N. R. Reddy scite author profile

Tannins are one of several antinutritional factors present in dry beans and are located mainly in the seed coat or testa. The tannin content of dry beans ranges from 0.0 to 2.0% depending on the bean species and color of the seed coat. Many high tannin bean varieties are of lower nutritional quality than low tannin varieties of beans. Naturally occurring food legume tannins are reported to interact with proteins (both enzyme and nonenzyme proteins) to form tannin‐protein complexes resulting in inactivation of digestive enzymes and protein insolubility. Both in vitro and in vivo studies indicate that bean tannins decrease protein digestibility, either by inactivating digestive enzymes or by reducing the susceptibility of the substrate proteins after forming complexes with tannins and absorbed ionizable iron. Other deleterious effects of tannins include a lowered feed efficiency and growth depression in experimental animals. The antinutritional activity of bean tannins can be reduced by processing (1 or a combination of 2 or more methods), for example dehulling, soaking, cooking and germination. Genetic selection also may help in breeding varieties low in tannins. Potential chemical treatments such as use of tannin complexing agents are discussed.

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Chemical, nutritional and physiological aspects of dry bean carbohydrates—A review

Reddy

et al. 1984

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Shelf‐life Extension and Safety Concerns About Fresh Fishery Products Packaged Under Modified Atmospheres: A Review

Reddy

Armstrong

Rhodehamel

et al. 1991

Journal of Food Safety

118

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Shelf‐life and quality of fresh fishery products can be extended by the use of a modified atmosphere (MA) and high barrier film packaging coupled with refrigerated storage. MAs with elevated levels of carbon dioxide inhibit or slow the growth of various aerobic spoilage bacteria of fishery products by extending the lag phase. However, at the same time, MAs provide conditions for the growth of Grampositive bacteria and food pathogens within the package. The extension of the storage life of the refrigerated MA products may enable the slower‐growing Gram‐positive bacteria to reach high populations. The shelf‐life of fishery products packaged under MAs rich in carbon dioxide coupled with storage at 8.0°C or below can be extended more than 100%. Major safety concerns regarding the risk of foodborne botulism can result from MA packaging of fresh fishery products that contain the spores of nonproteolytic C. botulinum and are subsequently temperature‐abused. Minimizing the risk of foodborne botulism by including inhibitory factors such as antimicrobial agents before packaging fishery products under MAs and strict adherence to refrigerated storage temperatures are discussed.

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N. R. Reddy

Phytates in Legumes and Cereals

Reduction in antinutritional and toxic components in plant foods by fermentation

Dry bean tannins: A review of nutritional implications

Chemical, nutritional and physiological aspects of dry bean carbohydrates—A review

Shelf‐life Extension and Safety Concerns About Fresh Fishery Products Packaged Under Modified Atmospheres: A Review

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