H<sub>2</sub>S works synergistically with rhizobia to modify photosynthetic carbon assimilation and metabolism in nitrogen‐deficient soybeans
Ni‐Na Zhang, Bokai Suo, Linlin Yao, Yu‐Xin Ding, Jianhua Zhang, Gehong Wei, Zhouping Shangguan, Juan Chen
Abstract
Abstract Hydrogen sulfide (H 2 S) performs a crucial role in plant development and abiotic stress responses by interacting with other signalling molecules. However, the synergistic involvement of H 2 S and rhizobia in photosynthetic carbon (C) metabolism in soybean ( Glycine max ) under nitrogen (N) deficiency has been largely overlooked. Therefore, we scrutinised how H 2 S drives photosynthetic C fixation, utilisation, and accumulation in soybean‐rhizobia symbiotic systems. When soybeans encountered N deficiency, organ growth, grain output, and nodule N‐fixation performance were considerably improved owing to H 2 S and rhizobia. Furthermore, H 2 S collaborated with rhizobia to actively govern assimilation product generation and transport, modulating C allocation, utilisation, and accumulation. Additionally, H 2 S and rhizobia profoundly affected critical enzyme activities and coding gene expressions implicated in C fixation, transport, and metabolism. Furthermore, we observed substantial effects of H 2 S and rhizobia on primary metabolism and C–N coupled metabolic networks in essential organs via C metabolic regulation. Consequently, H 2 S synergy with rhizobia inspired complex primary metabolism and C–N coupled metabolic pathways by directing the expression of key enzymes and related coding genes involved in C metabolism, stimulating effective C fixation, transport, and distribution, and ultimately improving N fixation, growth, and grain yield in soybeans.