349 
Per cent. 
Histidin 2. 6 
Arginin 4. 84 
Tryptophane 1. 5 
Ammonia 1. 8 
Cystein 0 
Am ino valerianic acid 1. 
Glucosamin 0 
Diamino-trioxy dodecanoic acid r , 75 
. According to this author the absence of glycocoll and the carbo- 
l| hydrate radical and the relatively high ty rosin and tryptophane 
6 content of caseinogen render it especial!}^ readily digestible. It 
; seems also to be the only native albumin which is attacked by erepsin 
A(see Cohnheim (3)), and on account of its ease of hydrolysis it 
i 'probably plays a special port in metabolism. In this connection 
Tunnicliffe (4) has shown that when total digestibility is considered 
human milk is much more digestible than any of its substitutes. 
; Among the various changes brought about in the composition of 
i milk through the action of the digestive ferments the most typical 
i and characteristic is the rennin coagulation. Exclusive of the 
■ mineral matter the caseinogen is the only constituent of the milk 
I involved in this change. 
I It has long been known that fresh milk coagulates in the stomach 
I of higher animals, and that an aqueous extract of the inner lining 
: of the stomach of the calf, when added to fresh milk, causes it to 
I curdle, whereby it clots or sets in the form of a solid curd. Since 
I early times this fact has been turned to practical account in the 
making of cheese. The earlier explanations of the rennin coagu- 
■ lation of milk were based on an observation by Fremy (5) to the 
effect that rennet, or the mucous lining of the calf’s stomach, has the 
power of converting milk sugar into lactic acid. According to 
Liebig (6), therefore, rennin curdles milk for the reason that it acts 
upon the milk sugar, converting it into lactic acid. The latter then 
neutralizes the alkali of the milk wdiich holds the caseinogen in 
solution, thereby precipitating this substance as the curd. 
Soxhlet (7) also saw in the curdling of milk by rennin an analogy 
to the coagulation of milk by acids. According to him the former 
process took place much more rapidly than the latter. He held 
with Liebig that the rennin converted the sugar of milk into lactic 
acid and that this in turn converted the alkaline phosphate existing 
in the milk into an acid phosphate, which in turn precipitatel the 
casein. Hallier (8) explained the rennin coagidation of milk as due 
to the presence of micro-organisms in the stomach of the calf. The 
most important of the earlier observations on the curdling of milk 
by rennin was that made by Heintz (9), who showed that contrary 
to previous teachings on the subject the acqueous extract of the 
