Talin 2 (TLN2) (NM_015059) Human Untagged Clone

CAT#: SC304216

TLN2 (untagged)-Human talin 2 (TLN2)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: TLN2
• Synonyms: ILWEQ
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_015059, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGTGGCCCTGTCCTTAAAGATTTGTGTGCGCCACTGCAACGTGGTGAAGACCATGCAGTTTGAACCAT
  CTACAGCTGTGTACGATGCGTGTCGAGTCATTCGGGAACGGGTGCCTGAGGCACAAACTGGGCAAGCTTC
  TGACTATGGACTCTTTCTTTCGGATGAAGACCCGAGGAAAGGGATTTGGCTGGAAGCGGGCAGAACACTG
  GATTACTACATGTTGCGGAATGGGGATATTTTGGAATATAAAAAGAAACAGAGACCTCAGAAAATCCGGA
  TGCTGGATGGATCTGTGAAGACAGTGATGGTGGATGATTCCAAGACTGTGGGGGAGCTCCTGGTCACTAT
  TTGTAGCAGAATAGGAATAACAAATTATGAAGAATACTCCTTAATCCAAGAAACTATTGAAGAAAAGAAA
  GAGGAAGGAACGGGCACACTCAAAAAAGACAGGACACTGTTACGAGATGAGAGGAAAATGGAGAAGTTGA
  AGGCCAAGCTGCACACAGATGATGACCTAAATTGGCTGGATCACAGCCGAACATTCAGAGAACAAGGAGT
  AGATGAAAACGAAACGTTGCTGCTTAGACGGAAGTTCTTTTACTCTGATCAGAATGTAGATTCGAGAGAC
  CCCGTGCAGCTGAACTTGCTTTATGTTCAGGCACGGGATGACATCCTGAATGGCTCTCACCCTGTCTCCT
  TCGAGAAAGCTTGTGAGTTTGGTGGATTTCAAGCCCAGATACAATTTGGACCTCATGTGGAACATAAACA
  CAAACCTGGATTTTTAGATCTGAAGGAATTCCTGCCCAAAGAATATATCAAGCAGAGAGGAGCTGAAAAG
  AGGATCTTTCAGGAGCATAAGAACTGCGGAGAGATGAGTGAGATAGAAGCCAAGGTCAAGTACGTCAAAC
  TCGCACGGTCCCTCCGCACATATGGCGTGTCCTTCTTCCTGGTGAAGGAGAAGATGAAAGGCAAGAACAA
  GCTGGTGCCTCGCCTGCTGGGGATCACCAAAGACTCGGTGATGCGCGTGGATGAGAAGACCAAGGAAGTG
  CTGCAGGAGTGGCCCCTCACCACCGTCAAGCGCTGGGCAGCCTCACCCAAGAGCTTCACACTGGATTTTG
  GGGAGTATCAGGAAAGCTACTATTCAGTACAAACCACCGAGGGAGAGCAGATATCCCAGCTGATTGCAGG
  CTACATTGACATCATCCTGAAAAAGAAACAAAGTAAAGATCGATTTGGACTAGAAGGTGATGAGGAGTCA
  ACCATGTTAGAAGAGTCCGTTTCCCCAAAAAAGTCCACCATCTTGCAGCAGCAGTTCAACCGGACCGGGA
  AGGCAGAGCACGGCTCAGTGGCGCTGCCGGCCGTGATGCGCTCGGGCTCCAGCGGGCCTGAGACCTTCAA
  CGTTGGCAGCATGCCCTCGCCACAGCAGCAGGTCATGGTTGGGCAGATGCACCGAGGCCACATGCCGCCA
  CTGACCTCAGCCCAGCAGGCCCTGATGGGGACCATCAACACAAGCATGCACGCCGTCCAGCAGGCCCAGG
  ATGATCTCAGTGAGCTCGACTCGCTGCCACCTCTCGGCCAGGATATGGCATCTAGGGTATGGGTTCAGAA
  CAAAGTCGACGAATCCAAACACGAAATCCATTCTCAAGTTGATGCTATCACGGCCGGAACGGCTTCAGTT
  GTTAACCTCACAGCTGGTGACCCTGCAGACACTGACTACACAGCTGTGGGATGTGCGATCACCACTATTT
  CTTCCAACCTGACGGAGATGTCCAAGGGTGTGAAGCTATTGGCCGCCCTCATGGATGATGAGGTGGGCAG
  CGGGGAGGACTTGCTCAGAGCTGCCAGGACCCTCGCTGGGGCGGTGTCAGACTTGCTGAAAGCTGTGCAG
  CCTACTTCTGGAGAGCCTCGACAGACAGTTTTGACTGCTGCTGGCAGCATCGGACAAGCCAGTGGGGATC
  TTCTGAGACAGATTGGAGAGAATGAGACTGATGAGCGATTCCAGGATGTTTTAATGAGTTTGGCCAAAGC
  TGTTGCCAATGCAGCTGCCATGTTGGTACTAAAGGCAAAGAATGTTGCCCAAGTGGCCGAAGACACTGTC
  CTACAGAACAGGGTAATTGCTGCTGCCACCCAGTGTGCCCTCTCCACCTCCCAGCTTGTGGCATGTGCCA
  AGGTTGTGAGCCCCACTATTAGCTCCCCTGTGTGCCAGGAGCAGCTGATTGAAGCAGGGAAGCTGGTGGA
  CCGCTCGGTGGAGAACTGTGTCCGTGCCTGCCAGGCGGCCACTACCGATAGTGAGCTCCTGAAGCAGGTC
  AGCGCAGCGGCCAGCGTGGTCAGCCAGGCCCTCCATGATCTCCTGCAGCATGTGCGGCAGTTTGCCAGCC
  GAGGCGAGCCCATCGGCCGCTACGACCAGGCTACTGACACCATCATGTGTGTCACCGAGAGCATCTTCAG
  CTCCATGGGTGACGCTGGTGAAATGGTGCGCCAGGCGCGGGTTCTGGCCCAAGCCACATCAGACCTCGTC
  AATGCCATGAGGTCAGATGCAGAAGCCGAAATCGACATGGAGAATTCAAAGAAGCTCCTGGCAGCAGCAA
  AACTCTTAGCTGACTCCACTGCTCGCATGGTGGAAGCTGCAAAGGGGGCTGCAGCCAACCCAGAGAATGA
  GGACCAGCAGCAAAGGCTGAGAGAAGCTGCAGAAGGCCTCCGGGTAGCAACCAACGCAGCTGCCCAGAAT
  GCTATTAAGAAAAAAATTGTCAACCGACTGGAGGTTGCAGCCAAGCAGGCCGCAGCGGCAGCCACACAGA
  CCATCGCCGCCTCCCAGAATGCAGCTGTTTCCAACAAGAACCCTGCGGCCCAGCAGCAGCTGGTCCAGAG
  TTGCAAGGCAGTGGCTGATCACATCCCTCAGCTGGTCCAGGGAGTGAGGGGGAGCCAAGCTCAAGCTGAA
  GACCTGAGTGCCCAGCTGGCTCTCATCATCTCCAGCCAGAACTTCCTCCAGCCTGGAAGCAAGATGGTGT
  CCTCTGCCAAAGCCGCAGTGCCCACCGTGAGTGACCAGGCCGCAGCCATGCAGCTGAGCCAGTGTGCCAA
  GAACCTGGCCACCAGCTTGGCGGAGCTGCGTACCGCCTCGCAGAAGGCCCATGAAGCTTGTGGTCCGATG
  GAAATCGATTCAGCTCTGAATACGGTGCAGACGCTTAAGAATGAACTGCAGGATGCCAAGATGGCAGCCG
  TGGAGAGCCAGCTGAAGCCACTTCCAGGGGAAACGCTGGAAAAATGTGCTCAGGACCTGGGAAGCACATC
  CAAGGCGGTGGGCTCCTCCATGGCACAGCTGCTGACCTGTGCTGCTCAAGGCAACGAACACTACACAGGG
  GTGGCTGCTAGAGAGACGGCCCAAGCTCTGAAAACACTGGCCCAGGCCGCCCGTGGAGTGGCTGCATCGA
  CAACCGACCCCGCGGCCGCCCATGCCATGTTAGATTCTGCTCGAGACGTGATGGAGGGCTCCGCCATGCT
  CATTCAAGAGGCCAAGCAGGCCCTGATTGCACCTGGAGATGCAGAGCGTCAACAAAGACTGGCTCAGGTG
  GCTAAAGCCGTCTCACACTCCTTGAATAACTGCGTAAATTGCCTCCCTGGGCAGAAGGATGTGGACGTGG
  CCTTGAAGAGCATCGGGGAGTCCAGCAAGAAGCTGCTTGTGGATTCGCTACCTCCAAGCACGAAGCCTTT
  CCAGGAAGCCCAGAGTGAACTGAACCAGGCAGCAGCTGATCTGAACCAGTCTGCTGGGGAAGTGGTCCAT
  GCCACCCGGGGCCAGAGTGGAGAGTTGGCTGCAGCCTCTGGAAAGTTCAGTGATGATTTTGATGAATTCC
  TCGATGCTGGCATTGAGATGGCTGGCCAAGCTCAGACAAAAGAAGACCAGATCCAAGTGATAGGGAACCT
  CAAGAATATCTCGATGGCATCCAGCAAGCTGCTGTTAGCTGCCAAGTCTCTCTCTGTAGATCCAGGAGCT
  CCCAATGCGAAAAATCTCCTGGCTGCAGCTGCAAGAGCTGTGACAGAGAGCATCAATCAACTCATCACTC
  TGTGTACCCAACAAGCTCCGGGCCAGAAAGAGTGCGATAATGCCCTGCGGGAGCTCGAGACTGTGAAGGG
  GATGTTGGACAATCCTAATGAACCTGTTAGTGACCTCTCTTACTTTGACTGCATTGAGAGTGTGATGGAA
  AACTCCAAGGTTCTGGGTGAATCGATGGCAGGGATTTCACAGAATGCCAAGACCGGAGACCTCCCTGCCT
  TTGGGGAATGTGTGGGGATTGCATCCAAGGCTCTCTGTGGGCTGACAGAGGCTGCAGCCCAGGCTGCATA
  CTTGGTTGGCATCTCTGATCCAAACAGCCAGGCAGGCCACCAGGGCCTGGTGGACCCCATCCAGTTTGCC
  AGGGCTAACCAGGCCATCCAGATGGCATGCCAGAACTTGGTGGACCCTGGCAGCAGCCCATCACAGGTCC
  TGTCAGCCGCCACAATTGTTGCCAAGCACACGTCAGCCTTGTGCAATGCCTGCCGCATCGCCTCATCCAA
  GACGGCCAACCCAGTAGCCAAGAGGCACTTCGTCCAGTCAGCCAAGGAAGTCGCCAACAGCACTGCCAAC
  CTGGTGAAGACCATCAAGGCCCTGGATGGGGATTTCTCTGAAGACAACCGCAATAAGTGTCGCATCGCCA
  CCGCACCCTTGATTGAAGCTGTGGAGAACCTGACAGCGTTCGCCTCAAACCCTGAGTTTGTCAGCATTCC
  TGCCCAGATCAGCTCCGAGGGTTCCCAGGCACAGGAACCAATCCTGGTCTCAGCCAAGACCATGCTGGAG
  AGTTCATCGTACCTCATTCGCACTGCACGCTCTCTGGCCATCAACCCCAAAGACCCACCCACCTGGTCTG
  TACTGGCTGGACATTCCCATACAGTGTCCGACTCCATCAAGAGTCTCATCACTTCTATCAGGGACAAGGC
  CCCTGGACAGAGGGAGTGTGATTACTCCATCGATGGCATCAACCGGTGCATCCGGGACATCGAGCAGGCC
  TCGCTGGCCGCCGTCAGCCAGAGCCTGGCCACGAGGGACGACATCTCTGTGGAGGCCCTGCAGGAGCAGC
  TGACTTCGGTGGTCCAGGAAATCGGACACCTTATCGATCCCATCGCCACAGCGGCTCGGGGAGAAGCAGC
  TCAGCTGGGACATAAGGTGACACAACTGGCAAGCTATTTTGAGCCCTTGATCTTAGCCGCAGTTGGTGTG
  GCCTCCAAGATTCTTGATCATCAGCAGCAGATGACGGTGCTGGACCAGACCAAGACTCTCGCAGAGTCTG
  CCTTGCAGATGTTGTATGCAGCCAAAGAAGGTGGCGGAAACCCCAAGGCACAACACACCCATGACGCCAT
  CACAGAGGCCGCCCAGTTGATGAAGGAAGCCGTGGATGACATCATGGTGACGCTGAACGAAGCTGCCAGT
  GAAGTGGGGCTGGTTGGGGGCATGGTGGACGCCATTGCAGAAGCCATGAGCAAGCTGGATGAAGGCACTC
  CTCCAGAACCAAAGGGAACATTTGTCGACTATCAGACGACTGTGGTTAAATACTCCAAAGCCATTGCGGT
  GACAGCTCAGGAAATGATGACTAAGTCGGTTACTAACCCGGAGGAGTTGGGAGGACTGGCTTCACAAATG
  ACCAGTGACTATGGGCACCTGGCTTTCCAGGGCCAGATGGCAGCAGCCACGGCGGAACCAGAGGAGATCG
  GATTCCAGATTCGCACTCGTGTGCAGGACCTGGGCCACGGCTGTATCTTCCTGGTGCAGAAGGCAGGGGC
  CCTCCAGGTCTGCCCCACAGACAGCTACACCAAGAGGGAGCTGATCGAATGCGCCCGTGCCGTCACGGAA
  AAGGTCTCCTTGGTGCTCTCGGCTCTCCAGGCCGGGAACAAAGGAACCCAGGCATGCATTACAGCCGCCA
  CCGCTGTGTCTGGGATCATTGCCGACCTGGACACCACCATTATGTTTGCAACAGCGGGGACGCTGAATGC
  AGAGAACAGTGAGACCTTCGCAGACCACAGGGAGAACATTCTCAAGACGGCCAAGGCCTTGGTAGAAGAC
  ACGAAACTACTTGTGTCAGGAGCTGCGTCCACTCCTGACAAGCTGGCCCAGGCGGCCCAGTCCTCAGCAG
  CCACCATCACCCAGCTCGCAGAAGTGGTCAAGCTGGGGGCAGCCAGCCTGGGCTCCGACGACCCCGAGAC
  CCAGGTGGTTTTGATCAATGCCATCAAAGATGTGGCCAAGGCCCTTTCTGATCTCATCAGTGCTACCAAG
  GGAGCTGCCAGCAAGCCAGTGGACGACCCTTCCATGTACCAGCTCAAGGGGGCTGCCAAGGTGATGGTGA
  CCAATGTCACCTCGCTCCTCAAGACTGTAAAGGCAGTGGAGGATGAGGCCACCCGGGGCACCAGGGCGCT
  TGAGGCCACAATTGAATGCATAAAGCAGGAGCTTACGGTGTTCCAGTCAAAAGACGTACCTGAAAAGACA
  TCATCACCTGAAGAATCCATAAGGATGACGAAAGGCATCACCATGGCAACAGCCAAAGCCGTGGCAGCTG
  GGAACTCATGTAGACAGGAGGACGTGATTGCTACTGCCAACCTGAGCCGGAAAGCCGTGTCAGATATGTT
  GACGGCTTGCAAGCAAGCATCCTTCCACCCCGATGTCAGTGACGAGGTGAGAACCAGAGCCTTGCGTTTC
  GGGACGGAGTGCACCCTTGGCTACTTGGACCTCCTGGAGCACGTCTTGGTGATTCTTCAGAAACCAACCC
  CAGAATTCAAGCAGCAGCTGGCCGCTTTCTCCAAGCGAGTCGCCGGCGCTGTGACAGAGCTCATCCAGGC
  GGCGGAAGCCATGAAAGGAACAGAGTGGGTGGATCCAGAAGACCCAACTGTCATTGCAGAAACAGAGTTA
  CTGGGGGCTGCAGCATCCATCGAAGCTGCTGCTAAGAAGTTAGAGCAACTGAAGCCAAGAGCAAAACCAA
  AACAAGCGGATGAGACCCTGGACTTTGAGGAACAGATCTTGGAAGCTGCTAAATCCATTGCTGCTGCCAC
  AAGCGCCCTGGTCAAATCGGCCTCAGCAGCCCAGAGGGAGCTGGTGGCCCAAGGAAAGGTGGGCTCCATC
  CCTGCCAATGCTGCAGACGACGGACAGTGGTCACAGGGGCTGATTTCTGCTGCCCGGATGGTGGCGGCTG
  CGACCAGCAGTCTCTGTGAGGCGGCCAATGCCTCCGTTCAGGGACACGCCAGCGAGGAGAAGCTCATCTC
  ATCTGCCAAGCAGGTCGCCGCTTCCACGGCTCAGCTGCTGGTGGCCTGCAAGGTGAAGGCCGACCAGGAT
  TCAGAGGCCATGAGGCGGCTACAGGCGGCAGGAAATGCTGTGAAAAGAGCCTCAGACAATCTTGTCCGTG
  CAGCCCAGAAGGCAGCTTTTGGCAAAGCTGATGACGACGATGTTGTAGTGAAAACCAAGTTTGTGGGGGG
  CATTGCTCAGATCATCGCCGCCCAGGAAGAAATGCTAAAGAAAGAGCGAGAACTGGAAGAAGCAAGGAAA
  AAACTGGCCCAAATCCGCCAGCAGCAGTATAAGTTTTTACCCACCGAGCTGAGGGAAGATGAGGGCTAA
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_015059
• ORF Size: 7629 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_015059.2, NP_055874.2
• RefSeq Size: 11650
• RefSeq ORF: 7629
• Locus ID: 83660
• Protein Families: Druggable Genome
• Protein Pathways: Focal adhesion
• Gene Summary: This gene encodes a protein related to talin 1, a cytoskeletal protein that plays a significant role in the assembly of actin filaments and in spreading and migration of various cell types, including fibroblasts and osteoclasts. This protein has a different pattern of expression compared to talin 1 but, like talin 1, is thought to associate with unique transmembrane receptors to form novel linkages between extracellular matrices and the actin cytoskeleton. [provided by RefSeq, Jul 2008]