Root Biology Center, State Key Laboratory for Conservation and Utilisation of Subtropical Agro-bioresources, South China Agricultural University, Guangzhou, China.
College of Resources and Environment, Zhongkai University of Agriculture and Engineering, Guangzhou, China.
Plant Cell Environ. 2024 Apr;47(4):1041-1052. doi: 10.1111/pce.14772. Epub 2023 Nov 23.
In arbuscular mycorrhizal (AM) symbiosis, sugars in root cortical cells could be exported as glucose or sucrose into peri-arbuscular space for use by AM fungi. However, no sugar transporter has been identified to be involved in sucrose export. An AM-inducible SWEET transporter, GmSWEET6, was functionally characterised in soybean, and its role in AM symbiosis was investigated via transgenic plants. The expression of GmSWEET6 was enhanced by inoculation with the cooperative fungal strain in both leaves and roots. Heterologous expression in a yeast mutant showed that GmSWEET6 mainly transported sucrose. Transgenic plants overexpressing GmSWEET6 increased sucrose concentration in root exudates. Overexpression or knockdown of GmSWEET6 decreased plant dry weight, P content, and sugar concentrations in non-mycorrhizal plants, which were partly recovered in mycorrhizal plants. Intriguingly, overexpression of GmSWEET6 increased root P content and decreased the percentage of degraded arbuscules, while knockdown of GmSWEET6 increased root sugar concentrations in RNAi2 plants and the percentage of degraded arbuscules in RNAi1 plants compared with wild-type plants when inoculated with AM fungi. These results in combination with subcellular localisation of GmSWEET6 to peri-arbuscular membranes strongly suggest that GmSWEET6 is required for AM symbiosis by mediating sucrose efflux towards fungi.
在丛枝菌根(AM)共生中,根皮层细胞中的糖可以作为葡萄糖或蔗糖输出到丛枝菌根周围空间,以供 AM 真菌使用。然而,目前尚未鉴定出参与蔗糖输出的糖转运蛋白。在大豆中,功能上表征了一种 AM 诱导的 SWEET 转运蛋白 GmSWEET6,并通过转基因植物研究了其在 AM 共生中的作用。接种合作真菌菌株可增强 GmSWEET6 在叶片和根部的表达。在酵母突变体中的异源表达表明,GmSWEET6 主要运输蔗糖。过表达 GmSWEET6 的转基因植物增加了根分泌物中的蔗糖浓度。在非菌根植物中,过表达或敲低 GmSWEET6 会降低植物干重、磷含量和糖浓度,但在菌根植物中部分得到恢复。有趣的是,与野生型植物相比,过表达 GmSWEET6 增加了根磷含量,并降低了降解丛枝的比例,而在 RNAi2 植物中敲低 GmSWEET6 增加了根糖浓度,在 RNAi1 植物中增加了降解丛枝的比例,当接种 AM 真菌时。这些结果与 GmSWEET6 定位于丛枝周围膜的亚细胞定位相结合,强烈表明 GmSWEET6 通过介导蔗糖向真菌的外排作用,是 AM 共生所必需的。
