2020
DOI: 10.1111/febs.15183
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Structural features of the diatom photosystem II–light‐harvesting antenna complex

Abstract: In photosynthesis, light energy is captured by pigments bound to light-harvesting antenna proteins (LHC) that then transfer the energy to the photosystem (PS) cores to initiate photochemical reactions. The LHC proteins surround the PS cores to form PS-LHC supercomplexes. In order to adapt to a wide range of light environments, photosynthetic organisms have developed a large variety of pigments and antenna proteins to utilize the light energy efficiently under different environments. Diatoms are a group of impo… Show more

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Cited by 31 publications
(30 citation statements)
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References 34 publications
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“…The absence of Lhcf11 is most probably explained by the fact that in the present protein separations by SDS-PAGE a minor 18 kDa FCP band was not resolved. The presence of Lhcf4 in the 18 kDA band of Fraction 2, which seems to be enriched in PSII, is in line with the recent isolation of a PSII-FCP supercomplex of C. gracilis [35]. Based on the structural data it was proposed that the FCP-E monomer, which is rather tightly associated with the PSII core complex and mediates the interaction of one of the FCP-A tetramers with the core, represents an Lhcf4-like subunit.…”
Section: Heterogeneity Of Fcpssupporting
confidence: 74%
See 1 more Smart Citation
“…The absence of Lhcf11 is most probably explained by the fact that in the present protein separations by SDS-PAGE a minor 18 kDa FCP band was not resolved. The presence of Lhcf4 in the 18 kDA band of Fraction 2, which seems to be enriched in PSII, is in line with the recent isolation of a PSII-FCP supercomplex of C. gracilis [35]. Based on the structural data it was proposed that the FCP-E monomer, which is rather tightly associated with the PSII core complex and mediates the interaction of one of the FCP-A tetramers with the core, represents an Lhcf4-like subunit.…”
Section: Heterogeneity Of Fcpssupporting
confidence: 74%
“…With respect to the concept of the FCP trimer as the basic unit of diatom antenna proteins, this idea was recently challenged by the first detailed cryo-electron microscopic and X-ray crystallography studies on diatom pigmentprotein complexes. Using cryo-electron microscopy Wang et al [35] resolved a PSII-antenna supercomplex from the centric diatom Chaetoceros gracilis and reported a tetrameric organization of FCP proteins in the vicinity of PSII. With regard to the molecular structure and stoichiometric organization of individual FCP proteins, x-ray crystallography data of the Lhcf3 and Lhcf4 proteins from P. tricornutum at 1.8 Å reveal a dimeric organization [34].…”
Section: Introductionmentioning
confidence: 99%
“…As is well known, the composition and structure of the thylakoid membrane of diatoms differ substantially from those of green and other algal classes [12,19,[59][60][61]. In diatoms, fucoxanthin plays a more active role than that played by the xanthophylls in the green algae [11], with fucoxanthin being the major contributor to the fucoxanthin protein complexes (FPC), along with chlorophyll a.…”
Section: Discussionmentioning
confidence: 99%
“…This is to say, different mechanistic architectures may accomplish similar functions using diverse routes, even within the same algal class [11]. An important role for lipid molecules has been acknowledged with regard to the stabilization of and interaction between the protein complexes of the photosystems, with apparently specific roles for each glycerolipid class [7,12]. Thus, it is acknowledged, at present, that the membrane composition influences the dynamic physicochemical properties of the lipid bilayer, which ultimately determines the optimal photosynthetic protein organization in different organisms, according to their particular requirements [8,13].…”
Section: Introductionmentioning
confidence: 99%
“…The efficiency of this energy transfer varies depending on the carotenoid and chlorophyll compositions in the LHC. In addition to LHC, fucoxanthinchlorophyll a/c binding proteins (FCP) in diatoms [50,51] and the peridinin-chlorophyll a protein complex (PCP) in dinoflagellates [52,53] also act as light-harvesting complexes binding specific carotenoids.…”
Section: Carotenoid Functions 231 Light Harvestingmentioning
confidence: 99%