Cell wall thickness spectrum of photosynthetic cells in herbaceous C3, C4, and crassulacean acid metabolism plants

Higher plants are divided into three major photosynthetic groups known as C3, C4, and crassulacean acid metabolism (CAM) plants. It is considered that cell wall thickness (TCW) affects diffusion and leakiness of CO2 within leaves, but it is unclear whether TCW of photosynthetic cells differs among these groups. This study investigated TCW of photosynthetic cells in herbaceous C3, C4, and CAM species under an electron microscope. Among 75 species of monocots and eudicots grown in a growth chamber in the same environment, the TCW of mesophyll cells (MCs) was much higher in CAM species than in C3 and C4 species. However, when TCW was compared between C3 and C4 species of grasses and eudicots, TCW of MCs tended to be lower in C4 species than in C3 species; the opposite trend was observed for TCW of bundle sheath cells (BSCs). TCW of MCs and BSCs almost did not differ among the C4 decarboxylation types (NADP-ME, NAD-ME, and PCK). In plants grown outdoors (51 species), similar trends of TCW were also found among photosynthetic groups, but their TCW was generally higher than that of growth-chamber plants. This study provides the TCW spectrum of photosynthetic cells in herbaceous C3, C4, and CAM species. The results obtained would be valuable for our understanding of the diffusion and leakage of CO2 in the leaves of different photosynthetic groups.Higher plants are divided into three major photosynthetic groups known as C3, C4, and crassulacean acid metabolism (CAM) plants. It is considered that cell wall thickness (TCW) affects diffusion and leakiness of CO2 within leaves, but it is unclear whether TCW of photosynthetic cells differs among these groups. This study investigated TCW of photosynthetic cells in herbaceous C3, C4, and CAM species under an electron microscope. Among 75 species of monocots and eudicots grown in a growth chamber in the same environment, the TCW of mesophyll cells (MCs) was much higher in CAM species than in C3 and C4 species. However, when TCW was compared between C3 and C4 species of grasses and eudicots, TCW of MCs tended to be lower in C4 species than in C3 species; the opposite trend was observed for TCW of bundle sheath cells (BSCs). TCW of MCs and BSCs almost did not differ among the C4 decarboxylation types (NADP-ME, NAD-ME, and PCK). In plants grown outdoors (51 species), similar trends of TCW were also found among photosynthetic groups, but their TCW was generally higher than that of growth-chamber plants. This study provides th