Structural variability, coordination and adaptation of a native photosynthetic machinery

Long-Sheng Zhao^{1

2

3

4}, Tuomas Huokko², Sam Wilson⁵, Deborah M Simpson², Qiang Wang⁶, Alexander V Ruban⁵, Conrad W Mullineaux⁵, Yu-Zhong Zhang^{7

8

9}, Lu-Ning Liu^{10

11}

Affiliations

¹ State Key Laboratory of Microbial Technology, and Marine Biotechnology Research Center, Shandong University, Qingdao, China.
² Institute of Integrative Biology, University of Liverpool, Liverpool, UK.
³ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China.
⁴ Laboratory for Marine Biology and Biotechnology, Pilot National Laboratory for Marine Science and Technology, Qingdao, China.
⁵ School of Biological and Chemical Sciences, Queen Mary University of London, London, UK.
⁶ State Key Laboratory of Crop Stress Adaptation and Improvement, School of Life Sciences, Henan University, Kaifeng, China.
⁷ State Key Laboratory of Microbial Technology, and Marine Biotechnology Research Center, Shandong University, Qingdao, China. zhangyz@sdu.edu.cn.
⁸ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China. zhangyz@sdu.edu.cn.
⁹ Laboratory for Marine Biology and Biotechnology, Pilot National Laboratory for Marine Science and Technology, Qingdao, China. zhangyz@sdu.edu.cn.
¹⁰ Institute of Integrative Biology, University of Liverpool, Liverpool, UK. luning.liu@liverpool.ac.uk.
¹¹ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China. luning.liu@liverpool.ac.uk.

PMID: 32665651
DOI: 10.1038/s41477-020-0694-3

Structural variability, coordination and adaptation of a native photosynthetic machinery

Long-Sheng Zhao et al. Nat Plants. 2020 Jul.

. 2020 Jul;6(7):869-882.

doi: 10.1038/s41477-020-0694-3. Epub 2020 Jul 13.

Authors

Long-Sheng Zhao^{1

2

3

4}, Tuomas Huokko², Sam Wilson⁵, Deborah M Simpson², Qiang Wang⁶, Alexander V Ruban⁵, Conrad W Mullineaux⁵, Yu-Zhong Zhang^{7

8

9}, Lu-Ning Liu^{10

11}

Affiliations

¹ State Key Laboratory of Microbial Technology, and Marine Biotechnology Research Center, Shandong University, Qingdao, China.
² Institute of Integrative Biology, University of Liverpool, Liverpool, UK.
³ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China.
⁴ Laboratory for Marine Biology and Biotechnology, Pilot National Laboratory for Marine Science and Technology, Qingdao, China.
⁵ School of Biological and Chemical Sciences, Queen Mary University of London, London, UK.
⁶ State Key Laboratory of Crop Stress Adaptation and Improvement, School of Life Sciences, Henan University, Kaifeng, China.
⁷ State Key Laboratory of Microbial Technology, and Marine Biotechnology Research Center, Shandong University, Qingdao, China. zhangyz@sdu.edu.cn.
⁸ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China. zhangyz@sdu.edu.cn.
⁹ Laboratory for Marine Biology and Biotechnology, Pilot National Laboratory for Marine Science and Technology, Qingdao, China. zhangyz@sdu.edu.cn.
¹⁰ Institute of Integrative Biology, University of Liverpool, Liverpool, UK. luning.liu@liverpool.ac.uk.
¹¹ College of Marine Life Sciences and Frontiers Science Center for Deep Ocean Multispheres and Earth System, Ocean University of China, Qingdao, China. luning.liu@liverpool.ac.uk.

PMID: 32665651
DOI: 10.1038/s41477-020-0694-3

Abstract

Cyanobacterial thylakoid membranes represent the active sites for both photosynthetic and respiratory electron transport. We used high-resolution atomic force microscopy to visualize the native organization and interactions of photosynthetic complexes within the thylakoid membranes from the model cyanobacterium Synechococcus elongatus PCC 7942. The thylakoid membranes are heterogeneous and assemble photosynthetic complexes into functional domains to enhance their coordination and regulation. Under high light, the chlorophyll-binding proteins IsiA are strongly expressed and associate with Photosystem I (PSI), forming highly variable IsiA-PSI supercomplexes to increase the absorption cross-section of PSI. There are also tight interactions of PSI with Photosystem II (PSII), cytochrome b₆f, ATP synthase and NAD(P)H dehydrogenase complexes. The organizational variability of these photosynthetic supercomplexes permits efficient linear and cyclic electron transport as well as bioenergetic regulation. Understanding the organizational landscape and environmental adaptation of cyanobacterial thylakoid membranes may help inform strategies for engineering efficient photosynthetic systems and photo-biofactories.

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References

1. Liu, L. N. Distribution and dynamics of electron transport complexes in cyanobacterial thylakoid membranes. Biochim. Biophys. Acta 1857, 256–265 (2016). - PubMed - PMC - DOI
1. Vermaas, W. F. in Encyclopedia of Life Sciences 245–251 (Nature Publishing Group, 2001).
1. Mullineaux, C. W. Co-existence of photosynthetic and respiratory activities in cyanobacterial thylakoid membranes. Biochim. Biophys. Acta 1837, 503–511 (2014). - PubMed - DOI
1. Saer, R. G. & Blankenship, R. E. Light harvesting in phototrophic bacteria: structure and function. Biochem. J. 474, 2107–2131 (2017). - PubMed - DOI
1. Chen, H.-Y. S., Bandyopadhyay, A. & Pakrasi, H. B. Function, regulation and distribution of IsiA, a membrane-bound chlorophyll a-antenna protein in cyanobacteria. Photosynthetica 56, 322–333 (2018). - DOI

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Structural variability, coordination and adaptation of a native photosynthetic machinery

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Structural variability, coordination and adaptation of a native photosynthetic machinery

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Abstract

References

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LinkOut - more resources

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