Photosystem II, in plants

Ruban AV, Philip D, Young AJ and Horton P (1997b) Carotenoid-dependent oligomerisation of the major light harvesting complex of Photosystem II in plants. Biochemistry 36 7855-7859. 

Trebst A, Depka B. The architecture of photosystem II in plant photosynthesis. Which polypeptide carries the reaction center of photosystem II In Michel-Beyerle ME, ed. Antennas and Dynamics. Berlin Springer-Verlag, 1985 216-223. 

In the present analysis we apply the excitonic approach to the CP29 complex, one of the three minor chlorophyll a/b (Chi a/b)-binding proteins associated with the photosystems II in plants and algae. CP29 is a... 

Hankamer, B., Barber,/, and Boekema, E. J., 1997. Structure and membrane organization of photosystem II in green plants. Annual Review of Plant Physiology and Plant Molecular Biology 48 641—671. 

Davis, M.S., Forman, A., and Fajer, J., Ligated chlorophyll cation radicals their function in photosystem II of plant photosynthesis, PNAS, 76, 4170, 1979. 

Ruban, A.V., Young, A., and Horton, P. 1993b. Induction of nonphotochemical energy dissipation and absorbance changes in leaves evidence for changes in the state of the light harvesting system of photosystem II in vivo. Plant Physiol. 102 741-750. 

Pfister, K., S.R. Radosevich, and C.J. Arntzen (1979). Modification of herbicide binding to photosystem II in two biotypes of Senecio vulgaris L. Plant Physiol. 64 995-999. 

Krause, G. H., Schmude, C., Garden, H., Koroleva, O. Y., Winter, K. 1999. Effects of solar ultraviolet radiation on the potential efficiency of photosystem II in leaves of tropical plants. Plant Physiol. 121 1349-1358. 

In plants, propanil is toxic through inhibition of photosynthesis at the level of photosystem II. In animals, propanil induces methemoglobinemia resulting in tissue hypoxia. 

R1. BA Diner and GT Babcock (1996) Structure, dynamics, and energy conversion efficiency in photosystem II. In DR Ort and CF Yocum (eds) Oxygenic Photosynthesis The Light Reactions, pp 213-247. Kluwer R2. BA Diner, V Petrouleas and JJ Wendoloski (1991) The iron-quinone-acceptor complex of photosystem II. Phyiol Plant 81 423-436... 

AG Voikov (1986) The molecular mechanism of functioning of photosystem II in higher plants A hypothesis. Photobiochem Photobiophys 11 1-7... 

K Tabata, S Itoh, Y Yamamoto, S Okayama and M Nishimura (1985). Two plastoquinone A molecules are required for photosystem II activity analysis in hexane-extracted photosystem II particles. Plant Cell Physiol 26 855-863... 

R2. I Vass and Y Inoue (1992) Thermoluminescence in the study of photosystem II. In J Barber (ed) The Photosystems Structure, Function and Molecular Biology, pp 259-294. Elsevier R3. S Demeter and Govindjee (1989) Thermoluminescence in plants. Physiol Plant 75 121-130 R4. PV Sane and AW Rutherford (1989) Thermoluminescence from photosynthetic membranes. In Govindjee,... 

Current ideas on photosystem II in green plant photosynthesis suggest that the resting system contains Mn and that in conversion of two molecules of water into oxygen, Mn and/or Mn are involved. A study of [Mn (GH3)2] as a possible model for this system yielded electrochemical evidence for Scheme 1. ... 

Cyclic nitramine compounds such as RDX and HMX appear to have different modes of action in plants compared to the nitroaromatic compounds. Their basic structure and behavior in plants are similar to those of the triazine herbicides such as atrazine and simazine, which inhibit photosystem II in photosynthesis [32], The inhibition of photosynthesis may also be one of the modes of toxicity of cyclic nitramines based on symptoms such as chlorosis, necrosis, yellow leaf spots, and anthocyanin expression [27], However, the mechanism(s) of phytotoxicity of cyclic nitramines have not been investigated thoroughly. 

Allen JE and Nilsson A (1997) Redox signalhng and the structural basis of regulation of photosynthesis by protein phosphorylation. Physiol Plant 100 863-868 Anderson JM, Park Y-I and Chow WS (1997) Photoinactivation and photoprotection of Photosystem II in nature. Physiol Plant 100 214-223... 

Hankamer B, Barber J and Boekema EJ (1997) Structure and membrane organisation of Photosystem II in green plants. Annu Rev Plant Physiol Plant Mol Biol 48 641-671... 

Kyle DJ (1987) The biochemical basis for photoinhibition of Photosystem II. In Kyle DJ, Osmond CB and Arntzen CJ (eds) Photoinhibition. Photoinhibition, Topics of Photosynthesis, pp 197-226. Elsevier, Scientific Press, Amsterdam KyleDJ, Ohad I and Arntzen CJ (1985) Molecular mechanisms of compensation to light stress in chloroplast membranes. In Key JL and Kosuge T (eds) Cellular and Molecular Biology of Plant Stress, pp 51-69. Liss, New York Laisk A, Oja V, Rasulov B, Eichelmann H and Sumberg A (1997) Quantum yields and rate constants of photochemical and non-photochemical excitation quenching—Experiment and model. Plant Physiol 115 803-815 Lancaster CRD and Michel H (1996) Three-dimensional stmetures... 

Robinson JM (1988) Does O2 photoreduction occur within chloroplasts in vivo Physiol Plant 72 666-680 Rockholm DC and Yamamoto HY (1996) Violaxanthin de-poxidase. Purification ofa43-kilodalton lumenal protein from lettuce by lipid-affinity precipitation with monogalactosyl-diacylglyceride. Plant Physiol 110 697-703 Ruban AV, Phillip D, Young AJ and Horton P (1997) Carotenoid-dependent oligomerisation of the major chlorophyll a/b lightharvesting complex of Photosystem II of plants. Biochemistry 36 7855-7859... 

Plastoquinones are a group of electron transport molecules between photosystem II and photosystem I in plants. The sequence of carriers is as follows Pheophytin -> QA -> QB -> QH -> Cytochrome b6f, where QA, QB, and QH are the plastoquinones. Plastoquinone QB and QA are associated with PSII proteins. Electron transfer involving plastoquinones is shown here. Reduction of a plastoquinone creates a plastoquinol. 

Shigemori Y, Inagaki ], Mori H et al. The presequence of the precursor to the nucleus-encoded 30 kDa protein of photosystem II in Euglena gracilis Z induces two hydrophobic domains. Plant Mol... 

Nishiyama Y, Los DA, Hayashi H et al. Thermal protection of the oxygen-evolving machinery by PsbU, an extrinsic protein of photosystem II, in Synechococcus species PCC 7002. Plant Physiol 1997 115 1473-1480. 

Yu J, Vermaas W. Transcript levels and synthesis of photosystem 2 components in cyanobactcrial mutants with inactivated photosystem II genes. Plant Cell 1990 2 315-322. 

Silva P, Thompson E, Bailey S et al. FtsH is involved in the early stages of repair of Photosystem II in Synechocystis sp PCC 6803- Plant Cell 2003 15 2152-2164. 

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