Tod Mittwer

A Simplified Bacterial Spore Stain

A simplification of the Schaeffer-Fulton spore stain for bacteria is presented. It is shown that omission of the heating step during staining with malachite green resulted in spore stains as good as when the heat was applied. The simplified procedure involves (1) heat fixation of the smear by 20 passages through the flame, (2) staining with saturated aqueous malachite green for 10 minutes, (3) rinsing, and (4) counterstaining with 0.25% aqueous safranin for 15 seconds. The omission of the heating step in staining has obvious advantages, particularly in the classroom.

The Mechanism of the Gram Reaction. II. The Function of Iodine in the Gram Stain

Fifty-five reagents were studied as to their ability to replace iodine in the Gram stain. None gave results as good as iodine. Eight gave usable Gram preparations, and forty-seven gave negative results. Omission of the counterstain resulted in increasing to thirty-three the number of reagents giving differentiation, but this, was not considered a true Gram differentiation. Many oxidizing agents were shown not to be substitutes for iodine; therefore the function of iodine must be more than to serve as an oxidizing agent. Many reagents which formed precipitates with the dye could not replace iodine; therefore factors other than precipitate formation must be involved. However, all agents which were good substitutes for iodine were both good oxidizing and dye precipitating agents. Experiments involving the study of cell membrane permeability showed that Gram-positive cells were less permeable to iodine in alcoholic solution than Gram-negative cells. This difference could not be demonstrated for iodine in aque...

The mechanism of the Gram reaction. I. The specificity of the primary dye.

Dyes of all major types were tested for their suitability as the primary dye in the Gram stain. When a counterstain was not used, some dyes of all types were found to differentiate Gram-positive from Gram-negative organisms. When a counterstain was used, these dyes were found to vary greatly in their suitability. Those dyes found to be good substitutes for crystal violet were: Brilliant green, malachite green, basic fuchsin, ethyl violet, Hoffmanns violet, methyl violet B, and Victoria blue R. All are basic triphenylmethane dyes. Acid dyes were generally not suitable. Differences in the reaction of Gram-positive and Gram-negative cells to Gram staining without the use of iodine were observed and discussed but a practical differentiation could not be achieved in this manner. Certain broad aspects of the chemical mechanism of dyes in the gram stain are discussed.

The Mechanism of the Gram Reaction. III. Solubilities of Dye-Iodine Precipitates and Further Studies of Primary Dye Substitutes

Solubilities of dye-iodine precipitates in alcohol and in aqueous safranin solution were determined by direct solubility methods and by photocolorimetric methods. It was found that, increasing precipitate solubility in alcohol or safranin solution gave decreasing differentiation between Gram-positive and Gram-negative bacteria. Dyes which did not stain the cells well as a primary stain did not give good Gram stains, regardless of the solubilities of their precipitates. Some dyes (typified by methylene blue) which gave relatively alcohol-insoluble iodine precipitates gave inferior Gram differentiation because these precipitates were readily soluble in the safranin counterstain.Solubilities of precipitates of crystal violet and various iodine substitutes were determined photocolorimetrically. The ability of a substance to replace iodine in the Gram stain correlated with its ability to give a precipitate which was only slightly soluble in alcohol and relatively insoluble in aqueous safranin solution.It was c...

Electron microscope studies of nuclear changes in Saccharomyces cerevisiae during bud formation.

Ultraviolet photolysis was used to obtain transparent yeast cells when observed with the electron microscope. Following proper irradiation the yeast nucleus was easily discernable and appeared to be in various stages of division. Spindle-like figures were seen which give weight to the concept of a mitotic process for the division of the yeast nucleus. Distinct chromosomes were not observed.

The Phenomenon of Gram-Positivity; Its Definition and Some Negative Evidence on the Causative Role of Sulfhydryl Groups

It has been accepted for many decades that a Gram-positive organism is one which retains the primary dye when stained by accepted Gram stain procedures. It has also been known that the iodine step is essential if Gram differentiation is to be obtained. If bacterial cells are treated in such a way that they will retain the primary dye following a Gram staining procedure, regardless of whether or not the iodine step is included, then the mechanism of this dye retention must differ from that which normally is responsible for a Gram-positive state. Similarly, when both the iodine and decolorization steps are omitted, the counter-stain should always replace the primary stain. If it does not, then the mechanism of dye retention would not be normal, and any such dye retention would not be related to the Gram phenomenon. In such cases one is not studying the Gram reaction, but is studying chemical affinities or physical states which produce visually similar but actually unrelated phenomena. Failure to appreciate ...