具有较少大型叶绿体的拟南芥弧形突变体的叶肉导度较低。

The arc mutants of Arabidopsis with fewer large chloroplasts have a lower mesophyll conductance.

作者信息

Weise Sean E, Carr David J, Bourke Ashley M, Hanson David T, Swarthout Debbie, Sharkey Thomas D

机构信息

Department of Biochemistry & Molecular Biology, Michigan State University, 603 Wilson Road, Room 201, East Lansing, MI, 48824, USA.

出版信息

Photosynth Res. 2015 Apr;124(1):117-26. doi: 10.1007/s11120-015-0110-4. Epub 2015 Mar 3.

DOI:10.1007/s11120-015-0110-4

PMID:25733184

Abstract

Photosynthetic cells of most land plant lineages have numerous small chloroplasts even though most algae, and even the early diverging land plant group the hornworts, tend to have one or a few large chloroplasts. One constraint that small chloroplasts could improve is the resistance to CO2 diffusion from the atmosphere to the chloroplast stroma. We examined the mesophyll conductance (inverse of the diffusion resistance) of mutant Arabidopsis thaliana plants with one or only a few large chloroplasts per cell. The accumulation and replication of chloroplasts (arc) mutants of A. thaliana were studied by model fitting to gas exchange data and (13)CO2 discrimination during carbon fixation. The two methods generally agreed, but the value of the CO2 compensation point of Rubisco (Γ *) used in the model had a large impact on the estimated photosynthetic parameters, including mesophyll conductance. We found that having only a few large chloroplasts per cell resulted in a 25-50 % reduction in the mesophyll conductance at ambient CO2.

摘要

大多数陆地植物谱系的光合细胞都有许多小叶绿体，尽管大多数藻类，甚至早期分化的陆地植物类群角苔，往往有一个或几个大叶绿体。小叶绿体可能改善的一个限制因素是从大气到叶绿体基质的二氧化碳扩散阻力。我们检测了每个细胞有一个或只有几个大叶绿体的拟南芥突变体植株的叶肉导度（扩散阻力的倒数）。通过对气体交换数据和碳固定过程中(13)CO2 分馏进行模型拟合，研究了拟南芥叶绿体积累和复制(arc)突变体。这两种方法总体上是一致的，但模型中使用的 Rubisco 的 CO2 补偿点(Γ *)值对包括叶肉导度在内的光合参数估计有很大影响。我们发现，每个细胞只有几个大叶绿体导致在环境 CO2 浓度下叶肉导度降低 25%-50%。

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具有较少大型叶绿体的拟南芥弧形突变体的叶肉导度较低。

The arc mutants of Arabidopsis with fewer large chloroplasts have a lower mesophyll conductance.

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