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W1968654522 endingPage "209" @default.
W1968654522 startingPage "197" @default.
W1968654522 abstract "Higher plants must dissipate absorbed light energy that exceeds the photosynthetic capacity to avoid molecular damage to the pigments and proteins that comprise the photosynthetic apparatus. Described in this minireview is a current view of the biochemical, biophysical and bioenergetic aspects of the primary photoprotective mechanism responsible for dissipating excess excitation energy as heat from photosystem II (PSII). The photoprotective heat dissipation is measured as nonphotochemical quenching (NPQ) of the PSII chlorophyll a (Chl a) fluorescence. The NPQ mechanism is controlled by the trans-thylakoid membrane pH gradient (ΔpH) and the special xanthophyll cycle pigments. In the NPQ mechanism, the de-epoxidized endgroup moieties and the trans-thylakoid membrane orientations of antheraxanthin (A) and zeaxanthin (Z) strongly affect their interactions with protonated chlorophyll binding proteins (CPs) of the PSII inner antenna. The CP protonation sites and steps are influenced by proton domains sequestered within the proteo-lipid core of the thylakoid membrane. Xanthophyll cycle enrichment around the CPs may explain why changes in the peripheral PSII antenna size do not necessarily affect either the concentration of the xanthophyll cycle pigments on a per PSII unit basis or the NPQ mechanism. Recent time-resolved PSII Chi a fluorescence studies suggest the NPQ mechanism switches PSII units to an increased rate constant of heat dissipation in a series of steps that include xanthophyll de-epoxidation, CP-protonation and binding of the xanthophylls to the protonated CPs; the concerted process can be described with a simple two-step, pH-activation model. The xanthophyll cycle-dependent NPQ mechanism is profoundly influenced by temperatures suboptimal for photosynthesis via their effects on the trans-thylakoid membrane energy coupling system. Further, low temperature effects can be grouped into either short term (minutes to hours) or long term (days to seasonal) series of changes in the content and composition of the PSII pigment-proteins. This minireview concludes by briefly highlighting primary areas of future research interest regarding the NPQ mechanism." @default.
W1968654522 created "2016-06-24" @default.
W1968654522 creator A5071711805 @default.
W1968654522 date "1997-01-01" @default.
W1968654522 modified "2023-10-17" @default.
W1968654522 title "Mechanistic aspects of xanthophyll cycle-dependent photoprotection in higher plant chloroplasts and leaves" @default.
W1968654522 cites W13725583 @default.
W1968654522 cites W1485497108 @default.
W1968654522 cites W1522769667 @default.
W1968654522 cites W1532517383 @default.
W1968654522 cites W1533506382 @default.
W1968654522 cites W1551657049 @default.
W1968654522 cites W1588112349 @default.
W1968654522 cites W1588892579 @default.
W1968654522 cites W1846171780 @default.
W1968654522 cites W1964067696 @default.
W1968654522 cites W1972074078 @default.
W1968654522 cites W1973431005 @default.
W1968654522 cites W1973622604 @default.
W1968654522 cites W1974456193 @default.
W1968654522 cites W1981882377 @default.
W1968654522 cites W1982035075 @default.
W1968654522 cites W1983489374 @default.
W1968654522 cites W1990956245 @default.
W1968654522 cites W1991979523 @default.
W1968654522 cites W1993459222 @default.
W1968654522 cites W1993604897 @default.
W1968654522 cites W1994796014 @default.
W1968654522 cites W1995109046 @default.
W1968654522 cites W1997789910 @default.
W1968654522 cites W1998799969 @default.
W1968654522 cites W2000281975 @default.
W1968654522 cites W2001319242 @default.
W1968654522 cites W2002251823 @default.
W1968654522 cites W2011793601 @default.
W1968654522 cites W2012670388 @default.
W1968654522 cites W2012712868 @default.
W1968654522 cites W2015907903 @default.
W1968654522 cites W2021048296 @default.
W1968654522 cites W2021262980 @default.
W1968654522 cites W2023274452 @default.
W1968654522 cites W2023917484 @default.
W1968654522 cites W2031762873 @default.
W1968654522 cites W2037700513 @default.
W1968654522 cites W2040307681 @default.
W1968654522 cites W2040452499 @default.
W1968654522 cites W2045471046 @default.
W1968654522 cites W2048966341 @default.
W1968654522 cites W2050006929 @default.
W1968654522 cites W2066981296 @default.
W1968654522 cites W2087450886 @default.
W1968654522 cites W2090076403 @default.
W1968654522 cites W2093371118 @default.
W1968654522 cites W2103542349 @default.
W1968654522 cites W2111370427 @default.
W1968654522 cites W2114615491 @default.
W1968654522 cites W2132554937 @default.
W1968654522 cites W2134539921 @default.
W1968654522 cites W2141030573 @default.
W1968654522 cites W2161256662 @default.
W1968654522 cites W2163692984 @default.
W1968654522 cites W2165318044 @default.
W1968654522 cites W230411532 @default.
W1968654522 cites W2325643417 @default.
W1968654522 cites W2604494345 @default.
W1968654522 cites W4232876048 @default.
W1968654522 cites W4250497072 @default.
W1968654522 doi "https://doi.org/10.1111/j.1399-3054.1997.tb03449.x" @default.
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