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Structural basis of energy transfer in Porphyridium purpureum phycobilisome

Jianfei Ma, Xin You, Shan Sun, Xiaoxiao Wang, Song Qin and Sen-Fang Sui ()
Additional contact information
Jianfei Ma: Tsinghua University
Xin You: Tsinghua University
Shan Sun: Tsinghua University
Xiaoxiao Wang: Chinese Academy of Sciences
Song Qin: Chinese Academy of Sciences
Sen-Fang Sui: Tsinghua University

Nature, 2020, vol. 579, issue 7797, 146-151

Abstract: Abstract Photosynthetic organisms have developed various light-harvesting systems to adapt to their environments1. Phycobilisomes are large light-harvesting protein complexes found in cyanobacteria and red algae2–4, although how the energies of the chromophores within these complexes are modulated by their environment is unclear. Here we report the cryo-electron microscopy structure of a 14.7-megadalton phycobilisome with a hemiellipsoidal shape from the red alga Porphyridium purpureum. Within this complex we determine the structures of 706 protein subunits, including 528 phycoerythrin, 72 phycocyanin, 46 allophycocyanin and 60 linker proteins. In addition, 1,598 chromophores are resolved comprising 1,430 phycoerythrobilin, 48 phycourobilin and 120 phycocyanobilin molecules. The markedly improved resolution of our structure compared with that of the phycobilisome of Griffithsia pacifica5 enabled us to build an accurate atomic model of the P. purpureum phycobilisome system. The model reveals how the linker proteins affect the microenvironment of the chromophores, and suggests that interactions of the aromatic amino acids of the linker proteins with the chromophores may be a key factor in fine-tuning the energy states of the chromophores to ensure the efficient unidirectional transfer of energy.

Date: 2020
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DOI: 10.1038/s41586-020-2020-7

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