Rho GTPase overexpression impacts leaf internal architecture and mesophyll conductance in Arabidopsis
Isabella Østerlund, Silas Ørting, Alistair Leverett, Guillaume Théroux‐Rancourt, Samira Ebrahimi, Yang Wang, Zoran Nikoloski, Johannes Kromdijk, Staffan Persson

TL;DR
This study shows how overexpression of Rho GTPase in Arabidopsis changes leaf structure and reduces CO2 diffusion, impacting photosynthesis.
Contribution
The study reveals a novel mechanistic link between Rho GTPase activity, leaf architecture, and mesophyll conductance in Arabidopsis.
Findings
Changes in ROP-GTPase activity disrupt leaf air space networks and increase tortuosity.
Altered ROP-GTPase activity leads to reduced mesophyll conductance.
Leaf cell architecture changes affect photosynthesis-related traits through CO2 diffusion.
Abstract
Leaves are built from multiple cell types and are structured to enable the conversion of carbon dioxide and water into sugars in the process of photosynthesis. Understanding how cell architecture impacts the movement of CO2 within leaves may provide means to improve photosynthesis. Here, we examined the impact of mesophyll cell architecture on air networks and air permeability by employing high‐resolution tomography data in leaves of Arabidopsis thaliana wild‐type plants and in plants with altered Rho of Plant (ROP)‐GTPase‐related activities.We employed high‐resolution tomography to characterise leaf cell architecture and associated air space networks. The image data were segmented and analysed using machine learning, and combined with leaf gas exchange measurements to evaluate photosynthesis‐related traits.We found that changes in the ROP‐GTPase pathway substantially altered the leaf…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Plant responses to elevated CO2 · Photosynthetic Processes and Mechanisms
