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Main Title: Herbicide/Quinone Binding Interactions in Photosystem II
Author(s): Vermaas, Wim F.J.
Renger, Gernot
Arntzen, Charles J.
Type: Article
Language Code: en
Abstract: Many inhibitors prevent the oxidation of the primary electron-accepting quinone (QA) by the secondary quinone (Qв) in photosystem II by displacement of Qв from its binding site. On the other hand, plastoquinone-1 and 6-azido-5-decyl-2,3-dim ethoxy-p-benzoquinone displace herbicides. Binding studies show the herbicide/quinone interaction to be (apparently) competitive.The herbicide binding is influenced differentially by various treatments. In this paper it is shown that the affinity of, for example, bromoxynil is decreased by thylakoid unstacking or by light-or reductant-induced reduction of certain thylakoid components, whereas atrazine affinity remains unchanged. Furthermore, absence of HCO-3 in the presence of form ate leads to an affinity decrease of bromoxynil and atrazine, but to an increase in i-dinoseb affinity. Other differential photosystem II herbicide effects are known from the literature.Since different and unrelated groups of Q-A oxidation inhibitors have been found, and because of the above-mentioned dissimilarities in binding characteristics for different inhibitor groups, the hypothesis of non-identical, but “overlapping” binding sites for different herbicide groups and the native quinone must be more extensively defined. In this manuscript we evaluate both the competitive herbicide/quinone binding model, and a model in which binding of one ligand alters the protein conformation resulting in a dramatic decrease in the binding affinity of ligands from other chemical groups; in this model ligands from the same or related chemical groups bind competitively. Thus, the latter model proposes that only one herbicide or quinone molecule can be bound with high affinity to the herbicide/quinone binding environment, but it depends on the chemical structure of the ligands whether the binding interaction between two ligands is truly competitive or more indirect (allosteric), mediated through the protein conformation.
Issue Date: 1984
Date Available: 2-Jan-2019
DDC Class: 570 Biowissenschaften; Biologie
Subject(s): herbicide
photosystem II
allosteric interaction
Journal Title: Zeitschrift für Naturforschung C
Publisher: De Gruyter
Publisher Place: Berlin
Volume: 39
Issue: 5
Publisher DOI: 10.1515/znc-1984-0511
Page Start: 1865
Page End: 7125
EISSN: 1865-7125
ISSN: 0939-5075
Appears in Collections:FG Physikalische Chemie / Biophysikalische Chemie » Publications

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