In vitro reconstitution of the activated zeaxanthin state associated with energy dissipation in plants.
about
Paths toward algal genomicsLight and oxygenic photosynthesis: energy dissipation as a protection mechanism against photo-oxidationCrystal structures of the PsbS protein essential for photoprotection in plantsRegulation of photosynthetic light harvesting involves intrathylakoid lumen pH sensing by the PsbS proteinCrystal structure of plant light-harvesting complex shows the active, energy-transmitting state.Light- and pH-dependent structural changes in the PsbS subunit of photosystem II.Supramolecular exciton chirality of carotenoid aggregates.Direct interaction of the major light-harvesting complex II and PsbS in nonphotochemical quenching.A zeaxanthin-independent nonphotochemical quenching mechanism localized in the photosystem II core complexStructural, functional and auxiliary proteins of photosystem II.Interactions between the photosystem II subunit PsbS and xanthophylls studied in vivo and in vitro.Short- and long-term operation of the lutein-epoxide cycle in light-harvesting antenna complexes.Simultaneous refolding of denatured PsbS and reconstitution with LHCII into liposomes of thylakoid lipids.In Vivo Identification of Photosystem II Light Harvesting Complexes Interacting with PHOTOSYSTEM II SUBUNIT S.Origin of absorption changes associated with photoprotective energy dissipation in the absence of zeaxanthin.Restoration of rapidly reversible photoprotective energy dissipation in the absence of PsbS protein by enhanced DeltapH.A mechanism of nonphotochemical energy dissipation, independent from PsbS, revealed by a conformational change in the antenna protein CP26.Thermal dissipation of light energy is regulated differently and by different mechanisms in lichens and higher plants.Large-scale in vitro production, refolding and dimerization of PsbS in different microenvironments.The Photosystem II Subunit S under Stress.PsbS interactions involved in the activation of energy dissipation in Arabidopsis.Tracing the evolution of the light-harvesting antennae in chlorophyll a/b-containing organisms.De-epoxidation of violaxanthin in the minor antenna proteins of photosystem II, LHCB4, LHCB5, and LHCB6.The light-harvesting antenna of the diatom Phaeodactylum tricornutum. Evidence for a diadinoxanthin-binding subcomplexLow-temperature modulation of the redox properties of the acceptor side of photosystem II: photoprotection through reaction centre quenching of excess energyContrasting Behavior of Higher Plant Photosystem I and II Antenna Systems during AcclimationMechanistic aspects of the xanthophyll dynamics in higher plant thylakoids
P2860
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P2860
In vitro reconstitution of the activated zeaxanthin state associated with energy dissipation in plants.
description
2002 nî lūn-bûn
@nan
2002 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
In vitro reconstitution of the ...... energy dissipation in plants.
@ast
In vitro reconstitution of the ...... energy dissipation in plants.
@en
In vitro reconstitution of the ...... energy dissipation in plants.
@nl
type
label
In vitro reconstitution of the ...... energy dissipation in plants.
@ast
In vitro reconstitution of the ...... energy dissipation in plants.
@en
In vitro reconstitution of the ...... energy dissipation in plants.
@nl
prefLabel
In vitro reconstitution of the ...... energy dissipation in plants.
@ast
In vitro reconstitution of the ...... energy dissipation in plants.
@en
In vitro reconstitution of the ...... energy dissipation in plants.
@nl
P2093
P2860
P50
P356
P1476
In vitro reconstitution of the ...... energy dissipation in plants.
@en
P2093
Alexander Ruban
Andy Pascal
Mark Wentworth
P2860
P304
16331-16335
P356
10.1073/PNAS.252500999
P407
P577
2002-12-02T00:00:00Z