Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)

Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)

Cellular autophagy is a widely-occurring conserved process for turning over damaged organelles or recycling cytoplasmic contents in cells. Although autophagy-related genes (<i>ATGs</i>) have been broadly identified from many plants, little is known about the potential function of autopha...

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Main Authors: Bing Han, Hui Xu, Yingting Feng, Wei Xu, Qinghua Cui, Aizhong Liu
Format: Article
Language:English
Published: MDPI AG 2020-01-01
Series:International Journal of Molecular Sciences
Subjects:
autophagy
castor bean
gene expression
seed development
seed germination
Online Access:https://www.mdpi.com/1422-0067/21/2/562
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spelling doaj-f84d5f52bfb34c0497a0cd7e036b66e72020-11-25T02:06:05ZengMDPI AGInternational Journal of Molecular Sciences1422-00672020-01-0121256210.3390/ijms21020562ijms21020562Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)Bing Han0Hui Xu1Yingting Feng2Wei Xu3Qinghua Cui4Aizhong Liu5Department of Economic Plants and Biotechnology, and Yunnan Key Laboratory for Wild Plant Resources, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650204, ChinaCollege of Life Sciences, Yunnan University, Kunming 650091, ChinaCollege of Life Sciences, Yunnan University, Kunming 650091, ChinaDepartment of Economic Plants and Biotechnology, and Yunnan Key Laboratory for Wild Plant Resources, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650204, ChinaCollege of Life Sciences, Yunnan University, Kunming 650091, ChinaKey Laboratory for Forest Resources Conservation and Utilization in Southwest Mountains of China, College of Forestry, Southwest Forestry University, Kunming 650201, ChinaCellular autophagy is a widely-occurring conserved process for turning over damaged organelles or recycling cytoplasmic contents in cells. Although autophagy-related genes (<i>ATGs</i>) have been broadly identified from many plants, little is known about the potential function of autophagy in mediating plant growth and development, particularly in recycling cytoplasmic contents during seed development and germination. Castor bean (<i>Ricinus communis</i>) is one of the most important inedible oilseed crops. Its mature seed has a persistent and large endosperm with a hard and lignified seed coat, and is considered a model system for studying seed biology. Here, a total of 34 <i>RcATG</i> genes were identified in the castor bean genome and their sequence structures were characterized. The expressional profiles of these <i>RcATGs</i> were examined using RNA-seq and real-time PCR in a variety of tissues. In particular, we found that most <i>RcATGs</i> were significantly up-regulated in the later stage of seed coat development, tightly associated with the lignification of cell wall tissues. During seed germination, the expression patterns of most <i>RcATGs</i> were associated with the decomposition of storage oils. Furthermore, we observed by electron microscopy that the lipid droplets were directly swallowed by the vacuoles, suggesting that autophagy directly participates in mediating the decomposition of lipid droplets via the microlipophagy pathway in germinating castor bean seeds. This study provides novel insights into understanding the potential function of autophagy in mediating seed development and germination.https://www.mdpi.com/1422-0067/21/2/562autophagycastor beangene expressionseed developmentseed germination
collection DOAJ
language English
format Article
sources DOAJ
author Bing Han
Hui Xu
Yingting Feng
Wei Xu
Qinghua Cui
Aizhong Liu
spellingShingle Bing Han
Hui Xu
Yingting Feng
Wei Xu
Qinghua Cui
Aizhong Liu
Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
International Journal of Molecular Sciences
autophagy
castor bean
gene expression
seed development
seed germination
author_facet Bing Han
Hui Xu
Yingting Feng
Wei Xu
Qinghua Cui
Aizhong Liu
author_sort Bing Han
title Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
title_short Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
title_full Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
title_fullStr Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
title_full_unstemmed Genomic Characterization and Expressional Profiles of Autophagy-Related Genes (<i>ATGs</i>) in Oilseed Crop Castor Bean (<i>Ricinus communis L.</i>)
title_sort genomic characterization and expressional profiles of autophagy-related genes (<i>atgs</i>) in oilseed crop castor bean (<i>ricinus communis l.</i>)
publisher MDPI AG
series International Journal of Molecular Sciences
issn 1422-0067
publishDate 2020-01-01
description Cellular autophagy is a widely-occurring conserved process for turning over damaged organelles or recycling cytoplasmic contents in cells. Although autophagy-related genes (<i>ATGs</i>) have been broadly identified from many plants, little is known about the potential function of autophagy in mediating plant growth and development, particularly in recycling cytoplasmic contents during seed development and germination. Castor bean (<i>Ricinus communis</i>) is one of the most important inedible oilseed crops. Its mature seed has a persistent and large endosperm with a hard and lignified seed coat, and is considered a model system for studying seed biology. Here, a total of 34 <i>RcATG</i> genes were identified in the castor bean genome and their sequence structures were characterized. The expressional profiles of these <i>RcATGs</i> were examined using RNA-seq and real-time PCR in a variety of tissues. In particular, we found that most <i>RcATGs</i> were significantly up-regulated in the later stage of seed coat development, tightly associated with the lignification of cell wall tissues. During seed germination, the expression patterns of most <i>RcATGs</i> were associated with the decomposition of storage oils. Furthermore, we observed by electron microscopy that the lipid droplets were directly swallowed by the vacuoles, suggesting that autophagy directly participates in mediating the decomposition of lipid droplets via the microlipophagy pathway in germinating castor bean seeds. This study provides novel insights into understanding the potential function of autophagy in mediating seed development and germination.
topic autophagy
castor bean
gene expression
seed development
seed germination
url https://www.mdpi.com/1422-0067/21/2/562
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