Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius

Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius

Panax ginseng and Panax quinquefolius can survive for long periods of time in iron toxicity-stressed environments, which cause rusty roots and reduced productivity. To reveal the proteomic changes in these two Panax species in response to iron toxicity stress, plants of these two species were divide...

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Main Authors: Qiuxia Wang, Qiao Jin, Yingying Ma, Shuna Zhang, Linlin Zhang, Zhengbo Liu, Yayu Zhang
Format: Article
Language:English
Published: Elsevier 2021-11-01
Series:Ecotoxicology and Environmental Safety
Subjects:
Ginsenoside
Iron toxicity
Quality
Resistance
Secondary metabolic processes
Online Access:http://www.sciencedirect.com/science/article/pii/S0147651321007600
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spelling doaj-9d01249d342d4c3daf30b6e3c5d7c4c12021-09-05T04:38:20ZengElsevierEcotoxicology and Environmental Safety0147-65132021-11-01224112648Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefoliusQiuxia Wang0Qiao Jin1Yingying Ma2Shuna Zhang3Linlin Zhang4Zhengbo Liu5Yayu Zhang6Institute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, China; Correspondence to: Institute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, No.4899 Juye Street, Jingyue District, Changchun, Jilin 130112, China.Institute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, ChinaInstitute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, ChinaInstitute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, ChinaInstitute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, ChinaInstitute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, ChinaInstitute of Special Wild Economic Animal and Plant Sciences, Chinese Academy of Agricultural Sciences, Jilin 130112, China; College of Pharmacy and biological Engineering, Chengdu University, Chengdu 610106, China; Corresponding author at: College of Pharmacy and biological Engineering, Chengdu University, Chengdu 610106, China.Panax ginseng and Panax quinquefolius can survive for long periods of time in iron toxicity-stressed environments, which cause rusty roots and reduced productivity. To reveal the proteomic changes in these two Panax species in response to iron toxicity stress, plants of these two species were divided into a control group and an iron toxicity-stress group. An isobaric tags for relative and absolute quantitation (iTRAQ) proteomics approach was used to explore the changes in protein accumulation and the potential mechanisms underlying the response to iron toxicity stress in the two Panax species. Proteomic analyses revealed approximately 725 differentially expressed proteins (DEPs) in the iron toxicity-stress and control groups, including 233 and 492 proteins whose expression was upregulated and downregulated, respectively. The expression of DEPs related to photosynthesis was significantly downregulated, and DEPs whose expression was significantly upregulated were associated with redox reactions. Many upregulated DEPs were also involved in pathways such as those involving phenylpropanoid, flavonoid, isoflavone and ginsenoside synthesis. The abundance of some ginsenoside monomers (Rg1 and Rb3) also significantly increased in P. ginseng and P. quinquefolius. Moreover, P. quinquefolius contained 455 DEPs whose expression was higher than that in P. ginseng, including many proteins related to the regulation of ion homeostasis, indicating that P. quinquefolius is more resistant to iron toxicity stress than P. ginseng is.http://www.sciencedirect.com/science/article/pii/S0147651321007600GinsenosideIron toxicityQualityResistanceSecondary metabolic processes
collection DOAJ
language English
format Article
sources DOAJ
author Qiuxia Wang
Qiao Jin
Yingying Ma
Shuna Zhang
Linlin Zhang
Zhengbo Liu
Yayu Zhang
spellingShingle Qiuxia Wang
Qiao Jin
Yingying Ma
Shuna Zhang
Linlin Zhang
Zhengbo Liu
Yayu Zhang
Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
Ecotoxicology and Environmental Safety
Ginsenoside
Iron toxicity
Quality
Resistance
Secondary metabolic processes
author_facet Qiuxia Wang
Qiao Jin
Yingying Ma
Shuna Zhang
Linlin Zhang
Zhengbo Liu
Yayu Zhang
author_sort Qiuxia Wang
title Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
title_short Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
title_full Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
title_fullStr Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
title_full_unstemmed Iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of Panax ginseng and Panax quinquefolius
title_sort iron toxicity-induced regulation of key secondary metabolic processes associated with the quality and resistance of panax ginseng and panax quinquefolius
publisher Elsevier
series Ecotoxicology and Environmental Safety
issn 0147-6513
publishDate 2021-11-01
description Panax ginseng and Panax quinquefolius can survive for long periods of time in iron toxicity-stressed environments, which cause rusty roots and reduced productivity. To reveal the proteomic changes in these two Panax species in response to iron toxicity stress, plants of these two species were divided into a control group and an iron toxicity-stress group. An isobaric tags for relative and absolute quantitation (iTRAQ) proteomics approach was used to explore the changes in protein accumulation and the potential mechanisms underlying the response to iron toxicity stress in the two Panax species. Proteomic analyses revealed approximately 725 differentially expressed proteins (DEPs) in the iron toxicity-stress and control groups, including 233 and 492 proteins whose expression was upregulated and downregulated, respectively. The expression of DEPs related to photosynthesis was significantly downregulated, and DEPs whose expression was significantly upregulated were associated with redox reactions. Many upregulated DEPs were also involved in pathways such as those involving phenylpropanoid, flavonoid, isoflavone and ginsenoside synthesis. The abundance of some ginsenoside monomers (Rg1 and Rb3) also significantly increased in P. ginseng and P. quinquefolius. Moreover, P. quinquefolius contained 455 DEPs whose expression was higher than that in P. ginseng, including many proteins related to the regulation of ion homeostasis, indicating that P. quinquefolius is more resistant to iron toxicity stress than P. ginseng is.
topic Ginsenoside
Iron toxicity
Quality
Resistance
Secondary metabolic processes
url http://www.sciencedirect.com/science/article/pii/S0147651321007600
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