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Protein quality in cereals and pulses

2. Influence of polyethyleneglycol on the nutritional availability of methionine in sorghum (Sorghum vulgare Pers.), field beans (Vicia faba L.) and barley

Published online by Cambridge University Press:  09 March 2007

J. E. Ford
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading RG2 9AT
D. Hewitt
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading RG2 9AT
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Abstract

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1. Polyethyleneglycol (PEG 4000) was examined for its influence on relative nutritional value (RNV) and available methionine in sorghum (Sorghum ulgare Pers.), field beans (Vicia faba L.) and barley, as measured microbiologically with Streptococcus zymogenes. The results were assessed in relation to the content of tannins in the test samples.

2. In grain of hybrid sorghum the RNV averaged 87 (range 79–92) for six low-tannin varieties and 41 (30–53) for eleven high-tannin varieties. The corresponding available methionine values averaged 17.0 (15.7–18.9) and 8.9 (6.7–11.0) g/kg protein. Addition of PEG 4000 to the test samples increased the average RNV of the high-tannin varieties from 41 to 78, and the average available methionine content from 8.9 to 16.2 g/kg protein.

3. With seed of ten coloured-flowered varieties of field beans, treatment with PEG gave a small but consistent increase in the available methionine content, which resulted from the inactivation of tannins in the testa.

4. In twenty-three samples of barley grain, treatment with PEG had no effect on the values obtained for available methionine.

5. Treatment of high-tannin sorghum grain with ammonia has been reported to inactivate the tannins and increase the nutritional value for rats and chicks. This finding was confirmed. The present study showed that ammonia and PEG 4000 were equally effective in enhancing the nutritional quality as measured in the microbiological tests.

Type
Papers on General Nutrition
Copyright
Copyright © The Nutrition Society 1979

References

Axtell, J. D., Oswalt, D. L., Mertz, E. T., Picket, R. C., Jambunathan, R. & Srinivasan, G. (1975). In High Quality Protein Maize, pp. 374386. Stroudsburg, Pa.: Dowden, Hutchinson & Ross.Google Scholar
Blessin, C. W., Anderson, R. A., Deatherage, W. L. & Inglet, G. E. (1971). Cereal Chem. 48, 528.Google Scholar
Boudet, A. (1965). C. r. hebd. Séanc. Acad. Sci., Paris 261, 214.Google Scholar
Burns, R. E. (1971). Agron. J. 63, 511.CrossRefGoogle Scholar
Chibber, B. A. K., Mertz, E. T. & Axtell, J. D. (1978). J. agric. Fd Chem. 26, 679.CrossRefGoogle Scholar
Ford, J. E. (1977). Proc. Nutr. Soc. 36, 125A.Google Scholar
Ford, J. E. & Hewitt, D. (1977). Proc. Nutr. Soc. 36, 126A.Google Scholar
Ford, J. E. & Hewitt, D. (1979 a). Br. J. Nutr. 41, 341.CrossRefGoogle Scholar
Ford, J. E. & Hewitt, D. (1979 b). Br. J. Nutr. (In the Press).Google Scholar
Friedman, M. (1977). In Protein Crosslinking: Nutritional and Medical Consequences. New York: Plenum Press.Google Scholar
Harris, H. B. (1969). Proc. 24th An. Corn and Sorghum Res. Conf., Chicago, Ill. 24, 113.Google Scholar
Harris, H. B. & Burns, R. E. (1973). Agron. J. 65, 957.CrossRefGoogle Scholar
Jones, D. E. (1965). Nature, Lond, 206, 299.CrossRefGoogle Scholar
Jones, J. D. & Hulme, A. C. (1961). Nature, Lond. 191, 370.CrossRefGoogle Scholar
Loomis, W. D. & Battaile, J. (1964). Plant Physiol. 39, Supp., 12.CrossRefGoogle Scholar
Martin-Tanguy, J., Guillaume, J. & Kossa, A. (1977). J. Sci. Fd Agric. 28, 757.CrossRefGoogle Scholar
National Technical lnformation Service (1973). GRAS Food Ingredients-Ammonium Ion, PB-221, p. 235. Washington, DC: US Department of Commerce.Google Scholar
Price, M. L. & Butler, L. G. (1978). Nutr. Rep. int. 17, 229.Google Scholar
Provansal, M. M. P., Cuq, J.-L. A. & Cheftal, J.-C. (1975). J. agric. Fd Chem. 23, 938.CrossRefGoogle Scholar
Rayudu, G. V. N., Kadirvel, R., Vohra, P. & Kratzer, F. H. (1970). Pouftry Sci. 49, 1323.CrossRefGoogle Scholar
Ronnenkamp, R. R. (1977). The effect of tannins on nutritional quality of dry beans, Phaseolus vulgaris L. PhD Thesis, Purdue University, West Lafayette, Ind., USA.Google Scholar
Visek, W. J. (1974). J. agric. Fd Chem 22, 174.CrossRefGoogle Scholar