A Kinetic Analysis of the Endogenous Respiration of Bakers' Yeast

Abstract: IWe will discuss in this paper the kinetics of endogenous respiration of bakers' yeast; that is, the respiration of intact yeast cells suspended in non-nutrient media. In succeeding papers results growing from an examination of the nature of the metabolic processes involved will be presented. The purpose of this series is to demonstrate the necessity of describing the behavior of metabolic systems at their native loci by the use of in vivo procedures. By dealing with experimentally verifiable rate-controlling … Show more

“…It has often been assumed that the endogenous substrate is either carbohydrate or lipid in nature (Reiner et al, 1949;Wilkinson, 1959). For example, Stier and Stannard (1936a) found an RQ of 1.0 for the endogenous respiration of yeast, and Bernheim (1954) noted that azide and dinitrophenol, which characteristically uncouple oxidation from phosphorylation, also increase the endogenous respiration of Mycobacterium tuberculosis. In the present study, an RQ value of 0.83 to 0.86 was observed, and the effect of azide and dinitrophenol on endogenous respiration was found to be negligible.…”

“…Relatively few studies have been made on the nature of endogenous respiration. Perhaps the first detailed study was that of Stier and Stannard (1936a), who noted that the rate of endogenous respiration of yeast declined with time. The decline was found to be characteristic of a firstorder process, was not due to enzyme deterioration, and evidence was obtained that the endogenous substrate was carbohydrate.…”

ENDOGENOUS RESPIRATION OF STAPHYLOCOCCUS AUREUS

“…It has often been assumed that the endogenous substrate is either carbohydrate or lipid in nature (Reiner et al, 1949;Wilkinson, 1959). For example, Stier and Stannard (1936a) found an RQ of 1.0 for the endogenous respiration of yeast, and Bernheim (1954) noted that azide and dinitrophenol, which characteristically uncouple oxidation from phosphorylation, also increase the endogenous respiration of Mycobacterium tuberculosis. In the present study, an RQ value of 0.83 to 0.86 was observed, and the effect of azide and dinitrophenol on endogenous respiration was found to be negligible.…”

“…Relatively few studies have been made on the nature of endogenous respiration. Perhaps the first detailed study was that of Stier and Stannard (1936a), who noted that the rate of endogenous respiration of yeast declined with time. The decline was found to be characteristic of a firstorder process, was not due to enzyme deterioration, and evidence was obtained that the endogenous substrate was carbohydrate.…”

ENDOGENOUS RESPIRATION OF STAPHYLOCOCCUS AUREUS

“…Otherwise i t is possible that false positives may appear, even in controls, and that the response to the test substance may be modified. I n fact, it is well established that the well fed yeast cell carries reserves of carbon as glycogen (Stier & Stannard, 1936), and of nitrogen compounds (Hartelius, 1934; Roine, 1947) ; and these reserves disappear as the yeast is starved. As yeasts have been grown on media nominally devoid of sulphur (Fulmer, Nelson & Sherwood, 1921), perhaps there is a sulphur reserve too, though the phenomenon may be due to traces of sulphur unwittingly included in the media (cf.…”

“…The work of Stier & Stannard (1936) suggested, however, that the carbohydrate reserve disappears within a few hours. On the other hand, for nitrogen assimilation, neither Wickerham (1946) nor Schultz & Pomper (1948) used starved yeasts, and they did not say they had trouble with their negative controls.…”

Technique in the Study of Yeast Assimilation Reactions

“…

This paper deals with the action of salts on respiration in the absence of substrate-the endogenous respiration of Stier and Stannard (1935). The use of substrates which permit cell division has been avoided because salts influence cell multiplication, creating difficulties in interpreting the results in terms of the effect of the salts upon respiration.

…”

The Endogenous Respiration of Bacillus cereus