LAMA3 (NM_001127717) Human Untagged Clone

CAT#: SC323322

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



  "NM_001127717" in other vectors (2)

CNY 63,080.00


货期*
13周

规格
    • 10 ug

Product images

经常一起买 (4)
Anti-LAMA3 Rabbit Polyclonal Antibody
    • 100 ul

CNY 1,999.00
CNY 3,280.00


TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms BM600; E170; LAMNA; LOCS
Vector pCMV6 series
Sequence Data
>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 ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
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.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Reference Data
RefSeq NM_001127717.1, NP_001121189.1
RefSeq Size 10343 bp
RefSeq ORF 9834 bp
Locus ID 3909
UniProt ID Q16787
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.
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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