Marine Diatoms Demonstrate High Plasticity in Adapting to Fluctuating Light Conditions

Cultivation of marine diatoms in the laboratory is under constant light condition, but the light environment in the field is not constant but mainly fluctuating, which leads to significant differences between the growth in indoor culture and that in the field.  

Actually, marine diatoms have a strong adaptability to the environment and generally dominate in upwelling and turbulence systems. These environments are unstable, in which light intensity changes dramatically. Diatoms need to respond quickly to the fluctuating light environment to maintain their growth.  

Recently, the research team led by Prof. WANG Guangce from the Institute of Oceanology of the Chinese Academy of Sciences (IOCAS) reported the molecular mechanism of marine diatoms in response to fluctuating light conditions.  

The study was published in Plant Physiology on Sept. 23. 

Based on gene editing, multiomics and 13C metabolic flux analysis, researchers comprehensively used the methods involving bioinformatics, molecular biology, biochemistry and physiology to reveal the molecular mechanism of marine diatoms responding to fluctuating light.  

Researchers found that marine diatoms can use fluctuating light stably and efficiently in comparison with dinoflagellates. Proton Gradient Regulation proteins (PGRL1 and PGR5) in the photosynthetic thylakoid membrane of marine diatoms are extremely sensitive to the fluctuating light (this feature is obviously different from that of land plants and freshwater algae), and both play important roles in marine diatoms responding to fluctuating light environment.

Moreover, the excessive accumulation of PGRL1 inhibits the efficiency of photosystem II (PSII) under fluctuating light. This important discovery has changed the traditional perception that PGRL1 just plays a protection role around photosystem I (PSI).  

"In addition, the study also found that the carbon fixation capacity and lipid accumulation of marine diatoms increased under severe fluctuating light condition," said ZHOU Lu and GAO Shan, first authors of the study.  

"The above research results will not only help us to fully understand the biological characteristics of marine diatoms, but also provide new insights into high light efficiency breeding and lipid yield improvement of economic diatoms in the future," said Prof. WANG. 

This study was supported by the National Natural Science Foundation of China, etc.  

Acclimation of marine diatoms to fluctuating light conditions 

Zhou Lu#, Gao Shan#, Yang Wenting, Wu Songcui, Huan Li, Xie Xiujun, Wang Xulei, Lin Senjie*, Wang Guangce*. (2022). Transcriptomic and metabolic signatures of diatom plasticity to light fluctuations. Plant Physiology. 

(Text by GAO Shan) 

Media Contact: 

ZHANG Yiyi 

Institute of Oceanology 

E-mail: zhangyiyi@qdio.ac.cn 

(Editor: ZHANG Yiyi) 

Appendix: