Abstract
The mechanism of the protochlorophyllide (PChlide) photoreduction reaction operating in light-adapted plants and catalyzed by NADPH:protochlorophyllide oxidoreductase B (PORb) has been analyzed by low-temperature fluorescence spectroscopy by using purified barley PORb overexpressed heterologously in Escherichia coli as a fusion protein with the maltose-binding protein. We show that the PORb-catalyzed PChlide reduction reaction consists of two steps, one photochemical and the other nonphotochemical. The initial photochemical reaction follows a single quantum mechanism and leads to the formation of an unstable intermediate with mixed pigment electronic structure and an EPR spectrum that suggests the presence of a free electron. The second step involves the spontaneous conversion of the unstable intermediate into chlorophyllide as defined by its spectroscopic characteristics and migration on an HPLC column. Both steps of the reaction can be performed at subzero temperatures in frozen samples, suggesting that they do not include major changes in enzyme conformation or pigment rearrangement within the active site. The rate of the reaction at room temperature depends linearly on enzyme and substrate (PChlide) concentration, and the kinetic parameters are consistent with one molecule of substrate bound per active monomer in solution. The PORb-catalyzed reaction in vitro is spectroscopically similar to that identified in leaves of light-adapted plants, suggesting that the same reaction sequence observed operates in planta.
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More From: Proceedings of the National Academy of Sciences of the United States of America
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