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Reevaluation of the role of Pex1 and dynamin-related proteins in peroxisome membrane biogenesis.


ABSTRACT: A recent model for peroxisome biogenesis postulates that peroxisomes form de novo continuously in wild-type cells by heterotypic fusion of endoplasmic reticulum-derived vesicles containing distinct sets of peroxisomal membrane proteins. This model proposes a role in vesicle fusion for the Pex1/Pex6 complex, which has an established role in matrix protein import. The growth and division model proposes that peroxisomes derive from existing peroxisomes. We tested these models by reexamining the role of Pex1/Pex6 and dynamin-related proteins in peroxisome biogenesis. We found that induced depletion of Pex1 blocks the import of matrix proteins but does not affect membrane protein delivery to peroxisomes; markers for the previously reported distinct vesicles colocalize in pex1 and pex6 cells; peroxisomes undergo continued growth if fission is blocked. Our data are compatible with the established primary role of the Pex1/Pex6 complex in matrix protein import and show that peroxisomes in Saccharomyces cerevisiae multiply mainly by growth and division.

SUBMITTER: Motley AM 

PROVIDER: S-EPMC4674274 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Reevaluation of the role of Pex1 and dynamin-related proteins in peroxisome membrane biogenesis.

Motley Alison M AM   Galvin Paul C PC   Ekal Lakhan L   Nuttall James M JM   Hettema Ewald H EH  

The Journal of cell biology 20151201 5


A recent model for peroxisome biogenesis postulates that peroxisomes form de novo continuously in wild-type cells by heterotypic fusion of endoplasmic reticulum-derived vesicles containing distinct sets of peroxisomal membrane proteins. This model proposes a role in vesicle fusion for the Pex1/Pex6 complex, which has an established role in matrix protein import. The growth and division model proposes that peroxisomes derive from existing peroxisomes. We tested these models by reexamining the rol  ...[more]

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