The New Zealand Institute for Plant and Food Research Limited, Private Bag 92169, Auckland Mail Centre, Auckland, 1142, New Zealand.
Scion, Private Bag 3020, Rotorua, 3046, New Zealand.
Plant J. 2024 Nov;120(3):1159-1175. doi: 10.1111/tpj.17045. Epub 2024 Sep 27.
Plant adaptation from aquatic to terrestrial environments required modifications to cell wall structure and function to provide tolerance to new abiotic and biotic stressors. Here, we investigate the nature and function of red auronidin pigment accumulation in the cell wall of the liverwort Marchantia polymorpha. Transgenic plants with auronidin production either constitutive or absent were analysed for their cell wall properties, including fractionation of polysaccharide and phenolic components. While small amounts of auronidin and other flavonoids were loosely associated with the cell wall, the majority of the pigments were tightly associated, similar to what is observed in angiosperms for polyphenolics such as lignin. No evidence of covalent binding to a polysaccharide component was found: we propose auronidin is present in the wall as a physically entrapped large molecular weight polymer. The results suggested auronidin is a dual function molecule that can both screen excess light and increase wall strength, hydrophobicity and resistance to enzymatic degradation by pathogens. Thus, liverworts have expanded the core phenylpropanoid toolkit that was present in the ancestor of all land plants, to deliver a lineage-specific solution to some of the environmental stresses faced from a terrestrial lifestyle.
从水生到陆生环境的植物适应需要对细胞壁结构和功能进行修饰,以提供对新的非生物和生物胁迫的耐受性。在这里,我们研究了地钱属植物细胞壁中红色奥罗丁色素积累的性质和功能。对具有组成型或缺乏奥罗丁生产的转基因植物进行细胞壁特性分析,包括多糖和酚类成分的分级分离。虽然少量的奥罗丁和其他类黄酮与细胞壁松散结合,但大部分色素与细胞壁紧密结合,类似于在被子植物中观察到的多酚类物质如木质素。没有发现与多糖成分共价结合的证据:我们提出奥罗丁以物理方式包埋在高分子量聚合物中存在于细胞壁中。研究结果表明,奥罗丁是一种具有双重功能的分子,既能屏蔽过量的光,又能增加细胞壁的强度、疏水性和对病原体酶降解的抵抗力。因此,地钱属植物扩展了所有陆地植物祖先中存在的核心苯丙烷类工具箱,为陆地生活方式所面临的一些环境压力提供了特定谱系的解决方案。
