Modulation of the endosomal pathway for optimized response to drought stress: from model to crop plants Cover

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Modulation of the endosomal pathway for optimized response to drought stress: from model to crop plants

Die Bodenkultur: Journal of Land Management, Food and Environment

Volume 72 (2021): Issue 2 (June 2021)

By: Maximilian Schwihla, Christian Luschnig and Barbara Korbei

Open Access

|May 2022

Figures & Tables

The endosomal protein degradation system of plants. Continuous endocytosis from the PM to the TGN/EE occurs. PM protein monoubiquitination promotes endocytosis and K63-linked polyubiquitination promotes further transport to the vacuole via the concatenated ILVs of MVBs. This step involves ESCRT components. TOLs and SH3P2 fulfill ubiquitin-recognizing functions at the PM, possibly guiding K63-linked ubiquitinated cargo to the endosomal membrane and interacting with/recruiting ESCRT-I subunits. At the endosomal membrane, FYVE1/FREE1 and ALIX show interaction with ubiquitin. This reveals a complex network of several possible ubiquitin receptors in the ESCRT-mediated degradation pathway.Abbildung 1. Das endosomale Proteinabbausystem von Pflanzen. Kontinuierliche Endozytose erfolgt von der PM zum TGN/EE. Mono-ubiquitinierung von PM-Proteinen fördert die Endozytose und K63-verknüpfte Poly-ubiquitinierung den Weitertransport in die Vakuole über die „concatenated ILVs” der MVBs. An diesem Schritt sind ESCRT-Komponenten beteiligt. TOLs und SH3P2 fungieren als Ubiquitin-rezeptoren an der PM und leiten -gemeinsam mit ESCRT-I Untereinheiten- K63-verknüpfte ubiquitinierte Proteine zur endosomalen Membran. An der endosomalen Membran interagieren FYVE1/FREE1 und ALIX mit Ubiquitin und fungieren somit als zusätzliche Ubiquitinrezeptoren im endosomalen Transport und Abbau von PM-Proteinen.

DOI: https://doi.org/10.2478/boku-2021-0006 | Journal eISSN: 2719-5430 | Journal ISSN: 0006-5471

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Language: English

Page range: 57 - 72

Submitted on: May 12, 2021

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Accepted on: Jun 16, 2021

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Published on: May 9, 2022

Published by: Universität für Bodenkultur Wien

In partnership with: Paradigm Publishing Services

Publication frequency: 4 issues per year

Keywords:

endosomal trafficking,

drought tolerance

Related subjects:

Life sciences, other

© 2022 Maximilian Schwihla, Christian Luschnig, Barbara Korbei, published by Universität für Bodenkultur Wien
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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