Inhibition of the degradation of chloroplast membranes during senescence in nuclear ‘stay green’ mutants of soybean

Near‐isogenic lines of soybean ( Glycine max [L.] Merr.) cv. Clark carrying nuclear ‘stay green’ genes were examined to determine the effects of these genes on the breakdown of thylakoid membranes during senescence. In order to accelerate their senescence, mature leaves were excised and incubated in darkness for 7 days. The homozygous combination of the recessive alleles d1 and d2 (at two different nuclear loci), with or without G (a dominant allele in another locus that causes green seed coat) inhibited the loss of chlorophyll and thylakoid proteins during senescence. Electron micrographs of leaves of cv. Clark during the yellowing process showed chloroplasts in various stages of disintegration; their thylakoid network was disrupted and abundant osmiophilic globuli formed. These senescent leaves also showed evident signs of deterioration of the plasma membrane, including discontinuities, invaginations and membrane ‘whorls’. In contrast, leaves carrying d1d1d2d2 and GGd1d1d2d2 did not show signs of plasma membrane degradation, and their chloroplasts appeared intact, with a continuous, unbroken thylakoid network and tightly stacked grana. Exogenous applications of abscisic acid (1 and 10 μ M ), methyl jasmonate (10 μ M ) or ethylene (1 and 10 μl] −1 ) accelerated chlorophyll degradation in cv. Clark, but had no appreciable effect in d1d1d2d2 and GGd1d1d2d2 , which indicates that their pheno‐types are not due to a deficiency in any of these hormones. The nuclear ‘stay green’ genotypes d1d1d2d2 and GGd1d1d2d2 exhibit a general incompetence for the degradation of chloroplast membranes and, thus, they may constitute useful tools in the study of the biochemistry and regulation of leaf senescence.