The Multivesicular Body and Autophagosome Pathways in Plants

The Multivesicular Body and Autophagosome Pathways in Plants

In eukaryotic cells, the endomembrane system consists of multiple membrane-bound organelles, which play essential roles in the precise transportation of various cargo proteins. In plant cells, vacuoles are regarded as the terminus of catabolic pathways whereas the selection and transport of vacuolar...

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Bibliographic Details
Published in:Frontiers in plant science Vol. 9; p. 1837
Main Authors: Cui, Yong, He, Yilin, Cao, Wenhan, Gao, Jiayang, Jiang, Liwen
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 12-12-2018
Subjects:
autophagosomes
conserved domains
crosstalk
MVBs
Plant Science
protein structure
vacuolar degradation
protein structure
vacuolar degradation
conserved domains
crosstalk
autophagosomes
MVBs
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Summary:In eukaryotic cells, the endomembrane system consists of multiple membrane-bound organelles, which play essential roles in the precise transportation of various cargo proteins. In plant cells, vacuoles are regarded as the terminus of catabolic pathways whereas the selection and transport of vacuolar cargoes are mainly mediated by two types of organelles, multivesicular bodies (MVBs) also termed prevacuolar compartments (PVCs) and autophagosomes. MVBs are single-membrane bound organelles with intraluminal vesicles and mediate the transport between the Golgi network (TGN) and vacuoles, while autophagosomes are double-membrane bound organelles, which mediate cargo delivery to the vacuole for degradation and recycling during autophagy. Great progress has been achieved recently in identification and characterization of the conserved and plant-unique regulators involved in the MVB and autophagosome pathways. In this review, we present an update on the current knowledge of these key regulators and pay special attention to their conserved protein domains. In addition, we discuss the possible interplay between the MVB and autophagosome pathways in regulating vacuolar degradation in plants.
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Reviewed by: Ilse Foissner, University of Salzburg, Austria; Hao Wang, South China Agricultural University, China
This article was submitted to Plant Traffic and Transport, a section of the journal Frontiers in Plant Science
Edited by: Jon Pittman, University of Manchester, United Kingdom
These authors have contributed equally to this work
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2018.01837