Edward J. Weneck scite author profile

Water-washed Serratia marcescens and Escherichia coli were freeze dried in a circulating-gas system at atmospheric pressure. This convective procedure resulted in a substantially higher survival of organisms than could be obtained by the vacuum method of freeze drying. There was little or no decrease in cell viability during convective drying when the residual moisture content was 15 %o or higher. Below this level, survival declined with decreasing moisture content. A detailed comparison of the convective and vacuum methods indicated that the advantage gained by freeze drying bacteria in air accrues in the early period of sublimation, at which time cells were found to be sensitive to vacuum drying but insensitive to air drying. An explanation for this difference is proposed, based upon the kinetics of water removal in the two processes. In brief, it is suggested that the convective method permits samples to be dried more uniformly; and regional over-drying, which may be deleterious even if transient, is thus avoided in achieving the optimal level of moisture.

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The Supposed Role of Microbiological Aerosol Stabilizers as Substitutes for Bound Water

M¹,

Weneck²,

Trkula³

et al. 1969

Biophysical Journal

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In order to test a suggestion that inositol may take the place of water in maintaining the stability of desiccated cells, the reversible endothermic association of tobacco mosaic virus protein (TMVP) was studied turbidimetrically in presence of this substance. Its effect was to lower the temperature at which association takes place, the positive standard enthalpy and standard entropy of reaction both being increased by about 30%. The hypothesis of direct substitution of bound water by inositol at the site of macromolecular association leads to the contrary prediction that the association temperature would be raised. It is suggested that the observed effect of inositol may result from a conformation change in TMVP brought about by binding of inositol at positions adjacent to the site of reaction.

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Preservation of Bacteria by Circulating-Gas Freeze Drying

Wagman

Weneck

1963

Appl Microbiol

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Water-washed Serratia marcescens and Escherichia coli were freeze dried in a circulating-gas system at atmospheric pressure. This convective procedure resulted in a substantially higher survival of organisms than could be obtained by the vacuum method of freeze drying. There was little or no decrease in cell viability during convective drying when the residual moisture content was 15% or higher. Below this level, survival declined with decreasing moisture content. A detailed comparison of the convective and vacuum methods indicated that the advantage gained by freeze drying bacteria in air accrues in the early period of sublimation, at which time cells were found to be sensitive to vacuum drying but insensitive to air drying. An explanation for this difference is proposed, based upon the kinetics of water removal in the two processes. In brief, it is suggested that the convective method permits samples to be dried more uniformly; and regional over-drying, which may be deleterious even if transient, is thus avoided in achieving the optimal level of moisture.

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Edward J. Weneck

Characteristic electrophoretic patterns of bacterial extracts

Preservation of Bacteria by Circulating-Gas Freeze Drying

The Supposed Role of Microbiological Aerosol Stabilizers as Substitutes for Bound Water

Preservation of Bacteria by Circulating-Gas Freeze Drying

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