LAMA3 (NM_001127717) Human Untagged Clone

CAT#: SC323322

LAMA3 (untagged)-Human laminin, alpha 3 (LAMA3), transcript variant 3

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: LAMA3
• Synonyms: BM600; E170; LAMNA; LOCS
• Vector: pCMV6 series
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_001127717, the custom clone sequence may differ by one or more nucleotides
  ATGGCGGCGGCCGCGCGGCCTCGGGGTCGGGCACTGGGGCCAGTACTGCCGCCGACGCCG
  CTGCTCCTGCTGGTACTGCGGGTGCTGCCAGCCTGCGGGGCGACCGCTCGGGATCCCGGG
  GCCGCGGCCGGGCTCAGCCTTCACCCGACTTACTTCAACCTGGCCGAGGCGGCGAGGATT
  TGGGCCACCGCCACCTGCGGGGAGAGGGGACCCGGCGAGGGGAGGCCCCAGCCCGAGCTC
  TACTGCAAGTTGGTCGGGGGCCCCACCGCCCCAGGCAGCGGCCACACCATCCAGGGCCAG
  TTCTGTGACTATTGCAATTCTGAAGACCCCAGGAAAGCACATCCTGTCACCAATGCCATC
  GATGGATCTGAACGTTGGTGGCAAAGCCCTCCCCTGTCCTCAGGCACACAGTACAACAGA
  GTCAACCTCACCTTGGATCTGGGGCAGCTCTTCCATGTGGCCTATATTTTAATCAAATTT
  GCAAATTCTCCTCGCCCTGATCTTTGGGTCTTGGAAAGATCTGTAGACTTTGGAAGCACC
  TACTCACCATGGCAATATTTTGCTCATTCTAAAGTAGACTGTTTAAAAGAATTTGGGCGG
  GAGGCAAATATGGCTGTCACCCGGGATGATGATGTACTTTGTGTTACTGAATATTCCCGT
  ATTGTACCTTTGGAAAATGGTGAGGTTGTGGTGTCCTTGATAAACGGTCGTCCAGGTGCA
  AAAAATTTTACTTTCTCTCACACCCTGAGGGAGTTTACCAAGGCAACAAACATCCGCTTG
  CGTTTTCTTAGAACCAATACGCTTCTTGGACACCTCATCTCCAAAGCCCAGCGAGATCCA
  ACTGTCACTCGGCGGTATTATTACAGCATAAAGGACATCAGCATTGGTGGGCAGTGTGTT
  TGCAATGGCCATGCTGAAGTGTGCAATATAAACAATCCTGAAAAACTGTTTCGGTGTGAA
  TGCCAGCACCACACCTGTGGGGAGACGTGTGATCGCTGCTGCACAGGGTACAATCAGAGG
  CGCTGGCGGCCCGCCGCTTGGGAGCAGAGCCACGAGTGTGAAGCATGCAACTGCCACGGC
  CATGCCAGCAACTGTTACTATGATCCAGATGTTGAGCGGCAGCAGGCAAGCTTGAATACC
  CAGGGCATCTATGCTGGTGGAGGGGTCTGCATTAACTGTCAGCACAACACAGCTGGAGTA
  AACTGTGAACAGTGTGCTAAGGGCTATTACCGCCCTTATGGGGTTCCAGTGGATGCCCCT
  GATGGCTGCATCCCCTGCAGCTGTGACCCTGAGCATGCGGATGGCTGTGAACAGGGTTCA
  GGCCGCTGTCACTGCAAGCCAAATTTCCACGGAGACAACTGTGAGAAGTGTGCAATTGGA
  TACTACAATTTCCCATTTTGCTTGAGAATTCCCATTTTTCCTGTTTCTACACCAAGTTCA
  GAAGATCCAGTAGCTGGAGATATAAAAGGGTGTGACTGTAATCTGGAAGGTGTTCTCCCT
  GAAATATGTGATGCCCACGGACGGTGCCTGTGCCGCCCTGGGGTTGAGGGCCCTCGATGT
  GATACCTGCCGCTCTGGTTTCTACTCATTCCCTATTTGCCAAGCCTGCTGGTGTTCAGCC
  CTTGGATCCTACCAGATGCCCTGCAGCTCAGTGACTGGACAGTGTGAATGTCGGCCAGGA
  GTTACAGGACAGCGGTGTGACAGGTGTCTCTCAGGAGCTTATGATTTCCCCCACTGCCAA
  GGTTCCAGCAGTGCTTGTGACCCAGCTGGTACCATCAACTCCAATTTGGGGTATTGCCAA
  TGCAAGCTTCATGTTGAAGGTCCTACTTGTAGCCGCTGCAAACTGTTATATTGGAATCTG
  GACAAAGAAAACCCCAGTGGATGTTCAGAATGCAAGTGCCATAAGGCGGGAACAGTGAGT
  GGAACTGGAGAGTGTAGGCAGGGAGATGGTGACTGTCACTGCAAGTCCCATGTGGGTGGC
  GATTCCTGCGACACCTGTGAAGATGGATATTTTGCTTTGGAAAAGAGCAATTACTTTGGG
  TGTCAAGGGTGTCAGTGTGACATTGGTGGGGCATTGTCCTCCATGTGCAGTGGGCCCTCG
  GGAGTGTGCCAGTGCCGAGAGCATGTCGTGGGAAAGGTGTGCCAGCGGCCTGAAAACAAC
  TACTATTTCCCAGATTTGCATCATATGAAGTATGAGATTGAAGACGGCAGCACACCTAAT
  GGGAGAGACCTTCGATTTGGATTTGATCCGCTGGCATTTCCTGAGTTTAGCTGGAGAGGA
  TATGCCCAAATGACCTCAGTACAGAATGATGTAAGAATAACATTGAATGTAGGGAAGTCA
  AGTGGCTCCTTGTTTCGTGTTATTCTGAGATACGTTAACCCTGGAACTGAAGCAGTATCT
  GGCCATATAACTATTTATCCATCCTGGGGTGCTGCTCAAAGCAAAGAGATCATCTTCCTG
  CCGAGTAAGGAGCCAGCCTTTGTCACTGTCCCTGGAAATGGTTTTGCAGACCCATTTTCA
  ATCACACCAGGAATATGGGTTGCTTGTATTAAGGCAGAAGGAGTCCTTCTGGATTACCTG
  GTGCTGCTCCCCAGGGACTACTATGAAGCCTCTGTACTGCAGCTGCCAGTCACAGAACCA
  TGTGCCTACGCAGGACCTCCCCAAGAAAATTGCTTACTCTACCAGCATTTGCCAGTGACC
  AGATTCCCCTGTACCCTGGCTTGTGAGGCCAGACACTTCCTGCTTGATGGGGAGCCAAGA
  CCCGTGGCAGTGAGGCAGCCCACACCTGCACACCCTGTCATGGTGGACCTCAGCGGGAGA
  GAGGTGGAATTGCATCTGCGGCTGCGCATCCCACAGGTTGGCCACTACGTGGTTGTGGTC
  GAGTATTCCACGGAGGCAGCTCAGCTGTTTGTGGTTGATGTGAATGTGAAGAGCTCCGGG
  TCTGTTCTGGCAGGCCAGGTGAACATTTACAGCTGCAACTACAGTGTTCTCTGCCGGAGT
  GCTGTGATTGATCACATGAGCCGCATCGCCATGTATGAGCTATTGGCAGATGCAGACATT
  CAGCTCAAGGGACACATGGCCCGATTCCTTCTGCATCAAGTTTGTATCATACCTATTGAA
  GAATTCTCAGCTGAGTATGTGAGACCACAAGTCCACTGCATTGCCAGTTATGGGCGATTT
  GTCAATCAAAGTGCCACCTGTGTCTCCTTGGCCCATGAAACTCCTCCAACAGCATTAATT
  TTGGATGTTCTAAGTGGCAGGCCTTTCCCTCACCTGCCCCAGCAGTCGTCACCTTCTGTT
  GATGTTCTTCCTGGGGTCACCTTGAAGGCACCGCAGAATCAAGTGACCCTGAGAGGACGT
  GTACCACACCTGGGCCGATACGTCTTTGTCATCCATTTTTACCAAGCAGCGCACCCGACG
  TTTCCCGCGCAGGTGTCGGTGGATGGCGGGTGGCCACGGGCAGGCTCCTTCCATGCCTCT
  TTTTGCCCCCATGTGCTTGGCTGCCGGGATCAAGTGATTGCCGAAGGCCAGATTGAGTTT
  GACATCTCAGAGCCTGAAGTGGCCGCAACTGTGAAGGTTCCAGAAGGAAAGTCCTTGGTT
  TTGGTCCGTGTTCTAGTGGTGCCTGCAGAAAACTATGACTACCAAATACTTCACAAAAAA
  TCCATGGACAAGTCACTCGAGTTTATCACCAATTGTGGAAAAAACAGCTTTTACCTTGAC
  CCCCAGACAGCCTCCAGATTCTGTAAGAATTCCGCCAGGTCCCTGGTGGCCTTTTACCAC
  AAGGGCGCCCTGCCTTGTGAGTGCCACCCCACTGGGGCCACCGGCCCTCACTGCAGCCCT
  GAGGGTGGGCAGTGCCCATGCCAGCCCAACGTCATCGGGCGGCAGTGCACCCGCTGTGCA
  ACAGGCCACTACGGATTCCCACGCTGCAAGCCGTGCAGCTGTGGTCGGCGCCTTTGTGAA
  GAGATGACGGGGCAGTGCCGCTGCCCTCCCCGCACGGTCAGGCCCCAGTGTGAGGTGTGT
  GAGACACACTCATTCAGCTTCCACCCCATGGCCGGCTGCGAAGGCTGCAACTGTTCCAGG
  AGGGGCACCATCGAGGCTGCCATGCCGGAGTGTGACCGGGACAGCGGGCAGTGCAGATGC
  AAGCCCAGAATCACAGGGCGGCAGTGTGACCGATGTGCTTCCGGGTTTTACCGCTTTCCT
  GAGTGTGTTCCCTGCAATTGCAACAGAGATGGGACTGAGCCAGGAGTGTGTGACCCAGGG
  ACCGGGGCTTGCCTCTGCAAGGAAAATGTAGAAGGCACAGAGTGTAATGTGTGTCGAGAA
  GGCTCATTCCATTTGGACCCAGCCAATCTCAAGGGTTGTACCAGCTGTTTCTGTTTTGGA
  GTAAATAATCAATGTCACAGCTCACATAAGCGAAGGACTAAGTTTGTGGATATGCTGGGC
  TGGCACCTGGAGACAGCAGACAGAGTGGACATCCCTGTCTCTTTCAACCCAGGCAGCAAC
  AGTATGGTGGCGGATCTCCAGGAGCTGCCCGCAACCATCCACAGCGCGTCCTGGGTCGCA
  CCCACCTCCTACCTGGGGGACAAGGTTTCTTCATATGGTGGTTACCTCACTTACCAAGCC
  AAGTCCTTTGGCTTGCCTGGCGACATGGTTCTTCTGGAAAAGAAGCCGGATGTACAGCTC
  ACTGGTCAGCACATGTCCATCATCTATGAGGAGACAAACACCCCACGGCCAGACCGGCTG
  CATCATGGACGAGTGCACGTGGTCGAGGGAAACTTCAGACATGCCAGCAGCCGTGCCCCA
  GTGTCTAGGGAGGAGCTGATGACAGTGCTGTCTAGACTGGCAGATGTGCGCATCCAAGGC
  CTCTACTTCACAGAGACTCAAAGGCTCACCCTGAGCGAGGTGGGGCTAGAGGAAGCCTCT
  GACACAGGAAGTGGGCGCATAGCACTTGCTGTGGAAATCTGTGCCTGCCCCCCTGCCTAC
  GCTGGTGACTCTTGTCAGGGTTGTAGCCCTGGATACTATCGGGATCATAAAGGCTTGTAT
  ACCGGACGGTGTGTTCCCTGCAATTGCAACGGACATTCAAATCAATGCCAGGATGGCTCA
  GGCATATGTGTTAACTGTCAGCACAACACCGCGGGAGAGCACTGTGAACGCTGCCAGGAG
  GGCTACTATGGCAACGCCGTCCACGGATCCTGCAGGGCCTGCCCATGTCCTCACACTAAC
  AGCTTTGCCACTGGCTGTGTGGTGAATGGGGGAGACGTGCGGTGCTCCTGCAAAGCTGGG
  TACACAGGAACACAGTGTGAAAGGTGTGCACCGGGATATTTCGGGAATCCCCAGAAATTC
  GGAGGTAGCTGCCAACCATGCAGTTGTAACAGCAATGGCCAGCTGGGCAGCTGTCATCCC
  CTGACTGGAGACTGCATAAACCAAGAACCCAAAGATAGCAGCCCTGCAGAAGAATGTGAT
  GATTGCGACAGCTGTGTGATGACCCTCCTGAACGACCTGGCCACCATGGGCGAGCAGCTC
  CGCCTGGTCAAGTCTCAGCTGCAGGGCCTGAGTGCCAGCGCAGGGCTTCTGGAGCAGATG
  AGGCACATGGAGACCCAGGCCAAGGACCTGAGGAATCAGTTGCTCAACTACCGTTCTGCC
  ATTTCAAATCATGGATCAAAAATAGAAGGCCTGGAAAGAGAACTGACTGATTTGAATCAA
  GAATTTGAGACTTTGCAAGAAAAGGCTCAAGTAAATTCCAGAAAAGCACAAACATTAAAC
  AACAATGTTAATCGGGCAACACAAAGCGCAAAAGAACTGGATGTGAAGATTAAAAATGTC
  ATCCGGAATGTGCACATGCTGAACCGGATAAGGACCTGGCAGAAAACCCACCAGGGGGAG
  AACAATGGGCTTGCTAACAGTATCCGGGATTCTTTAAATGAATACGAAGCCAAACTCAGT
  GACCTTCGTGCTCGGCTGCAGGAGGCAGCTGCCCAAGCCAAGCAGGCAAATGGCTTGAAC
  CAAGAAAACGAGAGAGCTTTGGGAGCCATTCAGAGACAAGTGAAAGAAATAAATTCCCTG
  CAGAGTGATTTCACCAAGTATCTAACCACTGCAGACTCATCTTTGTTGCAAACCAACATT
  GCGCTGCAGCTGATGGAGAAAAGCCAGAAGGAATATGAAAAATTAGCTGCCAGTTTAAAT
  GAAGCAAGACAAGAACTAAGTGACAAAGTAAGAGAACTTTCCAGATCTGCTGGCAAAACA
  TCCCTTGTGGAGGAGGCAGAAAAGCACGCGCGGTCCTTACAAGAGCTGGCAAAGCAGCTG
  GAAGAGATCAAGAGAAACGCCAGCGGGGATGAGCTGGTGCGCTGTGCTGTGGATGCCGCC
  ACCGCCTACGAGAACATCCTCAATGCCATCAAAGCGGCCGAGGACGCAGCCAACAGGGCT
  GCCAGTGCATCTGAATCTGCCCTCCAGACAGTGATAAAGGAAGATCTGCCAAGAAAAGCT
  AAAACCCTGAGTTCCAACAGTGATAAACTGTTAAATGAAGCCAAGATGACACAAAAGAAG
  CTAAAGCAAGAAGTCAGTCCAGCTCTCAACAACCTACAGCAAACCCTGAATATTGTGACA
  GTTCAGAAAGAAGTGATAGACACCAATCTCACAACTCTCCGAGATGGTCTTCATGGGATA
  CAGAGAGGTGATATTGATGCTATGATCAGTAGTGCAAAGAGCATGGTCAGAAAGGCCAAC
  GACATCACAGATGAGGTTCTGGATGGGCTCAACCCCATCCAGACAGATGTGGAAAGAATT
  AAGGACACCTATGGGAGGACACAGAACGAAGACTTCAAAAAGGCTCTGACTGATGCAGAT
  AACTCGGTGAATAAGTTAACCAACAAACTACCTGATCTTTGGCGCAAGATTGAAAGTATC
  AACCAACAGCTGTTGCCCTTGGGAAACATCTCTGACAACATGGACAGAATACGAGAACTA
  ATTCAGCAGGCCAGAGATGCTGCCAGTAAGGTTGCTGTCCCCATGAGGTTCAATGGTAAA
  TCTGGAGTCGAAGTCCGACTGCCAAATGACCTGGAAGATTTGAAAGGATATACATCTCTG
  TCCTTGTTTCTCCAAAGGCCCAACTCAAGAGAAAATGGGGGTACTGAGAATATGTTTGTG
  ATGTACCTTGGAAATAAAGATGCCTCCCGGGACTACATCGGCATGGCAGTTGTGGATGGC
  CAGCTCACCTGTGTCTACAACCTGGGGGACCGTGAGGCTGAACTCCAAGTGGACCAGATC
  TTGACCAAGAGTGAGACTAAGGAGGCAGTTATGGATCGGGTGAAATTTCAGAGAATTTAT
  CAGTTTGCAAGGCTTAATTACACCAAAGGAGCCACATCCAGTAAACCAGAAACACCCGGA
  GTCTATGACATGGATGGTAGAAATAGCAATACACTCCTTAATTTGGATCCTGAAAATGTT
  GTATTTTATGTTGGAGGTTACCCACCTGATTTTAAACTTCCCAGTCGACTAAGTTTCCCT
  CCATACAAAGGTTGTATTGAATTAGATGACCTCAATGAAAATGTTCTGAGCTTGTACAAC
  TTCAAAAAAACATTCAATCTCAACACAACTGAAGTGGAGCCTTGTAGAAGGAGGAAGGAA
  GAGTCAGACAAAAATTATTTTGAAGGTACGGGCTATGCTCGAGTTCCAACTCAACCACAT
  GCTCCCATCCCAACCTTTGGACAGACAATTCAGACCACCGTGGATAGAGGCTTGCTGTTC
  TTTGCAGAAAACGGGGATCGCTTCATATCTCTAAATATAGAAGATGGCAAGCTCATGGTG
  AGATACAAACTGAATTCAGAGCTACCAAAAGAGAGAGGAGTTGGAGACGCCATAAACAAC
  GGCAGAGACCATTCGATTCAGATCAAAATTGGAAAACTCCAAAAGCGTATGTGGATAAAT
  GTGGACGTTCAAAACACTATAATTGATGGTGAAGTATTTGATTTCAGCACATATTATCTG
  GGAGGAATTCCAATTGCAATCAGGGAAAGATTTAACATTTCTACGCCTGCTTTCCGAGGC
  TGCATGAAAAATTTGAAGAAAACCAGTGGTGTCGTTAGATTGAATGATACTGTGGGAGTA
  ACCAAAAAGTGCTCGGAAGACTGGAAGCTTGTGCGATCTGCCTCATTCTCCAGAGGAGGA
  CAATTGAGTTTCACTGATTTGGGCTTACCACCTACTGACCACCTCCAGGCCTCATTTGGA
  TTTCAGACCTTTCAACCCAGTGGCATATTATTAGATCATCAGACATGGACAAGGAACCTG
  CAGGTCACTCTGGAAGATGGTTACATTGAATTGAGCACCAGCGATAGCGGCAGCCCAATT
  TTTAAATCTCCACAGACGTATATGGATGGTTTACTGCATTATGTATCTGTAATAAGCGAC
  AACTCTGGACTACGGCTTCTCATCGATGACCAGCTTCTGAGAAATAGCAAAAGGCTAAAA
  CACATTTCAAGTTCCCGGCAGTCTCTGCGTCTGGGCGGGAGCAATTTTGAGGGTTGTATT
  AGCAATGTTTTTGTCCAGAGGTTATCACTGAGTCCTGAAGTCCTAGATTTGACCAGTAAC
  TCTCTCAAGAGAGATGTGTCCCTGGGAGGCTGCAGTTTAAACAAACCACCTTTTCTAATG
  TTGCTTAAAGGTTCTACCAGGTTTAACAAGACCAAGACTTTTCGTATCAACCAGCTGTTG
  CAGGACACACCAGTGGCCTCCCCAAGGAGCGTGAAGGTGTGGCAAGATGCTTGCTCACCA
  CTTCCCAAGACCCAGGCCAATCATGGAGCCCTCCAGTTTGGGGACATTCCCACCAGCCAC
  TTGCTATTCAAGCTTCCTCAGGAGCTGCTGAAACCCAGGTCACAGTTTGCTGTGGACATG
  CAGACAACATCCTCCAGAGGACTGGTGTTTCACACGGGCACTAAGAACTCCTTTATGGCT
  CTTTATCTTTCAAAAGGACGTCTGGTCTTTGCACTGGGGACAGATGGGAAAAAATTGAGG
  ATCAAAAGCAAGGAGAAATGCAATGATGGGAAATGGCACACGGTGGTGTTTGGCCATGAT
  GGGGAAAAGGGGCGCTTGGTTGTGGATGGACTGAGGGCCCGGGAGGGAAGTTTGCCTGGA
  AACTCCACCATCAGCATCAGAGCGCCAGTTTACCTGGGATCACCTCCATCAGGGAAACCA
  AAGAGCCTCCCCACAAACAGCTTTGTGGGATGCCTGAAGAACTTTCAGCTGGATTCAAAA
  CCCTTGTATACCCCTTCTTCAAGCTTCGGGGTGTCTTCCTGCTTGGGTGGTCCTTTGGAG
  AAAGGCATTTATTTCTCTGAAGAAGGAGGTCATGTCGTCTTGGCTCACTCTGTATTGTTG
  GGGCCAGAATTTAAGCTTGTTTTCAGCATCCGCCCAAGAAGTCTCACTGGGATCCTAATA
  CACATCGGAAGTCAGCCCGGGAAGCACTTATGTGTTTACCTGGAGGCAGGAAAGGTCACG
  GCCTCTATGGACAGTGGGGCAGGTGGGACCTCAACGTCGGTCACACCAAAGCAGTCTCTG
  TGTGATGGACAGTGGCACTCGGTGGCAGTCACCATAAAACAACACATCCTGCACCTGGAA
  CTGGACACAGACAGTAGCTACACAGCTGGACAGATCCCCTTCCCACCTGCCAGCACTCAA
  GAGCCACTACACCTTGGAGGTGCTCCAGCCAATTTGACGACACTGAGGATCCCTGTGTGG
  AAATCATTCTTTGGCTGTCTGAGGAATATTCATGTCAATCACATCCCTGTCCCTGTCACT
  GAAGCCTTGGAAGTCCAGGGGCCTGTCAGTCTGAATGGTTGTCCTGACCAG
  
• Restriction Sites: Please inquire
• ACCN: NM_001127717
• 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.
• 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_001127717.1, NP_001121189.1
• RefSeq Size: 10343 bp
• RefSeq ORF: 9834 bp
• Locus ID: 3909
• Cytogenetics: 18q11.2
• Protein Families: Druggable Genome, Secreted Protein
• Protein Pathways: ECM-receptor interaction, Focal adhesion, Pathways in cancer, Small cell lung cancer
• Gene Summary: 'The protein encoded by this gene belongs to the laminin family of secreted molecules. Laminins are heterotrimeric molecules that consist of alpha, beta, and gamma subunits that assemble through a coiled-coil domain. Laminins are essential for formation and function of the basement membrane and have additional functions in regulating cell migration and mechanical signal transduction. This gene encodes an alpha subunit and is responsive to several epithelial-mesenchymal regulators including keratinocyte growth factor, epidermal growth factor and insulin-like growth factor. Mutations in this gene have been identified as the cause of Herlitz type junctional epidermolysis bullosa and laryngoonychocutaneous syndrome. Alternative splicing and alternative promoter usage result in multiple transcript variants. [provided by RefSeq, Dec 2014]'
  Transcript Variant: This variant (3, also called b2) lacks an in-frame exon in the coding region compared to variant 1. It encodes isoform 3 (also known as alpha3b2), which is shorter than isoform 1. Variants 1 and 3 encode 'b' isoforms. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.