Variety in excitation energy transfer processes from phycobilisomes to photosystems I and II

The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photo...

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Published in	Photosynthesis Research Vol. 133; no. 1-3; pp. 235 - 243
Main Authors	Ueno, Yoshifumi, Aikawa, Shimpei, Niwa, Kyosuke, Abe, Tomoko, Murakami, Akio, Kondo, Akihiko, Akimoto, Seiji
Format	Journal Article
Language	English
Published	Dordrecht Springer Science and Business Media LLC 01.09.2017 Springer Netherlands Springer Springer Nature B.V
Subjects	Algae Antennas (Electronics) Arthrospira platensis autotrophs Biochemistry Biomedical and Life Sciences Chlorophyll Cyanobacteria Cyanobacteria - metabolism energy flow Energy Transfer Fluorescence Kinetics Life Sciences Light Monomers Original Article Photosynthesis Photosystem I Photosystem I Protein Complex Photosystem I Protein Complex - metabolism Photosystem II Photosystem II Protein Complex Photosystem II Protein Complex - metabolism phycobilisome Phycobilisomes Phycobilisomes - metabolism Plant Genetics and Genomics Plant Physiology Plant Sciences Pyropia yezoensis Reaction centers Rhodophyta Rhodophyta - metabolism Spectrometry, Fluorescence Synechococcus Time Factors Photosystem Delayed fluorescence Energy transfer Phycobilisome Cyanobacteria Red algae
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Abstract	The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis , we demonstrated that energy transfer from PBS to PSI via PSII (PBS→PSII→PSI transfer) occurs even for PSI trimers. The contribution of PBS→PSII→PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis ) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS–PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS→PSI transfer) and indirect transfer through PSII (PBS→PSII→PSI transfer). We also infer that PBS→PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS→PSII→PSI transfer.
AbstractList	The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis, we demonstrated that energy transfer from PBS to PSI via PSII (PBS[right arrow]PSII[right arrow]PSI transfer) occurs even for PSI trimers. The contribution of PBS[right arrow]PSII[right arrow]PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS-PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS[right arrow]PSI transfer) and indirect transfer through PSII (PBS[right arrow]PSII[right arrow]PSI transfer). We also infer that PBS[right arrow]PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS[right arrow]PSII[right arrow]PSI transfer. The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis, we demonstrated that energy transfer from PBS to PSI via PSII (PBS→PSII→PSI transfer) occurs even for PSI trimers. The contribution of PBS→PSII→PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS-PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS→PSI transfer) and indirect transfer through PSII (PBS→PSII→PSI transfer). We also infer that PBS→PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS→PSII→PSI transfer.The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis, we demonstrated that energy transfer from PBS to PSI via PSII (PBS→PSII→PSI transfer) occurs even for PSI trimers. The contribution of PBS→PSII→PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS-PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS→PSI transfer) and indirect transfer through PSII (PBS→PSII→PSI transfer). We also infer that PBS→PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS→PSII→PSI transfer. The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis, we demonstrated that energy transfer from PBS to PSI via PSII (PBS[rarr]PSII[rarr]PSI transfer) occurs even for PSI trimers. The contribution of PBS[rarr]PSII[rarr]PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS-PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS[rarr]PSI transfer) and indirect transfer through PSII (PBS[rarr]PSII[rarr]PSI transfer). We also infer that PBS[rarr]PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS[rarr]PSII[rarr]PSI transfer. The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis , we demonstrated that energy transfer from PBS to PSI via PSII (PBS→PSII→PSI transfer) occurs even for PSI trimers. The contribution of PBS→PSII→PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis ) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS–PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS→PSI transfer) and indirect transfer through PSII (PBS→PSII→PSI transfer). We also infer that PBS→PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS→PSII→PSI transfer. The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The light-harvesting antennas of cyanobacteria and red algae, called phycobilisomes (PBSs), supply light energy to both photosystem I (PSI) and photosystem II (PSII). However, the excitation energy transfer processes from PBS to PSI and PSII are not understood in detail. In the present study, the energy transfer processes from PBS to PSs in various cyanobacteria and red algae were examined in vivo by selectively exciting their PSs or PBSs, and measuring the resulting picosecond to nanosecond time-resolved fluorescences. By observing the delayed fluorescence spectrum of PBS-selective excitation in Arthrospira platensis, we demonstrated that energy transfer from PBS to PSI via PSII (PBS→PSII→PSI transfer) occurs even for PSI trimers. The contribution of PBS→PSII→PSI transfer was species dependent, being largest in the wild-type of red alga Pyropia yezoensis (formerly Porphyra yezoensis) and smallest in Synechococcus sp. PCC 7002. Comparing the time-resolved fluorescence after PSs- and PBS-selective excitation, we revealed that light energy flows from CP43 to CP47 by energy transfer between the neighboring PSII monomers in PBS-PSII supercomplexes. We also suggest two pathways of energy transfer: direct energy transfer from PBS to PSI (PBS→PSI transfer) and indirect transfer through PSII (PBS→PSII→PSI transfer). We also infer that PBS→PSI transfer conveys light energy to a lower-energy red chlorophyll than PBS→PSII→PSI transfer.
Audience	Academic
Author	Akihiko Kondo Akio Murakami Yoshifumi Ueno Shimpei Aikawa Seiji Akimoto Kyosuke Niwa Tomoko Abe
Author_xml	– sequence: 1 givenname: Yoshifumi surname: Ueno fullname: Ueno, Yoshifumi organization: Graduate School of Science, Kobe University – sequence: 2 givenname: Shimpei surname: Aikawa fullname: Aikawa, Shimpei organization: Graduate School of Engineering, Kobe University – sequence: 3 givenname: Kyosuke surname: Niwa fullname: Niwa, Kyosuke organization: Fisheries Technology Institute, Hyogo Prefectural Technology Center for Agriculture, Forestry and Fisheries – sequence: 4 givenname: Tomoko surname: Abe fullname: Abe, Tomoko organization: RIKEN Nishina Center for Accelerator-Based Science – sequence: 5 givenname: Akio surname: Murakami fullname: Murakami, Akio organization: Graduate School of Science, Kobe University, Kobe University Research Center for Inland Seas – sequence: 6 givenname: Akihiko surname: Kondo fullname: Kondo, Akihiko organization: Graduate School of Engineering, Kobe University – sequence: 7 givenname: Seiji surname: Akimoto fullname: Akimoto, Seiji email: akimoto@hawk.kobe-u.ac.jp organization: Graduate School of Science, Kobe University, Molecular Photoscience Research Center, Kobe University
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Snippet	The light-harvesting antennas of oxygenic photosynthetic organisms capture light energy and transfer it to the reaction centers of their photosystems. The...
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SubjectTerms	Algae Antennas (Electronics) Arthrospira platensis autotrophs Biochemistry Biomedical and Life Sciences Chlorophyll Cyanobacteria Cyanobacteria - metabolism energy flow Energy Transfer Fluorescence Kinetics Life Sciences Light Monomers Original Article Photosynthesis Photosystem I Photosystem I Protein Complex Photosystem I Protein Complex - metabolism Photosystem II Photosystem II Protein Complex Photosystem II Protein Complex - metabolism phycobilisome Phycobilisomes Phycobilisomes - metabolism Plant Genetics and Genomics Plant Physiology Plant Sciences Pyropia yezoensis Reaction centers Rhodophyta Rhodophyta - metabolism Spectrometry, Fluorescence Synechococcus Time Factors
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Title	Variety in excitation energy transfer processes from phycobilisomes to photosystems I and II
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