[Nature of changes in the fluorescence process of P700-enriched chloroplast fragments]

Abstract

Spectral and photochemical properties of P700-enriched chloroplast fragments, obtained by ether treatment of liophylized digitonin fragments, were studied. It was shown that time course of fluorescence changes of isolated fragments (in contrast to digitonin fragments) at 20 degrees does not correspond to time course of absorption changes at 700 nm. Differences in low temperature fluorescence spectra of fragments, initially distinguished by redox states of photosystem 1 reaction centers were found. However, the fragments under study were incapable of light-induced changes of fluorescence yield at--196 degrees, independently of spectral region of measured fluorescence (lambda greater than 660 nm or lambda greater than 710 nm), though these fragments reveal phototransformation of P700. Thus changes in the low temperature fluorescence spectra cannot be accounted for by redox changes of P700. The fragments, isolated by ether treatment at 20 degrees as well at--196 degrees do not reveal light-induced fluorescence changes caused by redox changes of P700. The fluorescence changes observed may be due to accessory photoprocesses of chlorophyllprotein complex.