Proteomic profiling of peanut hairy root culture unveils distinctive adaptive responses induced by elicitor treatment across diverse time intervals

•Proteomics reveals hairy root culture adaptive stress responses across distinct stages.•Elicitors shift plant protein patterns, releasing peptides into the medium.•Initial plant response involves proteins reacting to biotic stimuli and defense.•Delayed response involves proteins against oxidative s...

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Published in:Plant stress (Amsterdam) 2024-06, Vol.12, p.100497, Article 100497
Main Authors: Pankaew, Chanyanut, Chayjarung, Phadtraphorn, Tothong, Chonnikan, Pinit, Sompop, Khanthit, Wannapa, Temwong, Sirinan, Maliprom, Arpassara, Roytrakul, Sittiruk, Limmongkon, Apinun
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Language:English
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Adaptive response
Hairy root
Plant defense
Proteomic profile
Signaling pathway
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creator Pankaew, Chanyanut
Chayjarung, Phadtraphorn
Tothong, Chonnikan
Pinit, Sompop
Khanthit, Wannapa
Temwong, Sirinan
Maliprom, Arpassara
Roytrakul, Sittiruk
Limmongkon, Apinun
description •Proteomics reveals hairy root culture adaptive stress responses across distinct stages.•Elicitors shift plant protein patterns, releasing peptides into the medium.•Initial plant response involves proteins reacting to biotic stimuli and defense.•Delayed response involves proteins against oxidative stress for sustained protection.•Released peptides in the medium may activate plant signaling and immunity. Plants employ a diverse array of responses to counteract and defend against stressors. Utilizing quantitative proteomic analysis allows for the exploration of global proteomic dynamics in cells and tissues at specific time points. In order to comprehend the intricate mechanisms underlying plant responses, we conducted a proteomic investigation of peanut hairy root cultures induced with a combination of chitosan (CHT), methyl jasmonate (MeJA), and cyclodextrin (CD) at multiple time points. The study identified 292, 317, and 327 differentially expressed proteins (DEPs) in hairy root tissues at 24-, 48-, and 72 h intervals post-elicitation, respectively. Principal component analysis (PCA) distinctly clustered each timepoint of treatment and the control group. Gene ontology (GO) enrichment analysis highlighted terms such as "responding to biotic stimuli" and "defense response" during the early response, with the upregulation of Heat shock cognate 70 kDa protein, Wound-induced protein 1, and Disease resistance-like protein. The 72 h time point specifically showed an upregulation of superoxide dismutase (SOD) and auxin response factor, indicating a delayed response and illustrating how hairy roots adapt to stress in later stages. Furthermore, GO enrichment at later stages implicated alterations in protein production, involving both synthesis and degradation processes. Proteolytic enzymes, including those in the ubiquitin/proteasome pathway, were identified as facilitating protein degradation. The detection of small molecular weight (MW) peptides in the culture medium of elicited hairy roots suggested their origin from the proteolytic cleavage of precursor proteins. The GO enrichment of culture medium peptides pointed towards involvement in signaling pathways. The suggested signaling cascade acts as a potential link that connects the recognition of stress to the initiation of appropriate response to external stressors. This approach delves into dynamic changes in protein expression and secretion patterns over various intervals, providing insights into the plant's
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Plants employ a diverse array of responses to counteract and defend against stressors. Utilizing quantitative proteomic analysis allows for the exploration of global proteomic dynamics in cells and tissues at specific time points. In order to comprehend the intricate mechanisms underlying plant responses, we conducted a proteomic investigation of peanut hairy root cultures induced with a combination of chitosan (CHT), methyl jasmonate (MeJA), and cyclodextrin (CD) at multiple time points. The study identified 292, 317, and 327 differentially expressed proteins (DEPs) in hairy root tissues at 24-, 48-, and 72 h intervals post-elicitation, respectively. Principal component analysis (PCA) distinctly clustered each timepoint of treatment and the control group. Gene ontology (GO) enrichment analysis highlighted terms such as "responding to biotic stimuli" and "defense response" during the early response, with the upregulation of Heat shock cognate 70 kDa protein, Wound-induced protein 1, and Disease resistance-like protein. The 72 h time point specifically showed an upregulation of superoxide dismutase (SOD) and auxin response factor, indicating a delayed response and illustrating how hairy roots adapt to stress in later stages. Furthermore, GO enrichment at later stages implicated alterations in protein production, involving both synthesis and degradation processes. Proteolytic enzymes, including those in the ubiquitin/proteasome pathway, were identified as facilitating protein degradation. The detection of small molecular weight (MW) peptides in the culture medium of elicited hairy roots suggested their origin from the proteolytic cleavage of precursor proteins. 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Gene ontology (GO) enrichment analysis highlighted terms such as "responding to biotic stimuli" and "defense response" during the early response, with the upregulation of Heat shock cognate 70 kDa protein, Wound-induced protein 1, and Disease resistance-like protein. The 72 h time point specifically showed an upregulation of superoxide dismutase (SOD) and auxin response factor, indicating a delayed response and illustrating how hairy roots adapt to stress in later stages. Furthermore, GO enrichment at later stages implicated alterations in protein production, involving both synthesis and degradation processes. Proteolytic enzymes, including those in the ubiquitin/proteasome pathway, were identified as facilitating protein degradation. The detection of small molecular weight (MW) peptides in the culture medium of elicited hairy roots suggested their origin from the proteolytic cleavage of precursor proteins. 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Gene ontology (GO) enrichment analysis highlighted terms such as "responding to biotic stimuli" and "defense response" during the early response, with the upregulation of Heat shock cognate 70 kDa protein, Wound-induced protein 1, and Disease resistance-like protein. The 72 h time point specifically showed an upregulation of superoxide dismutase (SOD) and auxin response factor, indicating a delayed response and illustrating how hairy roots adapt to stress in later stages. Furthermore, GO enrichment at later stages implicated alterations in protein production, involving both synthesis and degradation processes. Proteolytic enzymes, including those in the ubiquitin/proteasome pathway, were identified as facilitating protein degradation. The detection of small molecular weight (MW) peptides in the culture medium of elicited hairy roots suggested their origin from the proteolytic cleavage of precursor proteins. 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subjects Adaptive response
Hairy root
Plant defense
Proteomic profile
Signaling pathway
title Proteomic profiling of peanut hairy root culture unveils distinctive adaptive responses induced by elicitor treatment across diverse time intervals
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