A pigment-binding protein essential for regulation of photosynthetic light harvesting View Full Text


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Article Info

DATE

2000-01

AUTHORS

Xiao-Ping Li, Olle Björkman, Connie Shih, Arthur R. Grossman, Magnus Rosenquist, Stefan Jansson, Krishna K. Niyogi

ABSTRACT

Photosynthetic light harvesting in plants is regulated in response to changes in incident light intensity. Absorption of light that exceeds a plant's capacity for fixation of CO2 results in thermal dissipation of excitation energy in the pigment antenna of photosystem II by a poorly understood mechanism. This regulatory process, termed nonphotochemical quenching, maintains the balance between dissipation and utilization of light energy to minimize generation of oxidizing molecules, thereby protecting the plant against photo-oxidative damage. To identify specific proteins that are involved in nonphotochemical quenching, we have isolated mutants of Arabidopsis thaliana that cannot dissipate excess absorbed light energy. Here we show that the gene encoding PsbS, an intrinsic chlorophyll-binding protein of photosystem II, is necessary for nonphotochemical quenching but not for efficient light harvesting and photosynthesis. These results indicate that PsbS may be the site for nonphotochemical quenching, a finding that has implications for the functional evolution of pigment-binding proteins. More... »

PAGES

391-395

References to SciGraph publications

  • 1992-12. Regulation of Photosystem II in PHOTOSYNTHESIS RESEARCH
  • 1997-05. Screening of chlorina mutants of barley (Hordeum vulgare L.) with antibodies against light-harvesting proteins of PS I and PS II: Absence of specific antenna proteins in PHOTOSYNTHESIS RESEARCH
  • 1994-02. Hypothesis for the evolution of three-helix Chl a/b and Chl a/c light-harvesting antenna proteins from two-helix and four-helix ancestors in PHOTOSYNTHESIS RESEARCH
  • 1994-02. Atomic model of plant light-harvesting complex by electron crystallography in NATURE
  • 1994-06. Xanthophyll cycle and energy-dependent fluorescence quenching in leaves from pea plants grown under intermittent light in PLANTA
  • 1987-01. Comparative structural and catalytic properties of oxygen-evolving photosystem II preparations in PHOTOSYNTHESIS RESEARCH
  • 1994-09. The small, versatilepPZP family ofAgrobacterium binary vectors for plant transformation in PLANT MOLECULAR BIOLOGY
  • 1996-05. Photosystem II chlorophyll a fluorescence lifetimes and intensity are independent of the antenna size differences between barley wild-type and chlorina mutants: Photochemical quenching and xanthophyll cycle-dependent nonphotochemical quenching of fluorescence in PHOTOSYNTHESIS RESEARCH
  • 1994-03. Relationships among violaxanthin deepoxidation, thylakoid membrane conformation, and nonphotochemical chlorophyll fluorescence quenching in leaves of cotton (Gossypium hirsutum L.) in PLANTA
  • 1995-08. Seasonal changes in photosystem II organisation and pigment composition in Pinus sylvestris in PLANTA
  • 1995-05. Sequence conservation of light-harvesting and stress-response proteins in relation to the three-dimensional molecular structure of LHCII in PHOTOSYNTHESIS RESEARCH
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1038/35000131

    DOI

    http://dx.doi.org/10.1038/35000131

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1036903218

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/10667783


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