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1.	KEBEKUS, U, et al. (author) STRUCTURAL-CHANGES IN THE WATER-OXIDIZING COMPLEX MONITORED VIA THE PH-DEPENDENCE OF THE REDUCTION RATE OF REDOX STATE S-1 BY HYDRAZINE AND HYDROXYLAMINE IN ISOLATED SPINACH THYLAKOIDS 1995 In: Biochemistry. - : AMER CHEMICAL SOC. - 0006-2960 .- 1520-4995. ; 34:18, s. 6175-6182 Journal article (peer-reviewed)abstract A detailed kinetic analysis is presented for the pH dependence of the reduction of the water-oxidizing complex (WOC) in redox state S-1 by hydrophilic amines NH(2)R (R = NH2, OH) in suspensions of isolated thylakoids. Measurements of patterns of the oxygen yield induced by a train of single-turnover flashes and evaluation of the data within the framework of an extended Kok model [Messinger, J., Wacker, U., and Renger, G. (1991) Biochemistry 30, 7852-7862] led to the following results: (a) the rate constants k(s1)(NH(2)R) exhibit strikingly similar pH dependencies for NH2OH and NH2NH2 with ''titration waves'' at pH 5.3-5.6; 6.2-6.5, and above a critical pH value of about 7.4; (b) the differences in the reaction mechanism between NH2OH (1-electron reduction) and NH2NH2 (2-electron reduction) are almost pH-independent; (c) the ratio of the rate constants, k(s1)(NH2OH)/k(s1)(NH2NH2), decreases by a factor of about 9 within the range 5 < pH < 8.5. A detailed analysis reveals that these data cannot be consistently explained by the assumption that the unprotonated forms NH2OH and NH2NH2 are the active species while the protonated cations [NH3OH](+) and [N2H5](+) are nonreactive. A quantitative description is achieved by the additional postulate that pH-dependent structural changes take place in the WOC, thereby modulating the reactivity toward exogenous redox active amines of the type NH(2)R. On the basis of the results of this study and a recent report [Messinger, J., and Renger, G. (1994) Biochemistry 33, 10896-10905], it is inferred that the WOC undergoes three specific structural changes, with characteristic pH values of 5.3-5.5,6.2-6.5, and above 7.4.

KEBEKUS, U, et al. (author)
STRUCTURAL-CHANGES IN THE WATER-OXIDIZING COMPLEX MONITORED VIA THE PH-DEPENDENCE OF THE REDUCTION RATE OF REDOX STATE S-1 BY HYDRAZINE AND HYDROXYLAMINE IN ISOLATED SPINACH THYLAKOIDS
1995
In: Biochemistry. - : AMER CHEMICAL SOC. - 0006-2960 .- 1520-4995. ; 34:18, s. 6175-6182
Journal article (peer-reviewed)abstract
- A detailed kinetic analysis is presented for the pH dependence of the reduction of the water-oxidizing complex (WOC) in redox state S-1 by hydrophilic amines NH(2)R (R = NH2, OH) in suspensions of isolated thylakoids. Measurements of patterns of the oxygen yield induced by a train of single-turnover flashes and evaluation of the data within the framework of an extended Kok model [Messinger, J., Wacker, U., and Renger, G. (1991) Biochemistry 30, 7852-7862] led to the following results: (a) the rate constants k(s1)(NH(2)R) exhibit strikingly similar pH dependencies for NH2OH and NH2NH2 with ''titration waves'' at pH 5.3-5.6; 6.2-6.5, and above a critical pH value of about 7.4; (b) the differences in the reaction mechanism between NH2OH (1-electron reduction) and NH2NH2 (2-electron reduction) are almost pH-independent; (c) the ratio of the rate constants, k(s1)(NH2OH)/k(s1)(NH2NH2), decreases by a factor of about 9 within the range 5 < pH < 8.5. A detailed analysis reveals that these data cannot be consistently explained by the assumption that the unprotonated forms NH2OH and NH2NH2 are the active species while the protonated cations [NH3OH](+) and [N2H5](+) are nonreactive. A quantitative description is achieved by the additional postulate that pH-dependent structural changes take place in the WOC, thereby modulating the reactivity toward exogenous redox active amines of the type NH(2)R. On the basis of the results of this study and a recent report [Messinger, J., and Renger, G. (1994) Biochemistry 33, 10896-10905], it is inferred that the WOC undergoes three specific structural changes, with characteristic pH values of 5.3-5.5,6.2-6.5, and above 7.4.

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