Prolonged light exposure time enhances the photosynthetic investment in osmotrophic Ochromonas
Xiaoqing Xu, Xiaoyu Cheng, Zhihao Shao, Zhou Yang, Lu Zhang

TL;DR
This study shows how the mixotrophic protist Ochromonas adjusts its metabolism in response to changes in light exposure, shifting between autotrophic and osmotrophic strategies.
Contribution
The study reveals new insights into how mixotrophs dynamically regulate their metabolic pathways in response to photoperiod changes.
Findings
Prolonged light exposure reduces photosynthetic efficiency and increases heat dissipation in autotrophic Ochromonas.
Under osmotrophic conditions, Ochromonas reduces reliance on external carbon and enhances photosynthesis with longer light exposure.
The study provides a comprehensive understanding of mixotroph metabolic strategies in response to photoperiodic changes.
Abstract
The photoperiod, as a critical external environmental signal, triggers a cascade of signaling responses in organisms that significantly affect photosynthetic efficiency and photomorphogenesis in autotrophs, while also influencing behavioral patterns and activity rhythms of heterotrophs. Despite its importance, the mechanisms by which mixotrophs respond to photoperiod changes remain largely unexplored. It is crucial for understanding metabolic plasticity how mixotrophs respond to light availability and make optimal decisions during diurnal transitions by regulating their autotrophic and osmotrophic pathways. Therefore, this study focused on Ochromonas gloeopara, a eukaryotic protist capable of both photoautotrophic and osmotrophic growth, aiming to explore the metabolic strategies of mixotrophs in response to changes in photoperiod. The results showed the following. (i) Under autotrophic…
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Taxonomy
TopicsLight effects on plants · Photosynthetic Processes and Mechanisms · Plant Molecular Biology Research
