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Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
by Shu, Jiabin , Guan, Chunyun , Guan, Mei , Zhang, Ye , Huang, Qiurong , Ma, Hua , Ma, Xiao
in Abiotic stress / Abscisic acid / Abscisic Acid - metabolism / Analysis / Bioengineering / Biology and Life Sciences / Brassica / Brassica napus / Brassica napus - metabolism / Catalase / Cysteine / Ecology and Environmental Sciences / Energy consumption / Evaluation / Gene expression / Gene Expression Regulation, Plant / Genetic aspects / Genetic transcription / Genomics / Hormones / Hsp90 protein / Humidity / Jasmonic acid / Metabolites / Metabolomics / Oilseeds / Physiology / Plant Breeding / Plant growth / Plant Proteins - genetics / Plant Proteins - metabolism / Proteins / Proteomics / Rape (Plant) / Rape plants / Salinity / Salinity tolerance / Salt Stress / Salt stress (Botany) / Salts / Seeds / Serotonin / Signal transduction / Stress / Stress, Physiological - genetics / Transcriptome / Transcriptomics
2022
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Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
by Shu, Jiabin , Guan, Chunyun , Guan, Mei , Zhang, Ye , Huang, Qiurong , Ma, Hua , Ma, Xiao
in Abiotic stress / Abscisic acid / Abscisic Acid - metabolism / Analysis / Bioengineering / Biology and Life Sciences / Brassica / Brassica napus / Brassica napus - metabolism / Catalase / Cysteine / Ecology and Environmental Sciences / Energy consumption / Evaluation / Gene expression / Gene Expression Regulation, Plant / Genetic aspects / Genetic transcription / Genomics / Hormones / Hsp90 protein / Humidity / Jasmonic acid / Metabolites / Metabolomics / Oilseeds / Physiology / Plant Breeding / Plant growth / Plant Proteins - genetics / Plant Proteins - metabolism / Proteins / Proteomics / Rape (Plant) / Rape plants / Salinity / Salinity tolerance / Salt Stress / Salt stress (Botany) / Salts / Seeds / Serotonin / Signal transduction / Stress / Stress, Physiological - genetics / Transcriptome / Transcriptomics
2022
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Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
by Shu, Jiabin , Guan, Chunyun , Guan, Mei , Zhang, Ye , Huang, Qiurong , Ma, Hua , Ma, Xiao
in Abiotic stress / Abscisic acid / Abscisic Acid - metabolism / Analysis / Bioengineering / Biology and Life Sciences / Brassica / Brassica napus / Brassica napus - metabolism / Catalase / Cysteine / Ecology and Environmental Sciences / Energy consumption / Evaluation / Gene expression / Gene Expression Regulation, Plant / Genetic aspects / Genetic transcription / Genomics / Hormones / Hsp90 protein / Humidity / Jasmonic acid / Metabolites / Metabolomics / Oilseeds / Physiology / Plant Breeding / Plant growth / Plant Proteins - genetics / Plant Proteins - metabolism / Proteins / Proteomics / Rape (Plant) / Rape plants / Salinity / Salinity tolerance / Salt Stress / Salt stress (Botany) / Salts / Seeds / Serotonin / Signal transduction / Stress / Stress, Physiological - genetics / Transcriptome / Transcriptomics
2022

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Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress
Journal Article

Transcriptomic, proteomic, metabolomic, and functional genomic approaches of Brassica napus L. during salt stress

Shu, Jiabin,
Guan, Chunyun,
Guan, Mei,
Zhang, Ye,
Huang, Qiurong,
Ma, Hua,
Ma, Xiao
2022
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Overview
Environmental abiotic stresses limit plant growth, development, and reproduction. This study aims to reveal the response of Brassica napus to salt stress. Here, transcriptomics, metabolomics, and proteomics analysis were performed on 15 Brassica napus leave samples treated with salt at different times. Through functional enrichment analyzing the differentially expressed genes (DEGs), differential metabolites (DMs) and differentially expressed proteins (DEPs), the key factors that dominate Brassica napus response to salt stress were identified. The results showed that the two key hormones responding to salt stress were Abscisic acid (ABA) and jasmonic acid (JA). Salt stress for 24h is an important milestone. Brassica napus adjusted multiple pathways at 24h to avoid over-response to salt stress and cause energy consumption. The increased expression in BnPP2C is tangible evidence. In response to salt stress, JA and ABA work together to reduce the damage caused by salt stress in Brassica napus . The increased expression of all BnJAZs after salt stress highlighted the function of JA that cannot be ignored responding to salt stress. In addition, some metabolites, such as N-acetyl-5-hydroxytryptamine, L-Cysteine and L-(+)-Arginine, play a critical role in maintaining the balance of ROS. Proteins like catalase-3, cysteine desulfurase, HSP90 and P450_97A3 were the most critical differential proteins in response to salt stress. These findings of this study provide data support for Brassica napus breeding.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Abiotic stress

/ Abscisic acid

/ Abscisic Acid - metabolism

/ Analysis

/ Bioengineering

/ Biology and Life Sciences

/ Brassica

/ Brassica napus

/ Brassica napus - metabolism

/ Catalase

/ Cysteine

/ Ecology and Environmental Sciences

/ Energy consumption

/ Evaluation

/ Gene expression

/ Gene Expression Regulation, Plant

/ Genetic aspects

/ Genetic transcription

/ Genomics

/ Hormones

/ Hsp90 protein

/ Humidity

/ Jasmonic acid

/ Metabolites

/ Metabolomics

/ Oilseeds

/ Physiology

/ Plant Breeding

/ Plant growth

/ Plant Proteins - genetics

/ Plant Proteins - metabolism

/ Proteins

/ Proteomics

/ Rape (Plant)

/ Rape plants

/ Salinity

/ Salinity tolerance

/ Salt Stress

/ Salt stress (Botany)

/ Salts

/ Seeds

/ Serotonin

/ Signal transduction

/ Stress

/ Stress, Physiological - genetics

/ Transcriptome

/ Transcriptomics

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