β-Glucan content increase in Waxy-mutated barley is closely associated with positive stress responses and is regulated by ASR1

β-Glucan content increase in Waxy-mutated barley is closely associated with positive stress responses and is regulated by ASR1

Mixed-linkage (1,3; 1,4)-β-D-glucan (MLG) impacts the food and industrial end-uses of barley, but the molecular mechanism of variations in MLG content remains unclear. MLG content usually increases in Waxy-mutated barley. This study applied transcriptomic, proteomic, and metabolomic analyses to Waxy...

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Veröffentlicht in:Carbohydrate polymers 2025-01, Vol.347, p.122536, Article 122536
Hauptverfasser: Li, Qiao, Pan, Zhifen, Zhang, Zhihui, Tang, Hongmei, Cai, Jingchi, Zeng, Xingquan, Li, Zhongyi
Format: Artikel
Sprache:eng
Schlagworte:
abscisic acid
Abscisic Acid - metabolism
ASR1
Barley
beta-Glucans - metabolism
biosynthesis
CslF6
Gene Expression Regulation, Plant
genes
Hordeum - genetics
Hordeum - metabolism
metabolomics
Mutation
Plant Growth Regulators - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
proteomics
seed development
starch
Stress
Stress, Physiological
sugars
transcriptomics
Waxy
β-Glucan
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container_end_page
container_issue
container_start_page 122536
container_title Carbohydrate polymers
container_volume 347
creator Li, Qiao
Pan, Zhifen
Zhang, Zhihui
Tang, Hongmei
Cai, Jingchi
Zeng, Xingquan
Li, Zhongyi
description Mixed-linkage (1,3; 1,4)-β-D-glucan (MLG) impacts the food and industrial end-uses of barley, but the molecular mechanism of variations in MLG content remains unclear. MLG content usually increases in Waxy-mutated barley. This study applied transcriptomic, proteomic, and metabolomic analyses to Waxy-mutated recombinant inbred lines with higher MLG content and wild-type lines with lower MLG content, and identified candidate genes and pathways regulating MLG content through combining preliminary gene function analysis. MLG biosynthesis differed significantly during late grain development in the Waxy-mutated and wild-type barley lines. The MLG increase was closely associated with strongly active sugar and starch metabolism and stress-responsive plant hormones, particularly abscisic acid (ABA) signaling process. Stress-responsive transcript factors ILR3, BTF3, RGGA, and PR13 protein bind to CslF6, which is critical for barley MLG biosynthesis, and the stress-responsive gene ASR1 also had a positive effect on MLG increase. Waxy mutation enhances barley stress responses by activating ABA- or other stress-responsive plant hormones signaling processes, which facilitates MLG biosynthesis. This study provides a new approach for elucidating the variations in MLG content of barley grains.
doi_str_mv 10.1016/j.carbpol.2024.122536
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MLG content usually increases in Waxy-mutated barley. This study applied transcriptomic, proteomic, and metabolomic analyses to Waxy-mutated recombinant inbred lines with higher MLG content and wild-type lines with lower MLG content, and identified candidate genes and pathways regulating MLG content through combining preliminary gene function analysis. MLG biosynthesis differed significantly during late grain development in the Waxy-mutated and wild-type barley lines. The MLG increase was closely associated with strongly active sugar and starch metabolism and stress-responsive plant hormones, particularly abscisic acid (ABA) signaling process. Stress-responsive transcript factors ILR3, BTF3, RGGA, and PR13 protein bind to CslF6, which is critical for barley MLG biosynthesis, and the stress-responsive gene ASR1 also had a positive effect on MLG increase. 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Waxy mutation enhances barley stress responses by activating ABA- or other stress-responsive plant hormones signaling processes, which facilitates MLG biosynthesis. 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ispartof Carbohydrate polymers, 2025-01, Vol.347, p.122536, Article 122536
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1879-1344
1879-1344
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source MEDLINE; Elsevier ScienceDirect Journals
subjects abscisic acid
Abscisic Acid - metabolism
ASR1
Barley
beta-Glucans - metabolism
biosynthesis
CslF6
Gene Expression Regulation, Plant
genes
Hordeum - genetics
Hordeum - metabolism
metabolomics
Mutation
Plant Growth Regulators - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
proteomics
seed development
starch
Stress
Stress, Physiological
sugars
transcriptomics
Waxy
β-Glucan
title β-Glucan content increase in Waxy-mutated barley is closely associated with positive stress responses and is regulated by ASR1
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