Proline and Proline Metabolising Enzymes in in-vitro Selected NaCl-tolerant Brassica juncea L. under Salt Stress

The effect of salt stress was studied on proline accumulationand the activities of proline metabolic pathway enzymes in seedlingand leaf tissue of two genetically stable lines (SR2P1-2 andSR3P6-2) of in vitro selected NaCl-tolerant plants and parentcultivar Prakash of Brassica juncea L. Salt stress caused differentialenhancement in proline level in both seedlings and leaf tissueof plants at different developmental stages. The magnitude ofincrease in proline content was higher in SR3P6-2 line in seedlings(34 fold at 140 meq^-1 NaCl) as well as leaves (16 fold at 40d after sowing at 100 meq^-1 NaCl) compared to the parent cv.Prakash (29 fold in seedlings and five fold in leaves) and SR2P1-2(21 fold in seedlings and five fold in leaves) at similar stresslevels. Salt stress also resulted in changes in the activitiesof enzymes of proline metabolism. The activities of prolinebiosynthetic enzymes, pyrroline-5-carboxylate reductase andornithine aminotransferase, increased under salt stress bothin the seedlings and leaves. The range of increase in the activitiesof the two enzymes was relatively higher in SR3P6-2 (3·3-3·9fold) compared to the SR2P1-2 (1·8-2·8 fold) andparent cv. Prakash (1·5-2·8 fold). The activityof proline degrading enzyme, proline oxidase, decreased undersalt stress in both the tissues of all the lines; the reductionin activity was relatively greater in SR3P6-2 compared to SR2P1-2or cv. Prakash. The trend of changes in the enzyme activitieswas in tune with the increase in proline level, the magnitudeof change did not match the extent of increase in proline level.Copyright1995, 1999 Academic Press Brassica juncea L., NaCl-tolerant somaclones, proline content, ornithine aminotransferase, proline oxidase, pyrroline 5-carboxylate reductase