A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain.
With rapid economic development, most regions in southern China have suffered acid rain (AR) pollution. In our study, we analyzed the changes in sulfur metabolism in Arabidopsis under simulated AR stress which provide one of the first case studies, in which the systematic responses in sulfur metabol...
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doaj-742f107c69014ea482984e2284496d892021-03-03T20:15:35ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0193e9012010.1371/journal.pone.0090120A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain.Tingwu LiuJuan A ChenWenhua WangMartin SimonFeihua WuWenjun HuJuan B ChenHailei ZhengWith rapid economic development, most regions in southern China have suffered acid rain (AR) pollution. In our study, we analyzed the changes in sulfur metabolism in Arabidopsis under simulated AR stress which provide one of the first case studies, in which the systematic responses in sulfur metabolism were characterized by high-throughput methods at different levels including proteomic, genomic and physiological approaches. Generally, we found that all of the processes related to sulfur metabolism responded to AR stress, including sulfur uptake, activation and also synthesis of sulfur-containing amino acid and other secondary metabolites. Finally, we provided a catalogue of the detected sulfur metabolic changes and reconstructed the coordinating network of their mutual influences. This study can help us to understand the mechanisms of plants to adapt to AR stress.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24595051/pdf/?tool=EBI |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Tingwu Liu Juan A Chen Wenhua Wang Martin Simon Feihua Wu Wenjun Hu Juan B Chen Hailei Zheng |
spellingShingle |
Tingwu Liu Juan A Chen Wenhua Wang Martin Simon Feihua Wu Wenjun Hu Juan B Chen Hailei Zheng A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. PLoS ONE |
author_facet |
Tingwu Liu Juan A Chen Wenhua Wang Martin Simon Feihua Wu Wenjun Hu Juan B Chen Hailei Zheng |
author_sort |
Tingwu Liu |
title |
A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. |
title_short |
A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. |
title_full |
A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. |
title_fullStr |
A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. |
title_full_unstemmed |
A combined proteomic and transcriptomic analysis on sulfur metabolism pathways of Arabidopsis thaliana under simulated acid rain. |
title_sort |
combined proteomic and transcriptomic analysis on sulfur metabolism pathways of arabidopsis thaliana under simulated acid rain. |
publisher |
Public Library of Science (PLoS) |
series |
PLoS ONE |
issn |
1932-6203 |
publishDate |
2014-01-01 |
description |
With rapid economic development, most regions in southern China have suffered acid rain (AR) pollution. In our study, we analyzed the changes in sulfur metabolism in Arabidopsis under simulated AR stress which provide one of the first case studies, in which the systematic responses in sulfur metabolism were characterized by high-throughput methods at different levels including proteomic, genomic and physiological approaches. Generally, we found that all of the processes related to sulfur metabolism responded to AR stress, including sulfur uptake, activation and also synthesis of sulfur-containing amino acid and other secondary metabolites. Finally, we provided a catalogue of the detected sulfur metabolic changes and reconstructed the coordinating network of their mutual influences. This study can help us to understand the mechanisms of plants to adapt to AR stress. |
url |
https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/24595051/pdf/?tool=EBI |
work_keys_str_mv |
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