在三项系统发育控制实验中，光合诱导期间CO同化的激活在C植物中比在C植物中更慢。

Activation of CO assimilation during photosynthetic induction is slower in C than in C photosynthesis in three phylogenetically controlled experiments.

作者信息

Arce Cubas Lucía, Vath Richard L, Bernardo Emmanuel L, Sales Cristina Rodrigues Gabriel, Burnett Angela C, Kromdijk Johannes

机构信息

The University of Cambridge, Department of Plant Sciences, Cambridge, United Kingdom.

University of the Philippines Los Baños, Institute of Crop Science, College of Agriculture and Food Science, College, Laguna, Philippines.

出版信息

Front Plant Sci. 2023 Jan 4;13:1091115. doi: 10.3389/fpls.2022.1091115. eCollection 2022.

DOI:10.3389/fpls.2022.1091115

PMID:36684779

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9848656/

Abstract

INTRODUCTION

Despite their importance for the global carbon cycle and crop production, species with C photosynthesis are still somewhat understudied relative to C species. Although the benefits of the C carbon concentrating mechanism are readily observable under optimal steady state conditions, it is less clear how the presence of C affects activation of CO assimilation during photosynthetic induction.

METHODS

In this study we aimed to characterise differences between C and C photosynthetic induction responses by analysing steady state photosynthesis and photosynthetic induction in three phylogenetically linked pairs of C and C species from , , and genera. Experiments were conducted both at 21% and 2% O to evaluate the role of photorespiration during photosynthetic induction.

RESULTS

Our results confirm C species have slower activation of CO assimilation during photosynthetic induction than C species, but the apparent mechanism behind these differences varied between genera. Incomplete suppression of photorespiration was found to impact photosynthetic induction significantly in C , whereas in the and C species, delayed activation of the C cycle appeared to limit induction and a potentially supporting role for photorespiration was also identified.

DISCUSSION

The sheer variation in photosynthetic induction responses observed in our limited sample of species highlights the importance of controlling for evolutionary distance when comparing C and C photosynthetic pathways.

摘要

引言

尽管C4光合作用物种对全球碳循环和作物生产至关重要，但相对于C3物种，它们仍未得到充分研究。虽然在最佳稳态条件下，C4碳浓缩机制的益处很容易观察到，但C4的存在如何影响光合诱导期间CO2同化的激活尚不清楚。

方法

在本研究中，我们旨在通过分析来自苋属、藜属和黍属的三对系统发育相关的C4和C3物种的稳态光合作用和光合诱导，来表征C4和C3光合诱导反应之间的差异。实验在21%和2% O2条件下进行，以评估光呼吸在光合诱导过程中的作用。

结果

我们的结果证实，C4物种在光合诱导期间CO2同化的激活比C3物种慢，但这些差异背后的明显机制在不同属之间有所不同。发现光呼吸的不完全抑制对C4苋属物种的光合诱导有显著影响，而在藜属和黍属C4物种中，C4循环的延迟激活似乎限制了诱导，并且还确定了光呼吸的潜在支持作用。

讨论

在我们有限的物种样本中观察到的光合诱导反应的巨大差异突出了在比较C4和C3光合途径时控制进化距离的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/90ef/9848656/c77dc0ccb0ac/fpls-13-1091115-g001.jpg

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在三项系统发育控制实验中，光合诱导期间CO同化的激活在C植物中比在C植物中更慢。

Activation of CO assimilation during photosynthetic induction is slower in C than in C photosynthesis in three phylogenetically controlled experiments.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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