The use of mesophyll protoplast extracts from various C(4) species has provided an effective method for studying light-and substrate-dependent formation of oxaloacetate, malate, and asparate at rates equivalent to whole leaf C(4) photosynthesis. Conditions regulating the formation of the C(4) acids were studied with protoplast extracts from Digitaria sanguinalis, an NADP-malic enzyme C(4) species, Eleusineindica, an NAD-malic enzyme C(4) species, and Urochloa panicoides, a phosphoenolpyruvate (PEP) carboxykinase C(4) species. Light-dependent induction of CO(2) fixation by the mesophyll extracts of all three species was relatively low without addition of exogenous substrates. Pyruvate, alanine and alpha-ketoglutarate, or 3-phosphoglycerate induced high rates of CO(2) fixation in the mesophyll extracts with oxaloacetate, malate, and aspartate being the primary products. In all three species, it appears that pyruvate, alanine, or 3-phosphoglycerate may serve as effective precursors to the formation of PEP for carboxylation through PEP-carboxylase in C(4) mesophyll cells. Induction by pyruvate or alanine and alpha-ketoglutarate was light-dependent, whereas 3-phosphoglycerate-induced CO(2) fixation was not.Several differences between these species representing the three C(4) groups were observed. Substrate induction of CO(2) fixation in mesophyll protoplast extracts of D. sanguinalis gave malate as a major product; only by an apparent exchange reaction with cold aspartate did substantial label appear in aspartate (up to 53% of labeled products). In contrast, aspartate was a major product when alanine and alpha-ketoglutarate served as inducing substrates with E. indica (up to 57%) and U. panicoides (up to 86%). With induction by pyruvate or 3-phosphoglycerate, mesophyll preparations of U. panicoides and E. indica were less effective in forming malate (up to 31% of products) than D. sanguinalis (up to 87% of products). After 2 seconds of whole leaf (14)CO(2) fixation, malate was the major labeled product (57%) with D. sanguinalis, whereas with E. indica and U. panicoides aspartate was the predominant product (73% and 76%, respectively).With mesophyll protoplast extracts of D. sanguinalis, aspartate inhibited CO(2) fixation (about 50% at 0.6 mm), while malate was relatively uninhibitory at comparable concentrations. CO(2) fixation by mesophyll protoplast extracts of E. indica was inhibited by malate (about 50% at 0.6 mm), while aspartate was relatively uninhibitory. With mesophyll preparations of U. panicoides, malate or aspartate (2 mm) caused only slight inhibition of CO(2) fixation. The regulation of aspartate and malate synthesis in C(4) mesophyll cells is discussed relative to initial products of photosynthesis in C(4) species in vivo and species differences in the mechanisms of C(4) photosynthesis.