Laminin alpha 5 (LAMA5) (NM_005560) Human Untagged Clone

CAT#: SC303667

LAMA5 (untagged)-Human laminin, alpha 5 (LAMA5)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: LAMA5
• Synonyms: KIAA1907
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_005560, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGGCGAAGCGGCTCTGCGCGGGGAGCGCACTGTGTGTTCGCGGCCCCCGGGGCCCCGCGCCGCTGCTGC
  TGGTCGGGCTGGCGCTGCTGGGCGCGGCGCGGGCGCGGGAGGAGGCGGGCGGCGGCTTCAGCCTGCACCC
  GCCCTACTTCAACCTGGCCGAGGGCGCCCGCATCGCCGCCTCCGCGACCTGCGGAGAGGAGGCCCCGGCG
  CGCGGCTCCCCGCGCCCCACCGAGGACCTTTACTGCAAGCTGGTAGGGGGCCCCGTGGCCGGCGGCGACC
  CCAACCAGACCATCCGGGGCCAGTACTGTGACATCTGCACGGCTGCCAACAGCAACAAGGCACACCCCGC
  GAGCAATGCCATCGATGGCACGGAGCGCTGGTGGCAGAGTCCACCGCTGTCCCGCGGCCTGGAGTACAAC
  GAGGTCAACGTCACCCTGGACCTGGGCCAGGTCTTCCACGTGGCCTACGTCCTCATCAAGTTTGCCAACT
  CACCCCGGCCGGACCTCTGGGTGCTGGAGCGGTCCATGGACTTCGGCCGCACCTACCAGCCCTGGCAGTT
  CTTTGCCTCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACACGGGAC
  GACGCGGCCATCTGCACCACCGAGTACTCACGCATCGTGCCCCTGGAGAACGGAGAGATCGTGGTGTCCC
  TGGTGAACGGACGTCCGGGCGCCATGAATTTCTCCTACTCGCCGCTGCTACGTGAGTTCACCAAGGCCAC
  CAACGTCCGCCTGCGCTTCCTGCGTACCAACACGCTGCTGGGCCATCTCATGGGGAAGGCGCTGCGGGAC
  CCCACGGTCACCCGCCGGTATTATTACAGCATCAAGGATATCAGCATCGGAGGCCGCTGTGTCTGCCACG
  GCCACGCGGATGCCTGCGATGCCAAAGACCCCACGGACCCGTTCAGGCTGCAGTGCACCTGCCAGCACAA
  CACCTGCGGGGGCACCTGCGACCGCTGCTGCCCCGGCTTCAATCAGCAGCCGTGGAAGCCTGCGACTGCC
  AACAGTGCCAACGAGTGCCAGTCCTGTAACTGCTACGGCCATGCCACCGACTGTTACTACGACCCTGAGG
  TGGACCGGCGCCGCGCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGGGTGTCTGTATCGACTGCCA
  GCACCACACCACCGGCGTCAACTGTGAGCGCTGCCTGCCCGGCTTCTACCGCTCTCCCAACCACCCTCTC
  GACTCGCCCCACGTCTGCCGCCGCTGCAACTGCGAGTCCGACTTCACGGATGGCACCTGCGAGGACCTGA
  CGGGTCGATGCTACTGCCGGCCCAACTTCTCTGGGGAGCGGTGTGACGTGTGTGCCGAGGGCTTCACGGG
  CTTCCCAAGCTGCTACCCGACGCCCTCGTCCTCCAATGACACCAGGGAGCAGGTGCTGCCAGCCGGCCAG
  ATTGTGAATTGTGACTGCAGCGCGGCAGGGACCCAGGGCAACGCCTGCCGGAAGGACCCAAGGGTGGGAC
  GCTGTCTGTGCAAACCCAACTTCCAAGGCACCCATTGTGAGCTCTGCGCGCCAGGGTTCTACGGCCCCGG
  CTGCCAGCCCTGCCAGTGTTCCAGCCCTGGAGTGGCCGATGACCGCTGTGACCCTGACACAGGCCAGTGC
  AGGTGCCGAGTGGGCTTCGAGGGGGCCACATGTGATCGCTGTGCCCCCGGCTACTTTCACTTCCCTCTCT
  GCCAGTTGTGTGGCTGCAGCCCTGCAGGAACCTTGCCCGAGGGCTGCGATGAGGCCGGCCGCTGCCTATG
  CCAGCCTGAGTTTGCTGGACCTCATTGTGACCGGTGCCGCCCTGGCTACCATGGTTTCCCCAACTGCCAA
  GCATGCACCTGCGACCCTCGGGGAGCCCTGGACCAGCTCTGTGGGGCGGGAGGTTTGTGCCGCTGCCGCC
  CCGGCTACACAGGCACTGCCTGCCAGGAATGCAGCCCCGGCTTTCACGGCTTCCCCAGCTGTGTCCCCTG
  CCACTGCTCTGCTGAAGGCTCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCC
  CGTGTGACGGGGCTGCGGTGTGACACATGTGTGCCCGGTGCCTACAACTTCCCCTACTGCGAAGCTGGCT
  CTTGCCACCCTGCCGGTCTGGCCCCAGTGGATCCTGCCCTTCCTGAGGCACAGGTTCCCTGTATGTGCCG
  GGCTCACGTGGAGGGGCCGAGCTGTGACCGCTGCAAACCTGGGTTCTGGGGACTGAGCCCCAGCAACCCC
  GAGGGCTGTACCCGCTGCAGCTGCGACCTCAGGGGCACACTGGGTGGAGTTGCTGAGTGCCAGCCGGGCA
  CCGGCCAGTGCTTCTGCAAGCCCCACGTGTGCGGCCAGGCCTGCGCGTCCTGCAAGGATGGCTTCTTTGG
  ACTGGATCAGGCTGACTATTTTGGCTGCCGCAGCTGCCGGTGTGACATTGGCGGTGCACTGGGCCAGAGC
  TGTGAACCGAGGACGGGCGTCTGCCGGTGCCGCCCCAACACCCAGGGCCCCACCTGCAGCGAGCCTGCGA
  GGGACCACTACCTCCCGGACCTGCACCACCTGCGCCTGGAGCTGGAGGAGGCTGCCACACCTGAGGGTCA
  CGCCGTGCGCTTTGGCTTCAACCCCCTCGAGTTCGAGAACTTCAGCTGGAGGGGCTACGCGCAGATGGCA
  CCTGTCCAGCCCAGGATCGTGGCCAGGCTGAACCTGACCTCCCCTGACCTTTTCTGGCTCGTCTTCCGAT
  ACGTCAACCGGGGGGCCATGAGTGTGAGCGGGCGGGTCTCTGTGCGAGAGGAGGGCAGGTCGGCCACCTG
  CGCCAACTGCACAGCACAGAGTCAGCCCGTGGCCTTCCCACCCAGCACGGAGCCTGCCTTCATCACCGTG
  CCCCAGAGGGGCTTCGGAGAGCCCTTTGTGCTGAACCCTGGCACCTGGGCCCTGCGTGTGGAGGCCGAAG
  GGGTGCTCCTGGACTACGTGGTTCTGCTGCCTAGCGCATACTACGAGGCGGCGCTCCTGCAGCTGCGGGT
  GACTGAGGCCTGCACATACCGTCCCTCTGCCCAGCAGTCTGGCGACAACTGCCTCCTCTACACACACCTC
  CCCCTGGATGGCTTCCCCTCGGCCGCCGGGCTGGAGGCCCTGTGTCGCCAGGACAACAGCCTGCCCCGGC
  CCTGCCCCACGGAGCAGCTCAGCCCGTCGCACCCGCCACTGATCACCTGCACGGGCAGTGATGTGGACGT
  CCAGCTTCAAGTGGCAGTGCCACAGCCAGGCCGCTATGCCCTAGTGGTGGAGTACGCCAATGAGGATGCC
  CGCCAGGAGGTGGGCGTGGCCGTGCACACCCCACAGCGGGCCCCCCAGCAGGGGCTGCTCTCCCTGCACC
  CCTGCCTGTACAGCACCCTGTGCCGGGGCACTGCCCGGGATACCCAGGACCACCTGGCTGTCTTCCACCT
  GGACTCGGAGGCCAGCGTGAGGCTCACAGCCGAACAGGCACGCTTCTTCCTGCACGGGGTCACTCTGGTG
  CCCATTGAGGAGTTCAGCCCGGAGTTCGTGGAGCCCCGGGTCAGCTGCATCAGCAGCCACGGCGCCTTTG
  GCCCCAACAGTGCCGCCTGTCTGCCCTCGCGCTTCCCAAAGCCGCCCCAGCCCATCATCCTCAGGGACTG
  CCAGGTGATCCCGCTGCCGCCCGGCCTCCCGCTGACCCACGCGCAGGATCTCACTCCAGCCATGTCCCCA
  GCTGGACCCCGACCTCGGCCCCCCACCGCTGTGGACCCTGATGCAGAGCCCACCCTGCTGCGTGAGCCCC
  AGGCCACCGTGGTCTTCACCACCCATGTGCCCACGCTGGGCCGCTATGCCTTCCTGCTGCACGGCTACCA
  GCCAGCCCACCCCACCTTCCCCGTGGAAGTCCTCATCAACGCCGGCCGCGTGTGGCAGGGCCACGCCAAC
  GCCAGCTTCTGTCCACATGGCTACGGCTGCCGCACCCTGGTGGTGTGTGAGGGCCAGGCCCTGCTGGACG
  TGACCCACAGCGAGCTCACTGTGACCGTGCGTGTGCCCAAGGGCCGGTGGCTCTGGCTGGATTATGTACT
  CGTGGTCCCTGAGAACGTCTACAGCTTTGGCTACCTCCGGGAGGAGCCCCTGGATAAATCCTATGACTTC
  ATCAGCCACTGCGCAGCCCAGGGCTACCACATCAGCCCCAGCAGCTCATCCCTGTTCTGCCGAAACGCTG
  CTGCTTCCCTCTCCCTCTTCTATAACAACGGAGCCCGTCCATGTGGCTGCCACGAAGTAGGTGCTACAGG
  CCCCACGTGTGAGCCCTTCGGGGGCCAGTGTCCCTGCCATGCCCATGTCATTGGCCGTGACTGCTCCCGC
  TGTGCCACCGGATACTGGGGCTTCCCCAACTGCAGGCCCTGTGACTGCGGTGCCCGCCTCTGTGACGAGC
  TCACGGGCCAGTGCATCTGCCCGCCACGCACCATCCCGCCCGACTGCCTGCTGTGCCAGCCCCAGACCTT
  TGGCTGCCACCCCCTGGTCGGCTGTGAGGAGTGTAACTGCTCAGGGCCCGGCATCCAGGAGCTCACAGAC
  CCTACCTGTGACACAGACAGCGGCCAGTGCAAGTGCAGACCCAACGTGACTGGGCGCCGCTGTGATACCT
  GCTCTCCGGGCTTCCATGGCTACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTGCGCCTGG
  CGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGAGAACGTGCAGGGCCCCAAATGTGACCAGTGC
  AGCCTTGGGACCTTCTCACTGGATGCTGCCAACCCCAAAGGTTGCACCCGCTGCTTCTGCTTTGGGGCCA
  CGGAGCGCTGCCGGAGCTCGTCCTACACCCGCCAGGAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAG
  CACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCAC
  GTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTGTACTGGCAGGCCCCACCCTCCTACCTGGGGGACC
  GGGTGTCATCCTACGGTGGGACCCTCCGTTATGAACTGCACTCAGAGACCCAGCGGGGAGATGTCTTTGT
  CCCCATGGAGAGCAGGCCGGATGTGGTGCTGCAGGGCAACCAGATGAGCATCACATTCCTGGAGCCGGCA
  TACCCCACGCCTGGCCACGTTCACCGTGGGCAGCTGCAGCTGGTGGAGGGGAACTTCCGGCATACGGAGA
  CGCGCAACACTGTGTCCCGCGAGGAGCTCATGATGGTGCTGGCCAGCCTGGAGCAGCTGCAGATCCGTGC
  CCTCTTCTCACAGATCTCCTCGGCTGTCTTCCTGCGCAGGGTGGCACTGGAGGTGGCCAGCCCAGCAGGC
  CAGGGGGCCCTGGCCAGCAATGTGGAGCTGTGCCTGTGCCCCGCCAGCTACCGGGGGGACTCATGCCAGG
  AATGTGCCCCCGGCTTCTATCGGGACGTCAAAGGTCTCTTCCTGGGCCGATGTGTCCCTTGTCAGTGCCA
  TGGACACTCAGACCGCTGCCTCCCTGGCTCTGGCGTCTGTGTGGACTGCCAGCACAACACCGAAGGGGCC
  CACTGTGAGCGCTGCCAGGCTGGCTTCGTGAGCAGCAGGGACGACCCCAGCGCCCCCTGTGTCAGCTGCC
  CCTGCCCCCTCTCAGTGCCTTCCAACAACTTCGCCGAGGGCTGTGTCCTGCGAGGCGGCCGCACCCAGTG
  CCTCTGCAAACCTGGTTATGCAGGTGCCTCCTGCGAGCGGTGTGCGCCCGGATTCTTTGGGAACCCACTG
  GTGCTGGGCAGCTCCTGCCAGCCATGCGACTGCAGCGGCAACGGTGACCCCAACTTGCTCTTCAGCGACT
  GCGACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCTGTGC
  CCCCGGCTTCTACGGCAACGCCCTGCTGCCCGGCAACTGCACCCGGTGCGACTGTACCCCATGTGGGACA
  GAGGCCTGCGACCCCCACAGCGGGCACTGCCTGTGCAAGGCGGGCGTGACTGGGCGGCGCTGTGACCGCT
  GCCAGGAGGGACATTTTGGTTTCGATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGCCGA
  GGGCTCCGAGTGCCACCCCCAGAGCGGACAGTGCCACTGCCGACCAGGGACCATGGGACCCCAGTGCCGC
  GAGTGTGCCCCTGGCTACTGGGGGCTCCCTGAGCAGGGCTGCAGGCGCTGCCAGTGCCCTGGGGGCCGCT
  GTGACCCTCACACGGGCCGCTGCAACTGCCCCCCGGGGCTCAGCGGGGAGCGCTGCGACACCTGCAGCCA
  GCAGCATCAGGTGCCTGTTCCAGGCGGGCCTGTGGGCCACAGCATCCACTGTGAAGTGTGTGACCACTGT
  GTGGTCCTGCTCCTGGATGACCTGGAACGGGCCGGCGCCCTCCTCCCCGCCATTCACGAGCAACTGCGTG
  GCATCAATGCCAGCTCCATGGCCTGGGCCCGTCTGCACAGGCTGAACGCCTCCATCGCTGACCTGCAGAG
  CCAGCTCCGGAGCCCCCTGGGCCCCCGCCATGAGACGGCACAGCAGCTGGAGGTGCTGGAGCAGCAGAGC
  ACAAGCCTCGGGCAGGACGCACGGCGGCTAGGCGGCCAGGCCGTGGGGACCCGAGACCAGGCGAGCCAAT
  TGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGGCCATCCGGGCTGTGGACCG
  CACCCTGAGCGAGCTCATGTCCCAGACGGGCCACCTGGGGCTGGCCAATGCCTCGGCTCCATCAGGTGAG
  CAGCTGCTCCGGACACTGGCCGAGGTGGAGCGGCTGCTCTGGGAGATGCGGGCCCGGGACCTGGGGGCCC
  CGCAGGCAGCAGCTGAGGCTGAGTTGGCTGCAGCACAGAGATTGCTGGCCCGGGTGCAGGAGCAGCTGAG
  CAGCCTCTGGGAGGAGAACCAGGCACTGGCCACACAAACCCGCGACCGGCTGGCCCAGCACGAGGCCGGC
  CTCATGGACCTGCGAGAGGCTTTGAACCGGGCAGTGGACGCCACACGGGAGGCCCAGGAGCTCAACAGCC
  GCAACCAGGAGCGCCTGGAGGAAGCCCTGCAAAGGAAGCAGGAGCTGTCCCGGGACAATGCCACCCTGCA
  GGCCACTCTGCATGCGGCTAGGGACACCCTGGCCAGCGTCTTCAGATTGCTGCACAGCCTGGACCAGGCT
  AAGGAGGAGCTGGAGCGCCTCGCCGCCAGCCTGGACGGGGCTCGGACCCCACTGCTGCAGAGGATGCAGA
  CCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCCGCCGAGGCCCACGCACAGCAGCTGGGCCA
  GCTGGCACTCAATCTGTCCAGCATCATCCTGGACGTCAACCAGGACCGCCTCACCCAGAGGGCCATCGAG
  GCCTCCAACGCCTACAGCCGCATCCTGCAGGCCGTGCAGGCTGCCGAGGATGCTGCTGGCCAGGCCCTGC
  AGCAGGCGGACCACACGTGGGCGACGGTGGTGCGGCAGGGCCTGGTGGACCGAGCCCAGCAGCTCCTGGC
  CAACAGCACTGCACTAGAAGAGGCCATGCTCCAGGAACAGCAGAGGCTGGGCCTTGTGTGGGCTGCCCTC
  CAGGGTGCCAGGACCCAGCTCCGAGATGTCCGGGCCAAGAAGGACCAGCTGGAGGCGCACATCCAGGCGG
  CGCAGGCCATGCTTGCCATGGACACAGACGAGACAAGCAAGAAGATCGCACATGCCAAGGCTGTGGCTGC
  TGAAGCCCAGGACACCGCCACCCGTGTGCAGTCCCAGCTGCAGGCCATGCAGGAGAATGTGGAGCGGTGG
  CAGGGCCAGTACGAGGGCCTGCGGGGCCAGGACCTGGGCCAGGCAGTGCTTGACGCAGGCCACTCAGTGT
  CCACCCTGGAGAAGACGCTGCCCCAGCTGCTGGCCAAGCTGAGCATCCTGGAGAACCGTGGGGTGCACAA
  CGCCAGCCTGGCCCTGTCCGCCAGCATTGGCCGCGTGCGAGAGCTCATTGCCCAGGCCCGGGGGGCTGCC
  AGTAAGGTCAAGGTGCCCATGAAGTTCAACGGGCGCTCAGGGGTGCAGCTGCGCACCCCACGGGATCTTG
  CCGACCTTGCTGCCTACACTGCCCTCAAGTTCTACCTGCAGGGCCCAGAGCCTGAGCCTGGGCAGGGTAC
  CGAGGATCGCTTTGTGATGTACATGGGCAGCCGCCAGGCCACTGGGGACTACATGGGTGTGTCTCTGCGT
  GACAAGAAGGTGCACTGGGTGTATCAGCTGGGTGAGGCGGGCCCTGCAGTCCTAAGCATCGATGAGGACA
  TTGGGGAGCAGTTCGCAGCTGTCAGCCTGGACAGGACTCTCCAGTTTGGCCACATGTCCGTCACAGTGGA
  GAGACAGATGATCCAGGAAACCAAGGGTGACACGGTGGCCCCTGGGGCAGAGGGGCTGCTCAACCTGCGG
  CCAGACGACTTCGTCTTCTACGTCGGGGGGTACCCCAGTACCTTCACGCCCCCTCCCCTGCTTCGCTTCC
  CCGGCTACCGGGGCTGCATCGAGATGGACACGCTGAATGAGGAGGTGGTCAGCCTCTACAACTTCGAGAG
  GACCTTCCAGCTGGACACGGCTGTGGACAGGCCTTGTGCCCGCTCCAAGTCGACCGGGGACCCGTGGCTC
  ACGGACGGCTCCTACCTGGACGGCACCGGCTTCGCCCGCATCAGCTTCGACAGTCAGATCAGCACCACCA
  AGCGCTTCGAGCAGGAGCTGCGGCTCGTGTCCTACAGCGGGGTGCTCTTCTTCCTGAAGCAGCAGAGCCA
  GTTCCTGTGCTTGGCCGTGCAAGAAGGCAGCCTCGTGCTGTTGTATGACTTTGGGGCTGGCCTGAAAAAG
  GCCGTCCCACTGCAGCCCCCACCGCCCCTGACCTCGGCCAGCAAGGCGATCCAGGTGTTCCTGCTGGGGG
  GCAGCCGCAAGCGTGTGCTGGTGCGTGTGGAGCGGGCCACGGTGTACAGCGTGGAGCAGGACAATGATCT
  GGAGCTGGCCGACGCCTACTACCTGGGGGGCGTGCCGCCCGACCAGCTGCCCCCGAGCCTGCGACGGCTC
  TTCCCCACCGGAGGCTCAGTCCGTGGCTGCGTCAAAGGCATCAAGGCCCTGGGCAAGTATGTGGACCTCA
  AGCGGCTGAACACGACAGGCGTGAGCGCCGGCTGCACCGCCGACCTGCTGGTGGGGCGCGCCATGACTTT
  CCATGGCCACGGCTTCCTTCGCCTGGCGCTCTCGAACGTGGCACCGCTCACTGGCAACGTCTACTCCGGC
  TTCGGCTTCCACAGCGCCCAGGACAGTGCCCTGCTCTACTACCGGGCGTCCCCGGATGGGCTATGCCAGG
  TGTCCCTGCAGCAGGGCCGTGTGAGCCTACAGCTCCTGAGGACTGAAGTGAAAACTCAAGCGGGCTTCGC
  CGATGGTGCCCCCCATTACGTCGCCTTCTACAGCAATGCCACGGGAGTCTGGCTGTATGTCGATGACCAG
  CTCCAGCAGATGAAGCCCCACCGGGGACCACCCCCCGAGCTCCAGCCGCAGCCTGAGGGGCCCCCGAGGC
  TCCTCCTGGGAGGCCTGCCTGAGTCTGGCACCATTTACAACTTCAGTGGCTGCATCAGCAACGTCTTCGT
  GCAGCGGCTCCTGGGCCCACAGCGCGTATTTGATCTGCAGCAGAACCTGGGCAGCGTCAATGTGAGCACG
  GGCTGTGCACCCGCCCTGCAAGCCCAGACCCCGGGCCTGGGGCCTAGAGGACTGCAGGCCACCGCCCGGA
  AGGCCTCCCGCCGCAGCCGTCAGCCCGCCCGGCATCCTGCCTGCATGCTGCCCCCACACCTCAGGACCAC
  CCGAGACTCCTACCAGTTTGGGGGTTCCCTGTCCAGTCACCTGGAGTTTGTGGGCATCCTGGCCCGACAT
  AGGAACTGGCCCAGTCTCTCCATGCACGTCCTCCCGCGAAGCTCCCGAGGCCTCCTCCTCTTCACTGCCC
  GTCTGAGGCCCGGCAGCCCCTCCCTGGCGCTCTTCCTGAGCAATGGCCACTTCGTTGCACAGATGGAAGG
  CCTCGGGACTCGGCTCCGCGCCCAGAGCCGCCAGCGCTCCCGGCCTGGCCGCTGGCACAAGGTCTCCGTG
  CGCTGGGAGAAGAACCGGATCCTGCTGGTGACGGACGGGGCCCGGGCCTGGAGCCAGGAGGGGCCGCACC
  GGCAGCACCAGGGGGCAGAGCACCCCCAGCCCCACACCCTCTTTGTGGGCGGCCTCCCGGCCAGCAGCCA
  CAGCTCCAAACTTCCGGTGACCGTCGGGTTCAGCGGCTGTGTGAAGAGACTGAGGCTGCACGGGAGGCCC
  CTGGGGGCCCCCACACGGATGGCAGGGGTCACACCCTGCATCTTGGGCCCCCTGGAGGCGGGCCTGTTCT
  TCCCAGGCAGCGGGGGAGTTATCACTTTAGACCTCCCAGGAGCTACACTGCCTGATGTGGGCCTGGAACT
  GGAGGTGCGGCCCCTGGCAGTCACCGGACTGATCTTCCACTTGGGCCAGGCCCGGACGCCCCCCTACTTG
  CAGTTGCAGGTGACCGAGAAGCAAGTCCTGCTGCGGGCGGATGACGGAGCAGGGGAGTTCTCCACGTCAG
  TGACCCGCCCCTCAGTGCTGTGTGATGGCCAGTGGCACCGGCTAGCGGTGATGAAAAGCGGGAATGTGCT
  CCGGCTGGAGGTGGACGCGCAGAGCAACCACACCGTGGGCCCCTTGCTGGCGGCTGCAGCTGGTGCCCCA
  GCCCCTCTGTACCTCGGGGGCCTGCCTGAGCCCATGGCCGTGCAGCCCTGGCCCCCCGCCTACTGCGGCT
  GCATGAGGAGGCTGGCGGTGAACCGGTCCCCCGTCGCCATGACTCGCTCTGTGGAGGTCCACGGGGCAGT
  GGGGGCCAGTGGCTGCCCAGCCGCCTAG
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_005560
• OTI Disclaimer: Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.
  
  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.
• Product Components: The cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones.
• 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_005560.4, NP_005551.3
• RefSeq Size: 11445 bp
• RefSeq ORF: 11088 bp
• Locus ID: 3911
• Cytogenetics: 20q13.33
• Protein Families: Druggable Genome
• Protein Pathways: ECM-receptor interaction, Focal adhesion, Pathways in cancer, Small cell lung cancer
• Gene Summary: 'This gene encodes one of the vertebrate laminin alpha chains. Laminins, a family of extracellular matrix glycoproteins, are the major noncollagenous constituent of basement membranes. They have been implicated in a wide variety of biological processes including cell adhesion, differentiation, migration, signaling, neurite outgrowth and metastasis. Laminins are composed of 3 non identical chains: laminin alpha, beta and gamma (formerly A, B1, and B2, respectively) and they form a cruciform structure consisting of 3 short arms, each formed by a different chain, and a long arm composed of all 3 chains. Each laminin chain is a multidomain protein encoded by a distinct gene. The protein encoded by this gene is the alpha-5 subunit of of laminin-10 (laminin-511), laminin-11 (laminin-521) and laminin-15 (laminin-523). [provided by RefSeq, Jun 2013]'