Publikation: FYVE1 Is Essential for Vacuole Biogenesis and Intracellular Trafficking in Arabidopsis
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2015
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Kalinowska, Kamila
Hagmann, Jörg
Ichikawa, Mie
Anzenberger, Franziska
Alkofer, Angela
Sato, Masa H
Braun, Pascal
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Plant Physiology. 2015, 167(4), pp. 1361-1373. ISSN 0032-0889. eISSN 1532-2548. Available under: doi: 10.1104/pp.114.253377
Zusammenfassung
The plant vacuole is a central organelle that is involved in various biological processes throughout the plant life cycle. Elucidating the mechanism of vacuole biogenesis and maintenance is thus the basis for our understanding of these processes. Proper formation of the vacuole has been shown to depend on the intracellular membrane trafficking pathway. Although several mutants with altered vacuole morphology have been characterized in the past, the molecular basis for plant vacuole biogenesis has yet to be fully elucidated.With the aim to identify key factors that are essential for vacuole biogenesis, we performed a forward genetics screen in Arabidopsis (Arabidopsis thaliana) and isolated mutants with altered vacuole morphology. The vacuolar fusion defective1 (vfd1) mutant shows seedling lethality and defects in central vacuole formation. VFD1 encodes a Fab1, YOTB, Vac1, and EEA1 (FYVE) domaincontaining protein, FYVE1, that has been implicated in intracellular trafficking. FYVE1 localizes on late endosomes and interacts with Src homology-3 domain-containing proteins. Mutants of FYVE1 are defective in ubiquitin-mediated protein degradation, vacuolar transport, and autophagy. Altogether, our results show that FYVE1 is essential for plant growth and development and place FYVE1 as a key regulator of intracellular trafficking and vacuole biogenesis.
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570 Biowissenschaften, Biologie
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KOLB, Cornelia, Marie-Kristin NAGEL, Kamila KALINOWSKA, Jörg HAGMANN, Mie ICHIKAWA, Franziska ANZENBERGER, Angela ALKOFER, Masa H SATO, Pascal BRAUN, Erika ISONO, 2015. FYVE1 Is Essential for Vacuole Biogenesis and Intracellular Trafficking in Arabidopsis. In: Plant Physiology. 2015, 167(4), pp. 1361-1373. ISSN 0032-0889. eISSN 1532-2548. Available under: doi: 10.1104/pp.114.253377BibTex
@article{Kolb2015FYVE1-38137,
year={2015},
doi={10.1104/pp.114.253377},
title={FYVE1 Is Essential for Vacuole Biogenesis and Intracellular Trafficking in Arabidopsis},
number={4},
volume={167},
issn={0032-0889},
journal={Plant Physiology},
pages={1361--1373},
author={Kolb, Cornelia and Nagel, Marie-Kristin and Kalinowska, Kamila and Hagmann, Jörg and Ichikawa, Mie and Anzenberger, Franziska and Alkofer, Angela and Sato, Masa H and Braun, Pascal and Isono, Erika}
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<dcterms:abstract xml:lang="eng">The plant vacuole is a central organelle that is involved in various biological processes throughout the plant life cycle. Elucidating the mechanism of vacuole biogenesis and maintenance is thus the basis for our understanding of these processes. Proper formation of the vacuole has been shown to depend on the intracellular membrane trafficking pathway. Although several mutants with altered vacuole morphology have been characterized in the past, the molecular basis for plant vacuole biogenesis has yet to be fully elucidated.With the aim to identify key factors that are essential for vacuole biogenesis, we performed a forward genetics screen in Arabidopsis (Arabidopsis thaliana) and isolated mutants with altered vacuole morphology. The vacuolar fusion defective1 (vfd1) mutant shows seedling lethality and defects in central vacuole formation. VFD1 encodes a Fab1, YOTB, Vac1, and EEA1 (FYVE) domaincontaining protein, FYVE1, that has been implicated in intracellular trafficking. FYVE1 localizes on late endosomes and interacts with Src homology-3 domain-containing proteins. Mutants of FYVE1 are defective in ubiquitin-mediated protein degradation, vacuolar transport, and autophagy. Altogether, our results show that FYVE1 is essential for plant growth and development and place FYVE1 as a key regulator of intracellular trafficking and vacuole biogenesis.</dcterms:abstract>
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