Subcellular Location of Δ¹-Pyrroline-5-Carboxylate Reductase in Root/Nodule and Leaf of Soybean

Abstract: The expression of A'-pyrroline-5-carboxylate reductase (P5CR) gene was found to be higher in soybean root nodules than in leaves and roots, and its expression in roots appeared to be osmoregulated Mol Gen Genet 221: 299-305).P5CR was purified to homogeneity as a monomeric protein of 29 kilodaltons by overexpression of a soybean P5CR cDNA clone in Escherichia coli. The pH optimum of the purified P5CR was altered by increasing the salt concentration, and maximum enzyme activity was attainable at a lower pH u… Show more

“…We independently reached the Same conclusion by overexpressing soybean P5CR in transgenic tobacco (Szoke et al, 1992). We also demonstrated that the synthesis of Pro from Orn in plants proceeds via the 8-transamination of Orn to P5C and subsequent reduction to pro, and we have isolated a c~~~ clone encoding OAT.…”

“…4, lane 8). That the reaction did not result in accumulation of P5C, instead of Pro, can be explained by the observation that P5C reductase is in excess and is not a rate-limiting factor in Pro biosynthesis in plants (LaRosa et al, 1991;Szoke et al, 1992). The partially purified P5CS from E.coli expressing Vigna P5CS cDNA catalyzed the production of P5C (Fig.…”

“…Corresponding to the level of expression of P5CS, Pro contents were increased in transgenic lines 22, 88, 136, and 162. Because overproduction of P5CR does not increase Pro content in transgenic plants (Szoke et al, 1992), a direct correlation between P5CS expression level and Pro accumulation in the transgenic plants clearly suggests that P5CS, catalyzing the first two steps in the pathway, is rate limiting in Pro biosynthesis.…”

“…The products (2 /nL of the mixture) were resolved by TLC on a silica gel (Analtech, Inc., Newark, DE). P5C was prepared as described earlier (Szoke et al, 1992). Glu, Gin, Pro, and P5C (1 /j,g of each) were used as reference markers.…”

Overexpression of [delta]-Pyrroline-5-Carboxylate Synthetase Increases Proline Production and Confers Osmotolerance in Transgenic Plants

“…We independently reached the Same conclusion by overexpressing soybean P5CR in transgenic tobacco (Szoke et al, 1992). We also demonstrated that the synthesis of Pro from Orn in plants proceeds via the 8-transamination of Orn to P5C and subsequent reduction to pro, and we have isolated a c~~~ clone encoding OAT.…”

“…4, lane 8). That the reaction did not result in accumulation of P5C, instead of Pro, can be explained by the observation that P5C reductase is in excess and is not a rate-limiting factor in Pro biosynthesis in plants (LaRosa et al, 1991;Szoke et al, 1992). The partially purified P5CS from E.coli expressing Vigna P5CS cDNA catalyzed the production of P5C (Fig.…”

“…Corresponding to the level of expression of P5CS, Pro contents were increased in transgenic lines 22, 88, 136, and 162. Because overproduction of P5CR does not increase Pro content in transgenic plants (Szoke et al, 1992), a direct correlation between P5CS expression level and Pro accumulation in the transgenic plants clearly suggests that P5CS, catalyzing the first two steps in the pathway, is rate limiting in Pro biosynthesis.…”

“…The products (2 /nL of the mixture) were resolved by TLC on a silica gel (Analtech, Inc., Newark, DE). P5C was prepared as described earlier (Szoke et al, 1992). Glu, Gin, Pro, and P5C (1 /j,g of each) were used as reference markers.…”

Overexpression of [delta]-Pyrroline-5-Carboxylate Synthetase Increases Proline Production and Confers Osmotolerance in Transgenic Plants

“…The observation that salinity or dehydration stress stimulated the accumulation of the transcripts for the Pro-biosynthetic genes has been interpreted to mean that the transcriptional control of these genes is important for the regulation of Pro synthesis by osmotic stress. However, 50-fold overproduction of P5C reductase in transgenic tobacco plants did not lead to increased Pro accumulation (Szoke et al, 1992), indicating that the much smaller induction of P5C reductase in NaCl-stressed plants is not likely to be of significance for the Pro accumulation.…”

Comparative Analysis of the Regulation of Expression and Structures of Two Evolutionarily Divergent Genes for Δ1-Pyrroline-5-Carboxylate Synthetase from Tomato

Plant Abiotic Stress