Effect of processing on some chemical and nutritional characteristics of pre-cooked and dehydrated legumes

The effect of processing on chemical composition and protein quality of three legumes was studied. The species analyzed were beans (Phaseolus vulgaris), Tórtola and Coscorrón varieties; lentils (Lens esculenta), Laird variety; and chick peas (Cicer arietinum), California-INIA variety. The legumes were soaked in a solution of Na₂ EDTA at 0.03% for 16 h and cooked for a predetermined period for each species. They were dried in a tray drier with cross currents of air flowing at a speed of 10 m/min until the residual mositure content was 8%. The water activity in the resulting products ranged from 0.574 to 0.587, thus completely assurring no microbial activity. No important changes were observed in the legumes protein, fat, or fibre contents after processing. The soaking solution was effective in reducing the phytic acid content from 2.99 to 1.64 mg/100 g in the Tórtola beans, which had the highest acid value prior processing. In all the species the heat treatment reduced the activity of the trypsin inhibitors by at least 50%. Cooking and drying significantly increased protein digestibility in all the legumes studied, with chick peas showing the most dramatic increase: from 54.7% pre-processing to 94.9% post-processing. With regard to Net Protein Ratio (NPR), chick peas had a value of 4.03, followed by Tórtola beans (3.29), Coscorrón (3.09) and lentils (2.61). The NPR value for the casein diet was 4.20.     

Water uptake during cooking of dry beans (Phaseolus vulgaris L.)

Water uptake during cooking of ten dry bean (Phaseolus vulgaris L.) varieties was investigated. Water uptake during early stages of cooking was characteristic of the variety. Although the optimal cooking times varied widely (52–85 min), all the beans absorbed similar amounts of water when cooked for their optimal times. Cooking times were significantly correlated with W_{20 min} (r=–0.92) and hardness index (r=0.76) of beans. Most other physical characteristics excepting the surface area of beans were generally unrelated to theW _{20 min},W _opt, and cooking times. No significant correlation was observed between phytate content and cooking times of beans. On cooking for their respective optimal times, all varieties absorbed nearly 1.5 times their weight of water and attained a moisture content of about 65% (wet basis).     

Tannins,Trypsin Inhibitors and Lectin Cytotoxicity in Tepary (<Emphasis Type="Italic">Phaseolus acutifolius</Emphasis>) and Common (<Emphasis Type="Italic">Phaseolus vulgaris</Emphasis>) Beans

This study compared the levels of antinutritional components and cytotoxic effect of extracts, from tepary (Phaseolus acutifolius) and common (Phaseolus vulgaris) beans. Antinutritional factors were evaluated by determining their effect on the viability of epithelial cells isolated from rat small intestine. The protein and carbohydrates content were similar in all the genotypes studied (20 and 60%, respectively). Common beans presented higher content of trypsin inhibitors, tannins and lectins than tepary beans. There was not a significant correlation between tannins and cooking time. However, water absorption and cooking time correlated significantly (p < 0.05). Considerable variation was observed in lectin activity (1302–18161 Ul/mg) of extracts from different beans. Tannins, lectins, trypsin inhibitors and fat content differed between bean varieties whereas protein content was similar. The percent cellularity on rat epithelial cells was significantly different among protein extracts from different bean cultivars and ranged between 53.5% and 87.4% (p < 0.05). These results suggest that the incorporation of tepary beans in the diet would not alter the current nutritional contribution of common beans or introduce adverse toxic effects. The agronomic characteristics of tepary beans make them attractive for cultivation. However, the harder to cook phenomenon may be a limiting factor that needs further consideration.     

Effects of altitude above sea level on the cooking time and nutritional value of common beans

The present study was conducted with the objective to determine the effects of altitude above sea level, on the cooking time and nutritional value of common black beans (Phaseolus vulgaris). Three 100 g samples of theOstua variety were cooked at 8 individual locations, ranging in altitude from 0 to 2256 meters, in Guatemala, to establish water uptake and cooking time. The cooked samples were separated into cooked beans and cooking broth for chemical analysis. This included moisture, protein, lysine, tannins, total and enzyme susceptible starch, and fiber fractionation. The cooking liquor was analyzed for total solids, moisture, protein, ash and K. A 1200 g sample was cooked for the cooking time established previously, for biological testing of nutritional value,which included Net Protein Ratio (NPR), Protein Effciency Ratio (PER), and protein digestibility. Altitude influenced cooking time which increased from 78 min at 0 m, to 264 min at 2256 m. Final moisture content in the cooked bean was similar at all altitudes and there was a tendency to yield smaller amounts of solids in the cooking broth at higher altitudes. The increase in cooking time was significant. Bean water uptake at all times was significantly slower and smaller at ambient T, as compared to water uptake at boiling T, at all altitudes. Protein and lysine content were not affected by altitude, however, tannin and catechin were lower in cooked samples, as compared to the raw material. Altitude did not affect the content of these substances. Total starch and total sugars were higher in the raw sample, as compared to the cooked samples, but there was no effect of altitude. Enzyme susceptible starch (ESS) was lower in the raw sample as compared to the cooked samples, which contained similar amounts with respect to altitude. No change was observed in fiber fractions of the cooked beans. Likewise, the composition of the cooking broth was very similar between cooking locations. There was a small tendency to a lower protein quality, with respect to altitude, the effect of which was more obvious in the apparent protein digestibility values. Undercooking or overcooking at one location influenced protein quality values. The extended cooking time of beans at high altitudes, has important economic and environmental implications, since significant amounts of wood have to be used.     

Studies on α-amylase and trypsin inhibitors in legume seeds using agar diffusion and isoelectric focusing techniques

Amylolytic and tryptic inhibitors of faba bean extracts were determined by an agar diffusion test. The amylolytic inhibitor had protein characters. Furthermore, water-soluble trypsin inhibitors ofCicer arietinum, Lens esculenta, Lupinus termis, Phaseolus vulgaris, Pisum sativum, Trigonella foenum-graecum andVicia faba which were separated by polyacrylamide gel isoelectric focusing (PAGIF) in thin-layers, showed species specific patterns. Negative staining showed 10 bands for French beans, 9 for fenugreek seeds, 8 for lentils and chickpeas, 7 for peas and 6 for faba beans. Lupin seeds were free from trypsin inhibitors. Treatments (soaking, germination and heat processing) of faba beans reduced the number of trypsin inhibitors in PAGIF patterns, less after soaking and germination, but more after roasting and frying. No inhibitors were detected after cooking.     

Nutritional composition and antinutritional factors of chickpeas (Cicer arietinum L.) undergoing different cooking methods and germination

The effects of cooking treatments (boiling, autoclaving and microwavecooking) and germination on the nutritional composition and antinutritionalfactors of chickpeas were studied. Cooking treatments and/or germinationcaused significant (p < 0.05) decreases in fat, total ash, carbohydratefractions, antinutritional factors, minerals and B-vitamins. Germination wasless effective than cooking treatments in reducing trypsin inhibitor,hemagglutinin activity, tannins and saponins; it was more effective inreducing phytic acid, stachyose and raffinose. Cooking treatments andgermination decreased the concentrations of lysine, tryptophan, totalaromatic and sulfur-containing amino acids. However, cooked andgerminated chickpeas were still higher in lysine, isoleucine and totalaromatic amino acid contents than the FAO/WHO reference. The lossesin B-vitamins and minerals in chickpeas cooked by microwaving weresmaller than in those cooked by boiling and autoclaving. Germination resultedin greater retention of all minerals and B-vitamins compared to cookingtreatments. In vitro protein digestibility, protein efficiency ratio andessential amino acid index were improved by all treatments. The chemicalscore and limiting amino acid of chickpeas subjected to the varioustreatments varied considerably, depending on the type of treatment. Basedon these results, microwave cooking appears to be the best alternative forlegume preparation in households and restaurants.     

Changes in chemical and selected biochemical components,protein quality,and digestibility of mung bean (Vigna radiata) during gemination and cooking

The effect of germination on the nutritive value of mung beans (Vigna radiata) was studied in raw and cooked samples after 0, 2 and 4 days of germination. Water content increased, but crude protein, lipids, crude fiber, ash and carbohydrates decreased with germination. Trypsin inhibitor activity did not change significantly while hemagglutinins were absent. Essential amino acids (methionine, tyrptophan and lysine) decreased with germination.Net protein ratio (NPR) and protein efficiency ratio (PER) in rats decreased with germination especially in cooked sprouts. True digestibility did not change consistently due to germination or cooking. In conclusion, loss of protein quality in mung beans occurs upon germination and cooking.Publication INCAP/UNU-4.     

Effects of germination and cooking on polyphenols and in vitro protein digestibility of horse gram and moth bean

Changes in polyphenols and in vitro protein digestibility due to germination and cooking were studied in horse gram and moth bean. Horse gram had higher amounts of polyphenols than moth bean. Polyphenol content in horse gram decreased from 1.6% to 1.1% at 48h germination, but in moth bean there was a reduction in polyphenol content from 1.3% to 1.0% at 24 h germination with a significant increase from 1.0% to 1.7% at 36 h germination. Seeds germinated for 48 h also exhibited higher amounts of polyphenols than in raw moth bean. The germination had no effect on total protein content, but a progressive increase in free amino acid content was observed in both legumes. In the ungerminated form, horse gram protein was more digestible than moth bean protein. The in vitro protein digestibility of both the legumes increased during germination. Cooking decreased the protein digestibility of horse gram either in ungerminated or germinated form, but such a decrease was noticed in moth bean at only 36 h germination. Moth bean either in raw form or germinated for 24 h did not exhibit a decrease in in vitro protein digestibility after cooking. Cooking decreased polyphenol content by 20%–50%. The apparent decrease in polyphenols in moth bean and horse gram due to cooking has been attributed to a decrease in assayable polyphenols.     

Studies on protein quality of green gram (Phaseolus aureus)

Raw green gram contains trypsin inhibitor (5.6 × 10^–3 units/0.1 g) while cooking destroyed the trypsin inhibitor in green gram. No destruction was observed in the case of lysine, methionine, cystine, threonine and tryptophan. Sulphur containing amino acids have been found to be the only limiting amino acids in green gram from studies on blood levels of amino acids and PER experiments. Raw green gram, when fed as a sole source of protein promoted an extremely low growth rate, (13.2 g/4 weeks) and PER (0.77) in rats. Cooking slightly improved the nutritive value of the gram, as indicated by increase in gain in body weight (24 g/4 weeks) as well as PER (1.22). The presence of inhibitors in green gram did not appear to affect some of the essential amino acids as observed from the blood amino acid levels.     

The water-holding capacity of three starchy legumes in the raw,cooked and fibre-rich fraction forms

True protein digestibility (TD), biological value (BV), and net protein utilization (NPU) of low-polyphenol pigeonpea cultivars (Nylon, BDN 2, and ICPL 87067) were significantly higher than those of the high polyphenol cultivars (C 11, ICPL 87, and ICPL 151) when whole-seed samples were compared. Most of the polyphenols (80–90%) were concentrated in the seed-coat. Dhal (decorticated split cotyledons) samples of low (Nylon) and high (C 11) polyphenol cultivars revealed no large differences in TD, BV, and NPU values of these cultivars. This indicated an adverse affect of seed-coat polyphenols on protein quality of pigeonpea whole-seed. The cooking process significantly increased TD in both whole seed and dhal samples. BV of both whole-seed and dhal samples was reduced remarkably by cooking. However, NPU of the cooked whole-seed and dhal samples was significantly higher than in the raw samples. No noticeable differences due to cooking were observed in amino acid composition of whole-seed and dhal samples of these cultivars.     

The use of enzymic hydrolysis in vitro to study the digestibility of some phaseolus seed proteins

In vitro proteolysis was used to study the digestibility of the major seed protein phaseolin, and the trypsin inhibitor, purified fromPhaseolus vulgaris seeds. Whereas denatured phaseolin was fully digested by the enzymic method used [4], its native form was only partially digested. Trypsin inhibitor, both native and after heat treatment, was poorly digested. It was also found that native trypsin had some resistance to digestion conferred upon it by the presence of the inhibitor.     

Changes in dietary fiber content and its composition as affected by processing of black beans (Phaseolus vulgaris,Tamazulapa variety)

This paper presents the effect that the traditional cooking process of black beans (Phaseolus vulgaris, Tamazulapa variety) has on the quantity and composition of soluble (SDF) and insoluble (IDF) dietary fiber of beans, as well as on its protein digestibility and protein quality. There was an increase of IDF from 18.1% in cooked beans to 22.4% in fried beans, and a decrease in SDF from 8.4% to 6.6%, respectively. Starch content decreased from 34.5% to 31.3%. No change was found in lignin. The xylose content was higher in IDF than in SDF and decreased to some extent from cooked to fried beans. Arabinose content was similar in IDF and SDF with no change caused by processing. The fraction containing glucose, mannose and galactose in IDF was higher than in SDF, the content increasing in IDF and decreasing in SDF, with processing. Protein content in IDF was higher than in SDF, with no major change when processing. About 29.5% of the total protein of beans was bound in DF. Protein digestibility and protein quality decreased from cooked to fried beans and was positively related to IDF.     

Quick-cooking beans (Phaseolus vulgaris L.): I. Investigations on quality

Soaking three beans cultivars (Phaseolus vulgaris L.: Great Northern, kidney, and pinto) in mixed salt solution (sodium chloride 2.5% + sodium bicarbonate 1.5% + sodium tripolyphosphate 1.0% + sodium carbonate 0.5%) resulted in 80%–85% reduction in cooking time over corresponding controls. Irradiation (-rays) at 500 krads of soaked and dehydrated beans caused a reduction of nearly 50% in cooking time. Water uptake and leaching losses for each treatment during soaking at 22°, 37°, and 45°C were investigated. High temperature (37° and 45°C) and pH (9.0) caused greater water imbibition and total solid loss than at room temperature (22°C). Organoleptic evaluation revealed that quick-cooking Great Northern beans appear to be more acceptable than kidney and pinto beans. Quick-cooking cooked beans had better in vitro protein digestibility than conventionally cooked beans. Phenolic content was found to be inversely related to in vitro digestibility.Utah Agricultural Experiment Station Journal article no. 2481.     

Toxische und Wachstumshemmende Faktoren in Bohnen

Zusammenfassung Gartenbohnen (Phaseolus vulgaris) und Helmbohnen (Dolichos lablab) enthalten toxische Phytohaemagglutinine, die bei Verfütterung der rohen, gemahlenen Bohnen zu Gewichtsverlust und Tod der Versuchstiere führen. Die in ihnen enthaltenen Trypsininhibitoren sowie der Amylaseinhibitor der Gartenbohnen haben keine nachweisbare Giftwirkung. Die von Trypsininhibitoren befreiten rohen Eiweiße aus beiden Bohnenarten sind in vitro gegen den Angriff von allen diesbezüglich geprüften Proteinasen sehr resistent und zeigen auch in vivo sehr geringe Verdaulichkeit. Das Zusammenwirken der erwähnten Faktoren wird für die Wachstumshemmwirkung der Hülsenfrüchte verantwortlich gemacht, doch kann das Vorhandensein von andern, bisher unbekannten, toxischen Inhaltsstoffen nicht ausgeschlossen werden.Bei Limabohnen (Phaseolus lunatus), die zwar das Wachstum hemmen, aber keine Letalwirkung zeigen, konnten ähnliche Befunde über die Verdaulichkeit und die nicht toxische Wirkung des Trypsininhibitors aufgezeigt werden, jedoch fehlen Hinweise auf eine mögliche Toxizität des in ihnen enthaltenen Agglutinins.

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Summary Both, kidney beans (Phaseolus vulgaris) and field beans (Dolichos lablab) contain toxic phytohemagglutinins. Ingestion of the raw, ground beans cause weight loss and death of the experimental animals. The two bean species also contain trypsin inhibitors and the kidney beans also an amylase inhibitor, which are devoid of detectable toxicity. Proteins from both bean species, even when free of trypsin inhibitors, are resistant against in vitro attack of all proteases tested and also show a very low in vivo digestibility. It is concluded that this property, together with the toxic haemagglutinins are responsible for the growth inhibition, but the existance of unrecognized toxic constituents can not be ruled out.Limabeans (Phaseolus lunatus) show growth inhibiting action, but their ingestion is not lethal. Their trypsin inhibitor is not toxic, but digestibility is also low. Nothing is known about a possible toxic action of their agglutinin.

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Resumen Las semillas de frijoles (Phaseolus vulgaris) y de gallinazo (Dolichos lablab) contienen fitohemagglutininas tóxicas. El consumo de estas semillas crudas y molidas produce pérdida de peso y la muerte de animales experimentales. Ambas especies de leguminosas contienen además inhibidores de la tripsina y en los frijoles se encuentra tambien un inhibidor de la amilasa pancreática. Estos últimos factores no exhiben, sin embargo, actividad tóxica significante. Las proteinas de ambos tipos de semillas son poco atacadas in vitro por enzimas proteolíticos, ni tampoco si se separan previamente de los inhibidores trípticos. Su digestibilidad in vivo es igualmente baja. Se concluye que esta característica, junto con la presencia de las hemagglutininas tóxicas son responsables, por lo menos parcialmente, de la toxicidad de las semillas crudas, aunque no se excluye la posibilidad de que esten presentes otros factores toxicos todavia no reconocidos.Habas de Lima (Phaseolus lunatus) tambien retardan el crecimiento de animales experimentales, si se incorporan en la dieta, pero su ingestión no causa la muerte. Contienen un inhibidor tríptico no tóxico y una hemagglutinina cuya acción biológica se desconoce.

     

Effect of Grain Structure and Cooking on Sorghum and Maize in vitro Protein Digestibility

Uncooked and cooked sorghum showed improvement in in vitro protein digestibility as the structural complexity of the sample reduced from whole grain flour through endosperm flour to protein body-enriched samples. This was not the case for maize. Cooking reduced protein digestibility of sorghum but not maize. Treating cooked sorghum and maize whole grain and endosperm flours with alpha -amylase to reduce sample complexity before in vitro pepsin digestion slightly improved protein digestibility. The reduction in sorghum protein digestibility on cooking was not related to the total polyphenol content of samples. Pericarp components, germ, endosperm cell walls, and gelatinised starch were identified as possible factors limiting sorghum protein digestibility. Electrophoresis of uncooked and cooked protein-body-enriched samples of sorghum and maize, and prolamin fractions of sorghum under non-reducing conditions showed oligomeric proteins with molecular weights (M_r) 45, 66 and >66 kDa and monomeric kafirins and zeins. Protein-body-enriched samples of sorghum had more 45–50 kDa oligomers than those of maize. In cooked sorghum, some of these were resistant to reduction. Pepsin-indigestible residues from protein-body-enriched samples consisted mainly of α-zein (uncooked and cooked maize) or α-kafirin (uncooked sorghum), whilst cooked sorghum had in addition, β- and γ-kafirin and reduction-resistant 45–50 kDa oligomers. Cooking appears to lead to formation of disulphide-bonded oligomeric proteins that occurs to a greater extent in sorghum than in maize. This may explain the poorer protein digestibility of cooked sorghum.     

Improvement in cooking quality of horse gram (Dolichos biflorus) by pre-soaking treatment with salt solution

Soaking of horse gram (Dolichos biflorus) in a solution of 1.5% NaHCO₃, 0.5% Na₂CO₃, and 0.75% citric acid for 12 h was found to be effective in reducing cooking time from 145 to 27 min. The treatment improved protein digestibility of cooked horse gram from 69 to 78%. Horse gram cooked after pre-treatment with soak solution had 35% less amount of polyphenols than that in untreated cooked samples. The suitability of this treatment for reducing cooking time of several other legumes was evaluated.     

Digestibility of proteins and starch (in vitro) of amphidiploids (black gram×mung bean) as affected by domestic processing and cooking

The effects of different domestic processing and cooking methods on starch digestibility (in vitro) and protein digestibility (in vitro) of four strains of amphidiploids (black gram×mung bean) were investigated. An increase of 35 to 48% and 22 to 25% was observed in starch digestibility and protein digestibility, respectively, when the seed of amphidiploids were soaked for 18 h. Cooking (both of unsoaked and soaked seeds) and germination improved significantly the starch digestibility and protein digestibility of all the varieties.     

Effect of processing on nutrient composition and anti-nutritive substances of African locust bean (Parkia filicoidea) and baobab seed (Adansonia digitata)

The effects of various processing techniques on nutrient composition and anti-nutritional factors in baobab seeds (Adansonia digitata L.) and locust beans (Parkia filicoidea L.) were investigated. The methods used for processing include boiling in water, acid or alkali and fermentation. Using the water treated samples as controls, there were slight decreases in protein and carbohydrate contents of the fermented and alkali-treated meals. However, an increase in extractable oil content was observed in acid, alkali and fermented samples. The alkali treatment appeared to be the most effective method for reducing trypsin inhibitor and tannin contents and has the additional advantage of improving the protein digestibility.     

The nutritional quality and toxin content of wild and cultivated lima beans (Phaseolus lunatus)

Proximal analysis, amino acid profile, trypsin inhibitor content, hemagglutinin content and HCN generated from cyanogenic glucosides were determined in four wild and three cultivated varieties ofPhaseolus lunatus. All the wild beans showed a higher protein content than the cultivated beans, but no big differences were found in the other nutrients. The essential amino acid percentage was higher in the cultivated beans than in the wild seeds, which was reflected in the PER determination. The most remarkable difference found between wild and cultivated beans was the high concentration of HCN in all wild varieties. The high concentration of protein found in the wild seed could be a false result from the nitrogen provided by the cyanogenic glucosides.     

The effect of slow-cooking on the trypsin inhibitor and hemagglutinating activities and in vitro digestibility of brown beans (Phaseolus vulgaris,var.Stella) and kidney beans (Phaseolus vulgaris,var.Montcalm)

Brown beans and kidney beans were subjected to two modes of cooking in a household slow cooker: (A), a fixed low setting for 10 h, and (B), a high setting for 2.5 h and a low setting for 7.5 h. Temperature changes in the beans were recorded. With treatment A over 90% of the hemagglutinating and trypsin inhibitor activities occurred after 6 h at which time the temperature had reached 80°C. With treatment B inactivation of these activities was almost complete at the end of 2 h when a maximum temperature of 100°C had been attained. The in vitro digestibility of the bean protein was considerably increased by either treatment. By way of contrast, only 20 min of heating was required to destroy these activities when the beans were brought to a boil in an open vessel.