COMPOSITION OF FOOD AND ACTION OF ENZYMES. 743 



conclusion, then the general explanation of fermentation is to be 

 sought in the nature of the enzymatic processes. Within recent 

 years the study of the enzymes has attracted especial attention. 

 The general point of view regarding their mode of action that is 

 most frequently met with to-day is that advocated especially 

 by Ostwald. He assumes, reviving an older view (Berzelius), 

 that the ferment actions are similar to those of catalysis. By 

 catalysis chemists designated a species of reaction which is brought 

 about by the mere contact or presence of certain substances, the- 

 catalyzers. Thus, hydrogen and oxygen at ordinary temperatures 

 do not combine to form water, but if spongy platinum is present 

 the two gases unite readily. The platinum does not enter into the 

 reaction, at least it undergoes no change, and it is said, therefore, 

 to act by catalysis. Many similar catalytic reactions are known, 

 and the chemists have reached the important generalization that 

 in such reactions the catalyzer, platinum in the above instance, 

 simply hastens a process which would occur without it, but much 

 more slowly. A catalyzer is a substance, therefore, that alters 

 the velocity of a reaction, but does not initiate it. This idea is 

 illustrated very clearly by the catalysis of hydrogen peroxid. This 

 substance decomposes spontaneously into water and oxygen accord- 

 ing to the reaction H 2 O 2 = H 2 O + O, but the decomposition is 

 greatly hastened by the presence of a catalyzer. Thus, Bredig has 

 shown that platinum in very fine suspension, so-called colloidal 

 solution, exerts a marked accelerating influence upon this reaction; 

 one part of the colloidal platinum to 350 million parts of water 

 may still exercise a perceptible effect. The blood and aqueous ex- 

 tracts of various tissues also catalyze the hydrogen peroxid readily, 

 and this effect has been attributed to the action of an enzyme (cata- 

 lase). The view has been proposed, therefore, that the enzymes of 

 the body act like the catalyzers of inorganic origin: they influence 

 the velocity of certain special reactions. Such a general conception 

 as this unifies the whole subject of fermentation and holds out the 

 hope that the more precise investigations that are possible in the case 

 of the inorganic catalyzers will eventually lead to a better under- 

 standing of the underlying physical causes of fermentation. It 

 should be borne in mind, however, that some of the best known of the 

 ferment actions of the body, such as the peptic or tryptic digestion of 

 protein, fit into this view only theoretically and by analogy. As a 

 matter of fact, albumins at ordinary temperatures do not split up 

 spontaneously into the products formed by the action of pepsin; 

 if we consider that the pepsin simply accelerates a reaction already 

 taking place, it must be stated that this reaction at ordinary 

 temperatures is infinitely slow, that is, practically does not occur. 

 At higher temperatures, however, similar decompositions of al- 

 bumin may be obtained without the presence of an enzyme. 



