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Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
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Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
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Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress

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Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress
Journal Article

Transcriptome and metabolome analyses of two contrasting sesame genotypes reveal the crucial biological pathways involved in rapid adaptive response to salt stress

2019
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Overview
Background Soil salinity is one of the major serious factors that affect agricultural productivity of almost all crops worldwide, including the important oilseed crop sesame. In order to improve salinity resistance in sesame, it is crucial to understand the molecular mechanisms underlying the adaptive response to salinity stress. Results In the present study, two contrasting sesame genotypes differing in salt tolerance were used to decipher the adaptive responses to salt stress based on morphological, transcriptome and metabolome characterizations. Morphological results indicated that under salt stress, the salt-tolerant (ST) genotype has enhanced capacity to withstand salinity stress, higher seed germination rate and plant survival rate, as well as better growth rate than the salt-sensitive genotype. Transcriptome analysis revealed strongly induced salt-responsive genes in sesame mainly related to amino acid metabolism, carbohydrate metabolism, biosynthesis of secondary metabolites, plant hormone signal transduction, and oxidation-reduction process. Especially, several pathways were preferably enriched with differentially expressed genes in ST genotype, including alanine, aspartate and glutamate metabolism, carotenoid biosynthesis, galactose metabolism, glycolysis/gluconeogenesis, glyoxylate and dicarboxylate metabolism, porphyrin and chlorophyll metabolism. Metabolome profiling under salt stress showed a higher accumulation degree of metabolites involved in stress tolerance in ST, and further highlighted that the amino acid metabolism, and sucrose and raffinose family oligosaccharides metabolism were enhanced in ST. Conclusions These findings suggest that the candidate genes and metabolites involved in crucial biological pathways may regulate salt tolerance of sesame, and increase our understanding of the molecular mechanisms underlying the adaptation of sesame to salt stress.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Abiotic stress

/ Adaptation

/ Agricultural production

/ agricultural productivity

/ Agriculture

/ Alanine

/ Amino acid

/ amino acid metabolism

/ Amino acids

/ Antioxidants

/ Aspartate

/ aspartic acid

/ Biomedical and Life Sciences

/ Biosynthesis

/ Botanical research

/ Carbohydrate metabolism

/ Carbohydrates

/ carotenoids

/ Cellular signal transduction

/ Chlorophyll

/ Criminal investigation

/ Crops

/ dicarboxylic acids

/ Drought

/ Enzymes

/ family

/ Galactose

/ Gene expression

/ gene expression regulation

/ Gene Expression Regulation, Plant

/ Genes

/ Genetic aspects

/ Genetic research

/ Genomes

/ Genotype

/ Genotype & phenotype

/ Genotypes

/ Germination

/ Gluconeogenesis

/ Glutamate

/ glutamic acid

/ Glycolysis

/ Growth rate

/ Homeostasis

/ Hormones

/ Life Sciences

/ Metabolic pathway

/ Metabolism

/ Metabolites

/ Metabolome

/ Metabolome - genetics

/ Molecular modelling

/ Morphology

/ oilseed crops

/ Oligosaccharides

/ Oxidation

/ Oxidation-reduction potential

/ Oxidation-reduction reactions

/ Physiological aspects

/ Physiology

/ Plant hardiness

/ Plant hormones

/ Plant metabolites

/ Plant Sciences

/ Plant-abiotic interactions

/ Polyamines

/ Porphyrins

/ Productivity

/ Raffinose

/ Raffinose - metabolism

/ Research Article

/ Salinity

/ Salinity effects

/ Salinity tolerance

/ Salt

/ Salt stress

/ Salt stress (Botany)

/ Salt Stress - genetics

/ Salt Stress - physiology

/ Salt tolerance

/ Salt Tolerance - genetics

/ Salt Tolerance - physiology

/ Secondary metabolites

/ Seed germination

/ Seeds

/ Sesame

/ Signal processing

/ Signal transduction

/ Soil salinity

/ Soil stresses

/ Stress

/ stress tolerance

/ Studies

/ Sucrose

/ Sugar

/ Survival

/ survival rate

/ Transcription factors

/ Transcriptome

/ Transcriptome - genetics

/ transcriptomics

/ Transduction

/ Tree Biology