Abstract
Membranes contain proteins that catalyze a variety of reactions, which lead to the selective permeability of the membrane. For membrane proteins to function as receptors, transporters, channels, and ATPases, they must be targeted to their correct membrane and inserted into the lipid bilayer. Recently, a new membrane component called YidC was discovered that mediates the insertion of proteins into membranes in bacteria. YidC homologs also exist in mitochondria and chloroplasts. Depletion of YidC from the cell interferes with the insertion of membrane proteins that insert both dependent and independent of the Sec YEG/SecDFYajC machinery. YidC directly interacts with membrane proteins during the membrane protein insertion process and assists in the folding of the hydrophobic regions into the membrane bilayer. The chloroplast and bacterial YidC homologs are truly functional homologs because the chloroplast homolog Alb3 functionally complements the bacterial YidC depletion strain. The role of YidC in the membrane insertion pathway will be reviewed.
Copyright © 2002 by Walter de Gruyter GmbH & Co. KG
