Betaine synthesis in chenopods: Localization in chloroplasts.

PLANTS FROM SEVERAL FAMILIES (CHENOPODIACEAE, GRAMINEAE, COMPOSITAE) ACCUMULATE BETAINE (GLYCINE BETAINE) IN RESPONSE TO SALT OR WATER STRESS VIA THE PATHWAY: choline --> betainal (betaine aldehyde) --> betaine. Betaine accumulation is probably a metabolic adaptation to stress. Intact protoplasts from leaves of spinach (Spinacia oleracea) oxidized [(14)C]choline to betainal and betaine, as did protoplast lysates. Upon differential centrifugation, the [(14)C]choline-oxidizing activity of lysates sedimented with chloroplasts. Chloroplasts purified from protoplast lysates by a Percoll cushion procedure retained strong [(14)C]choline-oxidizing activity (1-3 nmol/mg of chlorophyll per hr), although the proportion of the intermediate, [(14)C]betainal, in the reaction products was usually higher than for protoplasts. Isolated chloroplasts also readily oxidized [(14)C]betainal to betaine (20-100 nmol/mg of chlorophyll per hr). Light increased the oxidation of both [(14)C]choline and [(14)C]betainal by isolated chloroplasts approximately 3-fold; this light-stimulation was abolished by 3-(3,4-dichlorophenyl)-1,1-dimethylurea (DCMU). Similar results were obtained with another chenopod (Beta vulgaris) but not with pea (Pisum sativum), a species that accumulates no betaine. The chloroplast site for betaine synthesis in chenopods contrasts with the mitochondrial site in mammals.