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苹果酸扩散在玉米光合作用对非均一光响应中的潜在重要性。

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

机构信息

College of Agronomy, Sichuan Agricultural University, Chengdu, China; Key Laboratory of Crop Eco-physiology and Farming System in Southwest China, Ministry of Agriculture, Chengdu, China.

College of Agronomy, Sichuan Agricultural University, Chengdu, China.

出版信息

Plant Physiol Biochem. 2021 May;162:69-73. doi: 10.1016/j.plaphy.2021.02.037. Epub 2021 Feb 27.

DOI:10.1016/j.plaphy.2021.02.037
PMID:33667968
Abstract

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-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 (P) 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 P and the content of malate, a key metabolite in C 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 photosynthesis of a maize leaf in heterogeneous light. While if it is systemically restricted, C photosynthesis would be suppressed.

摘要

众所周知,叶片的光合作用性能高度依赖于植物在光异质性下从远处部位进行的系统调节。然而,很少有研究关注 C 特异性过程。在本研究中,使用非均匀光(HL)处理了两个玉米(Zea mays L.)品种,'Rongyu 1210'(RY)和'Zhongdan 808'(ZD)。结果表明,新发育叶片的净光合速率(P)在 HL 处理的 RY 中增加,而在 HL 处理的 ZD 中降低。结果还显示,在这两个品种中,P 与 C 光合作用关键代谢物苹果酸的含量之间呈负相关。在 HL 处理的 ZD 中,苹果酸含量增加,同时 NADP-苹果酸酶(EC 1.1.1.40)的丰度下降,表明苹果酸脱羧作用减少。此外,HL 处理的 ZD 中苹果酸扩散受到限制,因为叶肉细胞(MC)和束鞘细胞(BSC)之间的界面长度减小。相反,HL 处理的 RY 中苹果酸扩散和随后的脱羧作用应该受到刺激,因为 NADP-苹果酸脱氢酶(EC 1.1.1.82)的丰度增加,苹果酸的含量下降。在这种情况下,苹果酸从 MC 到 BSC 的扩散应该受到系统性刺激,从而促进玉米叶片在非均匀光下的 C 光合作用。而如果受到系统性限制,则会抑制 C 光合作用。

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