细胞内
生物
细胞生物学
突变体
殖民地化
微生物学
跨细胞
细胞
细胞内寄生虫
表型
根瘤菌
根瘤菌科
细胞壁
根毛
形态发生
亚细胞定位
莲藕
共生
细胞质
慢性感染
根瘤
结核(地质)
表皮(动物学)
根瘤菌
基因表达
莲花
作者
Jesús Montiel,Ivette García‐Soto,Elizabeth Monroy‐Morales,Beatrice Lace,Mariana Robledo‐Gamboa,Mads Vestergaard,Niels Sandal,Thomas Ott,Jens Stougaard
出处
期刊:Plant Journal
[Wiley]
日期:2025-12-01
卷期号:124 (5): e70639-e70639
被引量:4
摘要
Most legumes establish a mutualistic association with rhizobia, a group of nitrogen-fixing bacteria. In Lotus japonicus, the symbiotic colonization occurs intracellularly, via root hair infection threads by Mesorhizobium loti, or intercellularly, with Agrobacterium pusense IRBG74. In both mechanisms, cell wall remodeling is presumably an essential process. In plants, α-expansins (EXPA) promote cell wall loosening by non-enzymatically triggering a pH-dependent relaxation. In this study, we show that LjEXPA1 is critical for the intracellular and intercellular symbiotic program in L. japonicus. Promoter activity and subcellular localization analyses revealed that EXPA1 is recruited at essential compartments and structures of epidermal and cortical cells in both mechanisms of rhizobial infection, such as the infection chambers, infection pockets, and transcellular infection threads. Additionally, EXPA1-YFP abundantly accumulated in dividing cortical cells during nodule formation. The expression profile of EXPA1 correlates with the symbiotic phenotype observed in homozygous mutants disrupted in the EXPA1 gene (expA1-1 and expA1-2). Infection thread formation and intercellular colonization were drastically reduced in expA1-1 and expA1-2 mutants, compared with wild-type plants. Similarly, nodule formation was significantly reduced in these mutants after M. loti or IRBG74 inoculation. Our results indicate that non-enzymatic cell wall remodeling by the α-expansin EXPA1 is crucial for the successful establishment of Lotus-rhizobia symbiosis, regardless of the infection mechanism.
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