Key Laboratory of Molecular and Cytogenetics, College of Life Science and Technology, Harbin Normal University, Harbin, 150025, China.
Plant J. 2024 Nov;120(3):998-1013. doi: 10.1111/tpj.17032. Epub 2024 Sep 16.
Alfalfa is one of the most widely cultivated forage crops worldwide. However, soil salinization restricts alfalfa growth and development and affects global productivity. The plant cell wall is the first barrier against various stresses. Therefore, elucidating the alterations in cell wall architecture is crucial for stress adaptation. This study aimed to clarify the impact of myo-inositol oxygenase 2 (MsMIOX2) on cell wall pectin and hemicellulose biosynthesis under saline-alkali stress and identify the upstream transcription factors that govern MsMIOX2. MsMIOX2 activation induced cell wall pectin and hemicellulose accumulation under saline-alkali stress. The effects of MsMIOX2 in saline-alkali tolerance were investigated by characterizing its overexpression and RNA interference lines. MsMIOX2 overexpression positively regulated the antioxidant system and photosynthesis in alfalfa under saline-alkali stress. MsMIOX2 exhibited myo-inositol oxygenase activity, which increased polysaccharide contents, facilitated pectin and hemicellulose biosynthesis, and extended the cell wall thickness. However, MsMIOX2 RNA interference decreased cell wall thickness and alleviated alfalfa saline-alkali stress tolerance. In addition, MsbZIP53 was identified as an upstream transcriptional MsMIOX2 regulator by yeast one-hybrid, electrophoretic mobility shift assay, dual-luciferase, and beta-glucuronidase assays. MsbZIP53 overexpression increased MsMIOX2 expression, elevated MIOX activity, reinforced the antioxidant system and photosynthesis, and increased saline-alkali stress tolerance in alfalfa. In conclusion, this study presents a novel perspective for elucidating the molecular mechanisms of saline-alkali stress tolerance in alfalfa and emphasizes the potential use of MsMIOX2 in alfalfa breeding.
紫花苜蓿是世界上种植最广泛的饲料作物之一。然而,土壤盐渍化限制了紫花苜蓿的生长和发育,影响了全球生产力。植物细胞壁是抵御各种胁迫的第一道屏障。因此,阐明细胞壁结构的改变对于适应胁迫至关重要。本研究旨在阐明肌醇氧合酶 2(MsMIOX2)在盐碱性胁迫下对细胞壁果胶和半纤维素生物合成的影响,并确定调控 MsMIOX2 的上游转录因子。MsMIOX2 的激活诱导细胞壁果胶和半纤维素在盐碱性胁迫下积累。通过表征其过表达和 RNA 干扰系,研究了 MsMIOX2 在盐碱性耐受中的作用。MsMIOX2 过表达在盐碱性胁迫下正向调控紫花苜蓿的抗氧化系统和光合作用。MsMIOX2 表现出肌醇氧化酶活性,增加多糖含量,促进果胶和半纤维素的生物合成,并延长细胞壁厚度。然而,MsMIOX2 RNA 干扰降低了细胞壁厚度并减轻了紫花苜蓿的盐碱性胁迫耐受性。此外,酵母单杂交、电泳迁移率变动分析、双荧光素酶和β-葡萄糖醛酸酶分析鉴定了 MsbZIP53 是 MsMIOX2 的上游转录调控因子。MsbZIP53 过表达增加了 MsMIOX2 的表达,提高了 MIOX 活性,增强了抗氧化系统和光合作用,并提高了紫花苜蓿的盐碱性胁迫耐受性。总之,本研究为阐明紫花苜蓿耐盐碱性的分子机制提供了新的视角,并强调了 MsMIOX2 在紫花苜蓿育种中的潜在应用。
