Abstract

Calli of soybean (Glycine max Merr.) cv. Maple Arrow grew better and accumulated more proline when cultured for 5 d on 70 mM NaCl under darkness than at light. This rapid proline accumulation in salinized soybean calli appeared to play a protective role rather than to be a cause of growth failure. Throughout a 28 d-culture cycle (in control and NaCl-treated calli exposed to light or darkness), we followed the possible relationships between the proline contents and the activities of enzymes of proline biosynthesis [ornithine transaminase; NAD(P)H-pyrroline-5-carboxylate reductase], of proline catabolism [NAD(P) proline dehydrogenase], and of NAD kinase responsible of variations in NADP(H) contents. Enzyme activities of proline metabolism and NAD kinase were clearly light- and NaCl-regulated; nevertheless, relationships between enzyme activities and proline content existed only in calli grown for short-term under darkness and in presence of NaCl. The ornithine transaminase route, which was particularly enhanced in these calli during the first days of salt application, seemed to be involved in the initial proline accumulation in soybean.

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