Potential importance of malate diffusion in the response of maize photosynthesis to heterogeneous light

It is well known that the photosynthetic performance of a leaf is highly dependent on the systemic regulation from distal parts within a plant under light heterogeneity. However, there are few studies focusing on C-4-specific processes. In the present study, two cultivars of maize (Zea mays L.), 'Rongyu 1210' (RY) and 'Zhongdan 808' (ZD), were treated with heterogeneous light (HL). The net photosynthetic rate (Pn) of newly developed leaves was found to increase in HL-treated RY, while it decreased in HL-treated ZD. Result also showed a negative correlation between the Pn and the content of malate, a key metabolite in C-4 photosynthesis, in these two cultivars. In HL-treated ZD, malate content increased with a decline in the abundance of NADP-malic enzyme (EC 1.1.1.40), suggesting that less malate was decarboxylated. Moreover, a restriction of malate diffusion is proposed in HL-treated ZD, since the interface length between mesophyll cells (MC) and bundle sheath cells (BSC) decreased. In contrast, malate diffusion and subsequent decarboxylation in HL-treated RY should be stimulated, due to an increase in the abundance of NADP-malate dehydrogenase (EC 1.1.1.82) and a decline in the content of malate. In this case, malate diffusion from MC to BSC should be systemically stimulated, thereby facilitating C-4 photosynthesis of a maize leaf in heterogeneous light. While if it is systemically restricted, C-4 photosynthesis would be suppressed.

Automated summary

Under heterogeneous light conditions, the photosynthetic performance of maize leaves is influenced by different cultivars and treatments, with malate and NADP-malic enzyme playing crucial roles in C-4 photosynthesis. The diffusion and decarboxylation of malate are key factors affecting photosynthetic efficiency in maize leaves.