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The chemistry of the strength of wheat flour

Published online by Cambridge University Press:  27 March 2009

Herbert Ernest Woodman
Affiliation:
From the Animal Nutrition Institute, School of Agriculture, Cambridge University.

Extract

It is well known that different flours vary enormously in respect of the size and shape of loaf they yield on baking. The factor which determines the quality of flour in this connection has been termed “strength” and the latter has been denned as “the capacity of flour for making large well-piled loaves”(1).

Many views have been held from time to time regarding the explanation of flour strength from the chemical standpoint. The earliest view was that strength was determined by the gluten content of the flour, which by virtue of its tenacity was able to retain in the bread the carbon dioxide produced as a result of the activity of the yeast. Many cases, however, were investigated where flours possessing a high gluten content were not so strong as a flour with a low content of gluten. Furthermore, no accepted regularity has been found to exist between the strength of flours and the water-holding or gas retaining capacity of their glutens.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1922

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References

REFERENCES

(1)Humphries, and Biffen, . J. Agric. Sci. 2, 1, 19071908.CrossRefGoogle Scholar
(2)Hall, . Report of Home-grown Wheat Committee, 19051906.Google Scholar
(3)Wood, . J. Agric. Sci. 2, 139, 19071908.CrossRefGoogle Scholar
(3)Wood, . J. Agric. Sci. 2, 267, 19071908.CrossRefGoogle Scholar
(4)Dudley, and Woodman, . Biochem. J. 9, 97, 1915.CrossRefGoogle Scholar
(5)Woodman, . Biochem. J. 15, 187, 1921.CrossRefGoogle Scholar
(6)Abderhalden, . Handbuch der bioch. Arbeitsmethoden, 2, 320, 1909.Google Scholar
(7)Foreman, . Biochem. J. 14, 451, 1920.CrossRefGoogle Scholar
(8)Osborne, . The Vegetable Proteins, p. 70 (1909).CrossRefGoogle Scholar
(9)Kosutany, . J. Landw. 51, 130, 1903.Google Scholar