Pex7p and Pex20p ofNeurospora crassaFunction Together in PTS2-dependent Protein Import into Peroxisomes

Recruiting matrix proteins with a peroxisomal targeting signal type 2 (PTS2) to the peroxisomal membrane requires species-specific factors. In Saccharomyces cerevisiae, the PTS2 receptor Pex7p acts in concert with the redundant Pex18p/Pex21p, whereas inYarrowia lipolytica, Pex20p might unite the function of both S. cerevisiae peroxins. Herein, the genome of the filamentous fungus Neurospora crassa was analyzed for peroxin-encoding genes. We identified a set of 18 peroxins that resembles that of Y. lipolytica rather than that ofS. cerevisiae. Interestingly, proteins homologous to both S. cerevisiae Pex7p and Y. lipolytica Pex20p exist in N. crassa. We report on the isolation of these PTS2-specific peroxins and demonstrate thatNcPex20p can substitute for S. cerevisiaePex18p/Pex21p, but not for ScPex7p. Like Pex18p,NcPex20p did not bind PTS2 protein or the docking proteins in the absence of ScPex7p. Rather,NcPex20p was required before docking to form an import-competent complex of cargo-loaded PTS2 receptors.NcPex7p did not functionally replace yeast Pex7p, probably because the N. crassa PTS2 receptor failed to associate with Pex18p/Pex21p. However, once NcPex7p andNcPex20p had been coexpressed, it proved possible to replace yeast Pex7p. Pex20p and Pex18p/Pex21p are therefore true orthologues, both of which are in need of Pex7p for PTS2 protein import.

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Involvement of Pex13p in Pex14p Localization and Peroxisomal Targeting Signal 2–dependent Protein Import into Peroxisomes

The Journal of Cell Biology ◽

10.1083/jcb.144.6.1151 ◽

1999 ◽

Vol 144 (6) ◽

pp. 1151-1162 ◽

Cited By ~ 141

Author(s):

Wolfgang Girzalsky ◽

Peter Rehling ◽

Katharina Stein ◽

Julia Kipper ◽

Lars Blank ◽

...

Keyword(s):

Binding Sites ◽

Protein Import ◽

Sh3 Domain ◽

Loss Of Function ◽

Peroxisomal Membrane ◽

Peroxisomal Targeting ◽

Dependent Protein ◽

Targeting Signal ◽

Docking Protein ◽

Peroxisomal Targeting Signal

Pex13p is the putative docking protein for peroxisomal targeting signal 1 (PTS1)-dependent protein import into peroxisomes. Pex14p interacts with both the PTS1- and PTS2-receptor and may represent the point of convergence of the PTS1- and PTS2-dependent protein import pathways. We report the involvement of Pex13p in peroxisomal import of PTS2-containing proteins. Like Pex14p, Pex13p not only interacts with the PTS1-receptor Pex5p, but also with the PTS2-receptor Pex7p; however, this association may be direct or indirect. In support of distinct peroxisomal binding sites for Pex7p, the Pex7p/Pex13p and Pex7p/ Pex14p complexes can form independently. Genetic evidence for the interaction of Pex7p and Pex13p is provided by the observation that overexpression of Pex13p suppresses a loss of function mutant of Pex7p. Accordingly, we conclude that Pex7p and Pex13p functionally interact during PTS2-dependent protein import into peroxisomes. NH2-terminal regions of Pex13p are required for its interaction with the PTS2-receptor while the COOH-terminal SH3 domain alone is sufficient to mediate its interaction with the PTS1-receptor. Reinvestigation of the topology revealed both termini of Pex13p to be oriented towards the cytosol. We also found Pex13p to be required for peroxisomal association of Pex14p, yet the SH3 domain of Pex13p may not provide the only binding site for Pex14p at the peroxisomal membrane.

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A PEX7-Centered Perspective on the Peroxisomal Targeting Signal Type 2-Mediated Protein Import Pathway

Molecular and Cellular Biology ◽

10.1128/mcb.01727-13 ◽

2014 ◽

Vol 34 (15) ◽

pp. 2917-2928 ◽

Cited By ~ 19

Author(s):

T. A. Rodrigues ◽

I. S. Alencastre ◽

T. Francisco ◽

P. Brites ◽

M. Fransen ◽

...

Keyword(s):

Protein Import ◽

Peroxisomal Targeting ◽

Signal Type ◽

Targeting Signal ◽

Peroxisomal Targeting Signal

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Components Involved in Peroxisome Import, Biogenesis, Proliferation, Turnover, and Movement

Physiological Reviews ◽

10.1152/physrev.1998.78.1.171 ◽

1998 ◽

Vol 78 (1) ◽

pp. 171-188 ◽

Cited By ~ 224

Author(s):

SURESH SUBRAMANI

Keyword(s):

Protein Import ◽

Protein Translocation ◽

Peroxisomal Disorders ◽

Peroxisomal Membrane ◽

Peroxisomal Protein ◽

Peroxisomal Targeting ◽

Docking Proteins ◽

Targeting Signal ◽

Peroxisomal Targeting Signal

Subramani, Suresh. Components Involved in Peroxisome Import, Biogenesis, Proliferation, Turnover, and Movement. Physiol. Rev. 78: 171–188, 1998. — In the decade that has elapsed since the discovery of the first peroxisomal targeting signal (PTS), considerable information has been obtained regarding the mechanism of protein import into peroxisomes. The PTSs responsible for the import of matrix and membrane proteins to peroxisomes, the receptors for several of these PTSs, and docking proteins for the PTS1 and PTS2 receptors are known. Many peroxins involved in peroxisomal protein import and biogenesis have been characterized genetically and biochemically. These studies have revealed important new insights regarding the mechanism of protein translocation across the peroxisomal membrane, the conservation of PEX genes through evolution, the role of peroxins in fatal human peroxisomal disorders, and the biogenesis of the organelle. It is clear that peroxisomal protein import and biogenesis have many features unique to this organelle alone. More recent studies on peroxisome degradation, division, and movement highlight newer aspects of the biology of this organelle that promise to be just as exciting and interesting as import and biogenesis.

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The Arabidopsis Peroxisomal Targeting Signal Type 2 Receptor PEX7 Is Necessary for Peroxisome Function and Dependent on PEX5

Molecular Biology of the Cell ◽

10.1091/mbc.e04-05-0422 ◽

2005 ◽

Vol 16 (2) ◽

pp. 573-583 ◽

Cited By ~ 91

Author(s):

Andrew W. Woodward ◽

Bonnie Bartel

Keyword(s):

Protein Import ◽

Lateral Roots ◽

Isolation And Characterization ◽

Peroxisomal Targeting ◽

Signal Type ◽

Targeting Signal ◽

Receptor Mutant ◽

Metabolic Reactions

Plant peroxisomal proteins catalyze key metabolic reactions. Several peroxisome biogenesis PEROXIN (PEX) genes encode proteins acting in the import of targeted proteins necessary for these processes into the peroxisomal matrix. Most peroxisomal matrix proteins bear characterized Peroxisomal Targeting Signals (PTS1 or PTS2), which are bound by the receptors PEX5 or PEX7, respectively, for import into peroxisomes. Here we describe the isolation and characterization of an Arabidopsis peroxin mutant, pex7-1, which displays peroxisome-defective phenotypes including reduced PTS2 protein import. We also demonstrate that the pex5-1 PTS1 receptor mutant, which contains a lesion in a domain conserved among PEX7-binding proteins from various organisms, is defective not in PTS1 protein import, but rather in PTS2 protein import. Combining these mutations in a pex7-1 pex5-1 double mutant abolishes detectable PTS2 protein import and yields seedlings that are entirely sucrose-dependent for establishment, suggesting a severe block in peroxisomal fatty acid β-oxidation. Adult pex7-1 pex5-1 plants have reduced stature and bear abnormally shaped seeds, few of which are viable. The pex7-1 pex5-1 seedlings that germinate have dramatically fewer lateral roots and often display fused cotyledons, phenotypes associated with reduced auxin response. Thus PTS2-directed peroxisomal import is necessary for normal embryonic development, seedling establishment, and vegetative growth.

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Metabolic control of peroxisome abundance

Journal of Cell Science ◽

10.1242/jcs.112.10.1579 ◽

1999 ◽

Vol 112 (10) ◽

pp. 1579-1590 ◽

Cited By ~ 6

Author(s):

C.C. Chang ◽

S. South ◽

D. Warren ◽

J. Jones ◽

A.B. Moser ◽

...

Keyword(s):

Metabolic Control ◽

Matrix Protein ◽

Protein Import ◽

Zellweger Syndrome ◽

Mutant Gene ◽

Peroxisomal Membrane ◽

Peroxisomal Targeting ◽

Targeting Signal ◽

Complementation Groups ◽

Peroxisomal Targeting Signal

Zellweger syndrome and related disorders represent a group of lethal, genetically heterogeneous diseases. These peroxisome biogenesis disorders (PBDs) are characterized by defective peroxisomal matrix protein import and comprise at least 10 complementation groups. The genes defective in seven of these groups and more than 90% of PBD patients are now known. Here we examine the distribution of peroxisomal membrane proteins in fibroblasts from PBD patients representing the seven complementation groups for which the mutant gene is known. Peroxisomes were detected in all PBD cells, indicating that the ability to form a minimal peroxisomal structure is not blocked in these mutants. We also observed that peroxisome abundance was reduced fivefold in PBD cells that are defective in the PEX1, PEX5, PEX12, PEX6, PEX10, and PEX2 genes. These cell lines all display a defect in the import of proteins with the type-1 peroxisomal targeting signal (PTS1). In contrast, peroxisome abundance was unaffected in cells that are mutated in PEX7 and are defective only in the import of proteins with the type-2 peroxisomal targeting signal. Interestingly, a fivefold reduction in peroxisome abundance was also observed for cells lacking either of two PTS1-targeted peroxisomal beta-oxidation enzymes, acyl-CoA oxidase and 2-enoyl-CoA hydratase/D-3-hydroxyacyl-CoA dehydrogenase. These results indicate that reduced peroxisome abundance in PBD cells may be caused by their inability to import these PTS1-containing enzymes. Furthermore, the fact that peroxisome abundance is influenced by peroxisomal 105-oxidation activities suggests that there may be metabolic control of peroxisome abundance.

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