGAGCCCTGTCCTGCACACCCAGAACAAGGAGGCCCTGGTGGCCGTGCCTTTGGGAATG
  ACCGTGACCTTCACTGTCCACTTCCACGACAACTCTGGAGATGTCTTCCATGCTCACAGTTCGGTCCTCA
  ACTTTGCCACTAACAGAGACGACTTTGTGCAGATCGGGAAGGGCCCCACCAACAACACCTGCGTTGTCCG
  CACAGTCAGCGTGGGCCTGACACTGCTCCGTGTGTGGGACGCAGAGCACCCGGGCCTCTCGGACTTCATG
  CCCCTGCCTGTCCTACAGGCCATCTCCCCAGAGCTGTCTGGGGCCATGGTGGTGGGGGACGTGCTCTGTC
  TGGCCACTGTTCTGACCAGCCTGGAAGGCCTCTCAGGAACCTGGAGCTCCTCGGCCAACAGCATCCTCCA
  CATCGACCCCAAGACGGGTGTGGCTGTGGCCCGGGCCGTGGGATCCGTGACGGTTTACTATGAGGTCGCT
  GGGCACCTGAGGACCTACAAGGAGGTGGTGGTCAGCGTCCCTCAGAGGATCATGGCCCGTCACCTCCACC
  CCATCCAGACCAGCTTCCAGGAGGCTACAGCCTCCAAAGTGATTGTTGCCGTGGGAGACAGAAGCTCTAA
  CCTGAGAGGCGAGTGCACCCCCACCCAGAGGGAAGTCATCCAGGCCTTGCACCCAGAGACCCTCATCAGC
  TGCCAGTCCCAGTTCAAGCCGGCCGTCTTTGATTTCCCATCTCAAGATGTGTTCACCGTGGAGCCACAGT
  TTGACACTGCTCTCGGCCAGTACTTCTGCTCAATCACAATGCACAGGCTGACGGACAAGCAGCGGAAGCA
  CCTGAGCATGAAGAAGACAGCTCTGGTGGTCAGTGCCTCCCTCTCCAGCAGCCACTTCTCCACAGAGCAG
  GTGGGGGCCGAGGTGCCCTTCAGCCCAGGTCTCTTCGCCGACCAGGCTGAAATCCTTTTGAGCAACCACT
  ACACCAGTTCCGAGATCAGGGTCTTTGGTGCCCCGGAGGTTCTGGAGAACTTGGAGGTGAAATCCGGGTC
  CCCGGCCGTGCTGGCATTCGCAAAGGAGAAGTCTTTTGGGTGGCCCAGCTTCATCACATACACGGTCGGC
  GTCTTGGACCCCGCGGCTGGCAGCCAAGGGCCTCTGTCCACTACCCTGACCTTCTCCAGCCCCGTGACCA
  ACCAAGCCATTGCCATCCCAGTGACAGTGGCTTTTGTGGTGGATCGCCGTGGGCCCGGTCCTTATGGAGC
  CAGCCTCTTCCAGCACTTCCTGGATTCCTACCAGGTCATGTTCTTCACGCTCTTCGCCCTGTTGGCTGGG
  ACAGCGGTCATGATCATAGCCTACCACACTGTCTGCACGCCCCGGGATCTTGCTGTGCCTGCAGCCCTCA
  CGCCTCGAGCCAGCCCTGGACACAGCCCCCACTATTTCGCTGCCTCATCACCCACATCTCCCAATGCATT
  GCCTCCTGCTCGCAAAGCCAGCCCTCCCTCAGGGCTGTGGAGCCCAGCCTATGCCTCCCACTAG
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_024923
• ORF Size: 5664 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_024923.3, NP_079199.2
• RefSeq Size: 7218
• RefSeq ORF: 5664
• Locus ID: 23225
• Protein Families: Transmembrane
• Gene Summary: The nuclear pore complex is a massive structure that extends across the nuclear envelope, forming a gateway that regulates the flow of macromolecules between the nucleus and the cytoplasm. Nucleoporins are the main components of the nuclear pore complex in eukaryotic cells. The protein encoded by this gene is a membrane-spanning glycoprotein that is a major component of the nuclear pore complex. Multiple pseudogenes related to this gene are located on chromosome 3. [provided by RefSeq, Jul 2013]