Protein solubility of raw and cooked faba bean, lentil,
chickpea, and dry bean was tested in water
and in NaCl in the pH range 1.0−13.0. The solubility of all
legume proteins in water typically
increased on both sides of pH 4.0. In NaCl, only solubility of raw
dry bean proteins was improved.
A marked reduction in protein solubility was observed after
cooking of all legumes up to pH 10.0,
where solubilization occurred, suggesting that it was dependent on
deprotonation of lysine and
arginine. Amino acid analysis showed that the protein fraction
that retained solubility in water
(pH 6.5) after cooking had a high amount of arginine and glutamic acid,
low levels of hydrophobic
amino acids, and, therefore, a much higher charge density than proteins
in the whole flour. The
SE-HPLC profiles indicated that water-soluble raw faba bean and lentil
had main protein peaks of
a higher molecular weight than those of dry bean or chickpea, thus
suggesting a higher trend toward
association. In vitro protein digestibility of faba bean and
lentil, unlike that of chickpea and dry
bean, was not improved upon cooking. The results indicate that, in
addition to hydrophobic forces,
basic residues are involved in the stabilization of heat-induced
aggregates of legume proteins, possibly
contributing to their low digestibility.
Keywords: Legumes; globulins; solubility;
digestibility
Despite the increasing interest in organic products, knowledge about how different levels of fertilization affect nutritionally relevant components is still limited. The concentration of polyphenols and the activity of polyphenoloxidase (PPO), together with the content in ascorbic acid, citric acid, and alpha- and gamma-tocopherol, were assayed in conventional and organic peach (Prunus persica L., cv. Regina bianca) and pear (Pyrus communis L., cv. Williams). 2-Thiobarbituric acid reactive substances and the tocopherolquinone/alpha-tocopherol ratio were used as markers of oxidative damage in fruits. A parallel increase in polyphenol content and PPO activity of organic peach and pear as compared with the corresponding conventional samples was found. Ascorbic and citric acids were higher in organic than conventional peaches, whereas alpha-tocopherol was increased in organic pear. The concentration of oxidation products in organic samples of both fruits was comparable to that of the corresponding conventional ones. These data provide evidence that an improvement in the antioxidant defense system of the plant occurred as a consequence of the organic cultivation practice. This is likely to exert protection against damage of fruit when grown in the absence of pesticides.
The primary product of the oenological sector is wine. Nonetheless, the grape processing produces large amounts of by-products and wastes, e.g., the grape seeds. In the context of a sustainable production, there is a strong push towards reutilizing these by-products and waste for making useful derivatives since they are rich of bioactive substances with high additional value. As it is true for the wine itself, bringing these by-products derivatives to the market calls for quality measures and analytical tools to assess quality itself. One of the main objectives is to collect analytical data regarding bioactive compounds using potentially green techniques. In the present work, the profile of fatty acids and the main phenolic compounds were investigated by conventional methods. The qualitative analysis of the main functional groups was carried out by Fourier Transform Infrared (FTIR) spectroscopy. Moreover, the successful use of FTIR technique in combination with chemometric data analysis is shown to be a suitable analytical tool for discriminating the grape seeds. Grape seeds of different origin have different content of bioactive substances, making this technique useful when planning to recover a certain substance with specific potential application in health area as food supplement or nutraceutical. For example, Cesanese d’Affile seeds were found to have a rather high fat content with a significant fraction of unsaturated fatty acids. On the other hand, the seeds of Nero d’Avola exhibit the highest amount of phenolic compounds.
The mechanism of heat-induced aggregation of Phaseolus vulgaris L. proteins and of subunit interactions of importance for susceptibility of proteins to proteolysis was studied by electron spin resonance (ESR) spectroscopy. The mobility of a spin label bound to lysine residues was monitored at two different pH-induced (neutral and alkaline) association states of proteins extracted from raw and cooked common bean. The molecular weight of the protein complexes was assessed by size exclusion-high performance liquid chromatography (SE-HPLC) of labeled proteins. Upon alkaline dissociation, both native and denatured protein subunits underwent a reassociation process to form soluble complexes of molecular weight higher than the species originally present at neutral pH. However, unlike native proteins, impaired mobility of the spin label was observed in the aggregates that are formed after dissociation of subunits of denatured proteins, indicating a reduced accessibility of lysine residues. Trapping of lysine residues inside protein aggregates may explain limited digestibility in the small intestine of proteins in cooked legumes.
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