Topology and photoprotective role of carotenoids in photosystem II of chloroplast: a hypothesis

Nayak, Lalitendu; Raval, Mukesh Kumar; Biswal, Basanti; Biswal, U. C.

doi:10.1039/b200176b

Cited by 15 publications

(13 citation statements)

References 15 publications

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“…The molecular mechanism of enhanced resistance to photooxidation by Zea is not yet clear. The hypotheses include (1) draining excitation energy from the PS core by xanthophylls bound at the interface with Lhcbs; (2) quenching of 3 Chl* energy from RC, possibly by the Dexter exchange mechanism (Nayak et al, 2002) by Zea located in site L2 on specific Lhcs; and (3) preferential scavenging of 1 O 2 by Zea into site V1 of LHCII (Johnson et al, 2007). Although all of these mechanisms are plausible for explaining the higher photosensitivity of koLhcb4, their relative contribution needs further investigation.…”

Section: Consequences For Photoprotection: Resistance To Photooxidatimentioning

confidence: 99%

Arabidopsis Mutants Deleted in the Light-Harvesting Protein Lhcb4 Have a Disrupted Photosystem II Macrostructure and Are Defective in Photoprotection

et al. 2011

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The role of the light-harvesting complex Lhcb4 (CP29) in photosynthesis was investigated in Arabidopsis thaliana by characterizing knockout lines for each of the three Lhcb4 isoforms (Lhcb4.1/4.2/4.3). Plants lacking all isoforms (koLhcb4) showed a compensatory increase of Lhcb1 and a slightly reduced photosystem II/I ratio with respect to the wild type. The absence of Lhcb4 did not result in alteration in electron transport rates. However, the kinetic of state transition was faster in the mutant, and nonphotochemical quenching activity was lower in koLhcb4 plants with respect to either wild type or mutants retaining a single Lhcb4 isoform. KoLhcb4 plants were more sensitive to photoinhibition, while this effect was not observed in knockout lines for any other photosystem II antenna subunit. Ultrastructural analysis of thylakoid grana membranes showed a lower density of photosystem II complexes in koLhcb4. Moreover, analysis of isolated supercomplexes showed a different overall shape of the C 2 S 2 particles due to a different binding mode of the S-trimer to the core complex. An empty space was observed within the photosystem II supercomplex at the Lhcb4 position, implying that the missing Lhcb4 was not replaced by other Lhc subunits. This suggests that Lhcb4 is unique among photosystem II antenna proteins and determinant for photosystem II macro-organization and photoprotection.

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Section: Consequences For Photoprotection: Resistance To Photooxidatimentioning

confidence: 99%

Arabidopsis Mutants Deleted in the Light-Harvesting Protein Lhcb4 Have a Disrupted Photosystem II Macrostructure and Are Defective in Photoprotection

et al. 2011

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“…Both microalgae and vascular plants have evolved mechanisms for photoacclimation that enable them to tolerate the absorption of excess excitation energy (10,24,25,31,32). Acclimation mechanisms include, but are not limited to, changes in the composition of light-harvesting and/or reaction center pigment-protein complexes (4,6,7,38), dissipation of excess absorbed excitation energy as heat, and synthesis of enzymes with antioxidant function, such as superoxide dismutase (26,35), catalase (27,29,42), and peroxidases (11,16,40).…”

mentioning

confidence: 99%

Control of Photosynthetic and High-Light-Responsive Genes by the Histidine Kinase DspA: Negative and Positive Regulation and Interactions between Signal Transduction Pathways

Hsiao

Waasbergen

et al. 2004

J Bacteriol

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We have deleted a gene for a sensor histidine kinase, dspA (or hik33), in the cyanobacterium Synechocystis sp. strain PCC6803. In low and moderate light, the mutant grew slowly under photoautotrophic conditions, with a doubling time of ϳ40 h, and had severely reduced photosynthetic oxygen evolution. When the mutant was maintained in low or moderate light in the presence of glucose, its growth rate was only somewhat lower than that of wild-type cells. However, the mutant was light sensitive and rapidly died in high light. Furthermore, levels of many transcripts encoding genes associated with photosynthesis were altered in the mutant relative to wild-type Synechocystis sp. strain PCC6803 both in low light and following exposure to high light. There was constitutive expression of several high-light-inducible genes, including hli, psbAIII, and gpx2; there was little increased accumulation of sodB mRNA in high light; and the cells failed to accumulate cpcBA and psaAB mRNAs in low light in the presence of glucose, although a normal decline in the levels of these mRNAs was observed during exposure to high light. These results suggest that DspA is involved in controlling sets of photosynthetic and high-light-responsive genes, either directly or indirectly. These and other results, some of which are presented in a companion paper (

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“…An excitation transfer energy from a conjugated polymer to a nanocrystal results in a red-shift of nanocrystals/polymer blends as a function of the temperature. In the Dexter mechanism, the spectral overlap is independent of the oscillator strength of the transitions and is efficient at very small distances (< 10 Å) [17]. In the temperature range 4-300 K the red-shift is of about 40 nm in the case of red luminescent Si-ncs and the ~70 nm-shift for the blue luminescent ones.…”

Section: Resultsmentioning

confidence: 97%

Bulk-heterojunction Based on Blending of Red and Blue Luminescent Silicon Nanocrystals and P3HT Polymer

Švrček

Kondo

2009

MRS Proc.

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Blending of red and blue photoluminescent silicon nanocrystals (Si-ncs) with poly(3hexylthiophene (P3HT) conjugated polymer is demonstrated. The room temperature luminescent and ambient conditions stable Si-ncs prepared by electrochemical etching and laser ablation in water are used for the blend fabrication. Furthermore photo-electric properties in parallel configuration on platinum interdugitated contact are shown. Both types of Si-ncs results the bulk-heterojunction formation and photoconductivity is observed when the blends are irradiated AM1.5. The increase in photoconductivity is rather the same and ratio between photo-and darkconductivity is about 1.7. The nanocrystal oxidation during laser ablation fabrication process in water hinders the transport properties of the blend.

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Topology and photoprotective role of carotenoids in photosystem II of chloroplast: a hypothesis

Cited by 15 publications

References 15 publications

Arabidopsis Mutants Deleted in the Light-Harvesting Protein Lhcb4 Have a Disrupted Photosystem II Macrostructure and Are Defective in Photoprotection

Arabidopsis Mutants Deleted in the Light-Harvesting Protein Lhcb4 Have a Disrupted Photosystem II Macrostructure and Are Defective in Photoprotection

Control of Photosynthetic and High-Light-Responsive Genes by the Histidine Kinase DspA: Negative and Positive Regulation and Interactions between Signal Transduction Pathways

Bulk-heterojunction Based on Blending of Red and Blue Luminescent Silicon Nanocrystals and P3HT Polymer

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