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Peroxisomal Protein Import

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Presentation on theme: "Peroxisomal Protein Import"— Presentation transcript:

1 Peroxisomal Protein Import
Matthew D. Smith, Danny J. Schnell  Cell  Volume 105, Issue 3, Pages (May 2001) DOI: /S (01)

2 Figure 1 Schematic Representations of Three General Mechanisms Used for Protein Import into Organelles (A) In chloroplasts, mitochondria, and the ER, unfolded preproteins containing cleavable targeting signals are targeted to the membrane surface. The preproteins are then threaded through a gated channel to the organelle interior, where the signal sequence is cleaved and the protein folds. (B) Peroxisomal matrix proteins, thylakoid proteins targeted via the ΔpH pathway, and bacterial proteins exported via the Tat pathway fold to their native structures prior to membrane targeting. They are translocated through flexible translocons that maintain the membrane permeability barrier. (C) Proteins are transported to the nucleus in their native structures through a regulated permeable pore, the nuclear pore complex, that allows free diffusion of macromolecules up to 40 kDa in size Cell  , DOI: ( /S (01) )

3 Figure 2 Schematic Models for the Dynamics of the Pex5p Protein Import Receptor Peroxisomal matrix proteins (cargo) are bound by a soluble Pex5p receptor in the cytoplasm. The Pex5p-cargo complex binds to the membrane via interactions with Pex13p, Pex14p, and Pex17p. In the simple shuttle model (A), the cargo dissociates from Pex5p at the membrane surface and is translocated into the matrix. Pex5p returns to the cytoplasm to participate in additional cycles of cargo targeting. In the extended shuttle model (B), Pex5p remains bound to its cargo and the entire complex is translocated into the matrix. Pex5p then dissociates from its cargo and is exported back to the cytoplasm Cell  , DOI: ( /S (01) )

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