Legume seeds contain 7S and/or 11S globulins as major storage proteins. The amino acid sequences of them from many legumes are similar to each other in the species but different from each other, meaning that some of these proteins from some crops exhibit excellent functional properties. To demonstrate this, we compared protein chemical and functional properties (thermal stability, surface hydrophobicity, solubility as a function of pH, and emulsifying properties) of these proteins from pea, fava bean, cowpea, and French bean with those of soybean as a control at the same conditions. The comparison clearly indicated that the 7S globulin of French bean exhibited excellent solubility (100%) at pH 4.2-7.0 even at a low ionic strength condition (mu = 0.08) and excellent emulsion stability (a little phase separation after 3 days) at pH 7.6 and mu = 0.08, although the emulsions from most of the other proteins separated in 1 h. These results indicate that our assumption is correct.
The oxygen-evolving machinery of photosystem II in cyanobacteria is associated with three extrinsic proteins: the manganese-stabilizing protein, cytochrome c(550), and PsbU. To elucidate the effect of the presence of these extrinsic proteins on the stabilization of the oxygen-evolving machinery against high-temperature stress, we inactivated the genes for these proteins individually in Synechocystis sp. PCC 6803 by targeted mutagenesis. The thermal stability of the oxygen-evolving machinery decreased in all mutated cells but the extent of the susceptibility to heat inactivation varied between the photosystems lacking the different extrinsic proteins. Cells that lacked either the manganese-stabilizing protein or cytochrome c(550) were unable to enhance the thermal stability of the oxygen-evolving machinery and, moreover, failed to increase cellular thermotolerance when grown at moderately high temperatures. Our findings indicate that the three extrinsic proteins stabilize the oxygen-evolving machinery independently against high-temperature stress and that the thermal stability of the machinery influences cellular thermotolerance.
We have previously reported that the solubility of French bean 7S globulin (phaseolin) at low ionic strength and its emulsifying stability are remarkably high compared with those of 7S globulins prepared from other plant species, including soybean (Kimura et al. J. Agric. Food Chem. 2008, 56, 10273-10279). In this study, we examined the role of carbohydrate moieties in the properties of phaseolin. Three preparations of phaseolin were analyzed: (i) N7S, prepared from defatted seed meal and having intact carbohydrate moieties; (ii) R7S, expressed in E. coli and lacking N-linked glycans; and (iii) EN7S, having partial N-linked glycans after treatment with Endo H. The solubilities of N7S and EN7S were much higher than that of R7S at a low ionic strength (micro = 0.08). N7S exhibited good emulsifying ability under the conditions examined, but R7S did not. In terms of emulsion stability, an emulsion of R7S separated into two phases after 1 h at micro = 0.01, 0.08, and 0.5, whereas the emulsion of N7S was stable for 5 days at micro = 0.01 and for at least 10 days at micro = 0.08 and 0.5. The emulsion stability of EN7S was comparable to that of N7S under most conditions examined. These results indicate the carbohydrate modifications are necessary for the good solubility, emulsifying ability, and emulsion stability of phaseolin. Further, a structural analysis of the carbohydrate moieties indicates that truncated carbohydrate moieties are sufficient for conferring these physicochemical properties to phaseolin.
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