Assay of photoinhibition and heat inhibition of photosystem II in higher plants.

Nobuyoshi Nijo; Björn Lundin; Miho Yoshioka; Noriko Morita; Yasusi Yamamoto

doi:10.1007/978-1-60761-925-3_17

Assay of photoinhibition and heat inhibition of photosystem II in higher plants.

Nobuyoshi Nijo, Björn Lundin, Miho Yoshioka, Noriko Morita, Yasusi Yamamoto

Research output: Contribution to journal › Article › peer-review

Abstract

When thylakoids of higher plant chloroplasts are exposed to excessive light or moderate heat stress, photosystem II reaction center-binding protein D1 is damaged. The photodamage of the D1 protein is caused by reactive oxygen species, mostly singlet oxygen, and also by endogenous cationic radicals generated by the photochemical reactions of photosystem II. Moreover, it was shown recently that the damage to the D1 protein by moderate heat stress is due to reactive oxygen species produced by lipid peroxidation near photosystem II. To maintain photosystem II activity, the oxidatively damaged D1 protein must be replaced by a newly synthesized copy, and thus degradation and removal of the photo- or heat-damaged D1 protein are essential for maintaining the viability of photosystem II. In this chapter, we describe the methods for assaying photoinhibition and heat inhibition of photosystem II in higher plant materials.

Original language	English
Pages (from-to)	201-215
Number of pages	15
Journal	Methods in molecular biology (Clifton, N.J.)
Volume	684
DOIs	https://doi.org/10.1007/978-1-60761-925-3_17
Publication status	Published - 2011
Externally published	Yes

ASJC Scopus subject areas

Molecular Biology
Genetics

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10.1007/978-1-60761-925-3_17

Cite this

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title = "Assay of photoinhibition and heat inhibition of photosystem II in higher plants.",

abstract = "When thylakoids of higher plant chloroplasts are exposed to excessive light or moderate heat stress, photosystem II reaction center-binding protein D1 is damaged. The photodamage of the D1 protein is caused by reactive oxygen species, mostly singlet oxygen, and also by endogenous cationic radicals generated by the photochemical reactions of photosystem II. Moreover, it was shown recently that the damage to the D1 protein by moderate heat stress is due to reactive oxygen species produced by lipid peroxidation near photosystem II. To maintain photosystem II activity, the oxidatively damaged D1 protein must be replaced by a newly synthesized copy, and thus degradation and removal of the photo- or heat-damaged D1 protein are essential for maintaining the viability of photosystem II. In this chapter, we describe the methods for assaying photoinhibition and heat inhibition of photosystem II in higher plant materials.",

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AU - Morita, Noriko

AU - Yamamoto, Yasusi

PY - 2011

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Assay of photoinhibition and heat inhibition of photosystem II in higher plants.

Abstract

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