Author(s)

Olga B. Belyaeva, Felix F. Litvin

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The key step in chlorophyll biosynthesis is photoreduction of its immediate precursor, protochlorophyllide. This reaction is catalyzed by a photoenzyme, protochlorophyllide oxidoreductase (POR) and consists in the attachment of two hydrogen atoms in positions C17 and C18 of the tetrapyrrole molecule of protochlorophyllide; the double bond is replaced with the single bond. Two hydrogen donors involved in protochloro-phyllide photoreduction are NADPH [1,2] and a conserved tyrosine residue Tyr193 of the photoenzyme POR [3]. The structure of active pigment-enzyme complex (Pchlide-POR-NADPH) ensures a favorable steric conditions for the transfer of hydride ion and proton. This review does not examine the ternary complex structure, but concentrates upon the mechanisms of primary photophysical and photochemical reactions during formation of chlorophyllide from protochlorophyllide in living objects (etiolated leaves and leaf homogenates) and model systems.

Protochlorophyllide; Chlorophyllide; Photoreduction; Fluorescence; Spectroscopy

Belyaeva, O. and Litvin, F. (2011) Advances in understanding of the primary reactions of protochlorophyll(ide) photoreduction in cells and model systems. Journal of Biophysical Chemistry, 2, 1-9. doi: 10.4236/jbpc.2011.21001.