Embryonic lethality caused by mutations in basement membrane collagen of C. elegans.
Basement membranes are specialized forms of extracellular matrix with important functions in development. A major structural component of basement membranes is type IV collagen, a heterotrimer of two alpha 1(IV) and one alpha 2(IV) chains, which forms a complex, polygonal network associated with other basement membrane components. Here we report that the alpha 1(IV) collagen chain of Caenorhabditis elegans is encoded by the genetic locus emb-9. Mutations in emb-9 cause temperature-sensitive lethality during late embryogenesis. We have identified single nucleotide alterations that substitute glutamic acid for glycine in the triple-helical Gly-X-Y repeat region of the alpha 1(IV) collagen in three emb-9 mutant strains. These results are direct evidence that defects in basement membranes can disrupt embryonic development and form a basis for the genetic analysis of basement membrane function.[1]References
- Embryonic lethality caused by mutations in basement membrane collagen of C. elegans. Guo, X.D., Johnson, J.J., Kramer, J.M. Nature (1991) [Pubmed]
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