scholarly journals THE IMPORTANCE OF DEXTROSE IN THE MEDIUM OF TISSUE CULTURES

1922 ◽  
Vol 35 (3) ◽  
pp. 317-322 ◽  
Author(s):  
Margaret Reed Lewis
Keyword(s):  
Connective Tissue ◽  
Experimental Evidence ◽  
Hydrogen Ion ◽  
Ion Concentration ◽  
Exact Nature ◽  
Tissue Cultures ◽  
Acid Condition ◽  
Hydrogen Ion Concentration ◽  
Abundant Protein ◽  
Tissue Cells

It is not advisable to enter into a discussion of these findings at the present time, owing to the lack of experimental evidence as to the exact nature of the vacuoles. Regardless of the nature of these bodies or of what factors produce them, they are structures abnormal to the connective tissue cells. The lack of dextrose in the medium of tissue cultures leads to some condition distinctly detrimental to the cells, resulting in their vacuolation and death, even when the medium contains abundant protein material. The addition of small amounts (0.5 to 1 per cent) of dextrose to the medium delays the formation of vacuoles and prolongs the life of the culture. The addition of large amounts (2 to 5 per cent) prevents vacuolation of the cells, but so much dextrose usually leads to a change in the hydrogen ion concentration of the culture resulting in an acid condition which arises coincidentally with the degeneration of the cells.

scholarly journals The adsorption of substances by Fuller's earth

1931 ◽  
Vol 131 (816) ◽  
pp. 17-29
Keyword(s):  
Calcium Ions ◽  
Point Of View ◽  
Hydrogen Ion ◽  
Ion Concentration ◽  
Exact Nature ◽  
Theoretical Point ◽  
Rational Analysis ◽  
Hydrogen Ion Concentration ◽  
Free Silica ◽  
Fuller’S Earth

The utility of fuller’s earth as a decolourising agent in the industrial prepara­tion of oils has long been recognised. More recently also fuller’s earth, in common with other powerful adsorbents has proved of the greatest use in the isolation of rare substances in the laboratory. Despite, however, the impor­tance of fuller’s earth both from the industrial and from the theoretical point of view, the ideas expressed in chemical literature as to its origin and nature, and the mechanism by which it acts as an adsorbent are diverse in the extreme. It was the object of the investigations here described to throw some light on the mechanism by which fuller’s earth adsorbs organic acids and bases from aqueous solutions. In particular the influence of hydrogen-ion concentration upon the adsorption of these bodies was studied. The results indicate that two types of adsorption take place; that of unionised molecules and that of cations which displace calcium ions from the surface. Geologists seem to be agreed that fuller’s earth consists essentially of alu­minium silicate associated with a little free silica and smaller quantities of iron, calcium and alkalis. It differs from ordinary clays in having a higher percentage of combined water. The exact nature of the silicates actually present in fuller’s earth is necessarily uncertain as a rational analysis of so complex a mixture is obviously extremely difficult to obtain.

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