W. F. Geddes scite author profile

Summary Seven composite samples of Minnesota grown soybeans and seven individual lots of Illinois soybeans of the 1942 crop containing varying percentages of immature and frost‐damaged seeds were subjected various analyses. Increased damaged‐seed content was accompanied by a marked decrease in viability and by increases in phosphate acidity, amino‐acid acidity, nonprotein nitrogen, reducing sugars, and in the internal aerobic microfloral content of the seeds. Proximate composition of the samples within each series showed little variation. In the Minnesota series, crude fiber content slightly decreased with increasing damage but the total digestible nutrients values were essentially similar for all samples. The most severely damaged samples in each group were slightly the lowest in test weight per bushel and oil content and were the highest in oil acidity. In the Minnesota series, the iodine value of the oil tended to increase slightly with increasing damage; this is attributed to the fact that the most severe frost damage occurred in growing areas which normally produce oil of high iodine value.

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Chemical and Physico-Chemical Changes Induced in Wheat and Wheat Products by Elevated Temperatures—i

Geddes¹

1929

Can. J. Res.

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Heat treatments of wheat and wheat products were conducted in an apparatus which made it possible to study independently the influence of time, temperature and moisture content. Straight-grade flour, milled from Western Canadian hard red spring wheat (allowed a limited amount of aging) heat treated for varying times at different temperatures and normal moisture content (13.90%) was used in most of the studies. Baking tests conducted on this flour revealed progressive improvement in baking quality, as determined without bromate, with temperature or time of heating being extended within a certain range. No well defined "region" of improvement was observed. Improvement in baking quality was reflected in a better handling quality of the dough and, in the baked loaf, by a decrease in underfermented characteristics, and by a marked improvement in crumb texture. No significant alteration in loaf volume was observed. Improvement in baking quality induced by heat was not comparable in magnitude to that obtained by the addition of 0.001%, potassium bromate to the baking formula, but induced the same general characteristics in the finished loaf. Baking tests with bromate on heated flour revealed damage to baking quality for all heat treatments. Extension of time or temperature of heating, above the range where improvement was observed, caused pronounced damage to baking quality as determined with or without bromate. The damage caused was reflected in decreased loaf volume, over-fermentation characteristics, and coarse texture. Within the range of damage, the baking quality was found to be approximately a linear function of the temperature for constant time of heating. Heat treatment resulted in a marked decrease in fermentation tolerance. This decrease could not be ascribed to lower diastatic activity, since baking tests after the addition of diastatic malt to the baking formula gave similar results. Increasing the moisture content at which heat treatments were conducted markedly reduced the temperature to which flour could be heated without damage to the baking quality. The safe temperature limit for various moisture contents has been fairly well defined. The limiting moisture content at which damage occurred for a fixed temperature and time of heating was very sharp. Heat treatment of wheats showed somewhat less damage to baking quality of the flour milled therefrom than heat treatment of flour under similar conditions.

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The Constitution of a Glucomannan from Wheat Stem Rust (Puccinia graminis tritici) Urediospores¹

Prentice¹,

Cuendet²,

Geddes³

et al. 1959

J. Am. Chem. Soc.

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A glucomannan has been extracted from urediospores of mixed races of Puccinia greininis tritici with alkali and shown to be composed of equal numbers of D-glUCOSe and D-mannose residues. Methylation and periodate oxidation studies have denionstrated that the average repeating unit of the glucomannan consists of approximately 6 terminal non-reducing residues, (3 of D-glucose and 3 of D-mannose), 104 non-terminal D-mannose residues (52 residues linked through CI and CC and 52 through CI and C, ) and 4 branching residues probably consisting of D-glucose units joined through CI, Cn and C! . The glycosidic linkages are of the 0-D-type. An aqueous extract of the urediospores is shown to contain glycerol, D-arabitol and D-mannitol.(1) Paper No. 3920, Scientific Journal Series, Minnesota Agricultural Experiment Station, St. Paul, Minn. Extracted from a thesis submitted by N. Prentice to the University of Minnesota in partial fulfillment for the degree of

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Observations Upon the Enzyme Asparaginase

Geddes

Hunter

1928

Journal of Biological Chemistry

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W. F. Geddes

Physical and Chemical Aspects of the Production. Storage and Utility of Dry Milk Products

The viability, chemical composition and internal microflora of frost damaged soybeans

Chemical and Physico-Chemical Changes Induced in Wheat and Wheat Products by Elevated Temperatures—i

The Constitution of a Glucomannan from Wheat Stem Rust (Puccinia graminis tritici) Urediospores¹

Observations Upon the Enzyme Asparaginase

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Product

Resources

About

W. F. Geddes

Physical and Chemical Aspects of the Production. Storage and Utility of Dry Milk Products

The viability, chemical composition and internal microflora of frost damaged soybeans

Chemical and Physico-Chemical Changes Induced in Wheat and Wheat Products by Elevated Temperatures—i

The Constitution of a Glucomannan from Wheat Stem Rust (Puccinia graminis tritici) Urediospores1

Observations Upon the Enzyme Asparaginase

Contact Info

Product

Resources

About

The Constitution of a Glucomannan from Wheat Stem Rust (Puccinia graminis tritici) Urediospores¹