. The Biochemical journal. Biochemistry. 268 T. H. MILROV AND .1. V. DONEGAN diffusion curves of imich tlic saiin' foiin. The difTcrence in the diffusion rate of salt from the acid uloljuliii solution is |)ossil)ly related to the influence of the acid on the h\(lrolysis of the ^dohulin salt, rctaniinj:, it to such an extent that th(> solution at the end was only faintly opalescent. Under those cir- cumstances the iilohulin-salt comjiound had not (evidently underLrone dissocia- tion to the same extent as in the alkaline medium. Hardy [liJ05J, Pauli [1903],. s 1 r Time in hours Fig. 4. Diffus
. The Biochemical journal. Biochemistry. 268 T. H. MILROV AND .1. V. DONEGAN diffusion curves of imich tlic saiin' foiin. The difTcrence in the diffusion rate of salt from the acid uloljuliii solution is |)ossil)ly related to the influence of the acid on the h\(lrolysis of the ^dohulin salt, rctaniinj:, it to such an extent that th(> solution at the end was only faintly opalescent. Under those cir- cumstances the iilohulin-salt comjiound had not (evidently underLrone dissocia- tion to the same extent as in the alkaline medium. Hardy [liJ05J, Pauli [1903],. s 1 r Time in hours Fig. 4. Diffusion Curves. (Percentage NaCl Loss.) NaCl Solution (W % NaCl = 0-585; A. Serum Globulin (acid solution) •-•© ,, =0-470; C. (alkaline solution) + ,, =0-528; D. Dialysed Plasma A „ =0-585; B. Mellanby [1905] and others have studied the influence of salts on the solution or precipitation of the globulin and have recognised that the globulin forms salt com^Jounds in equilibrium with the salt in solution. Pauli concludes that in the solution compounds of globulin with such a salt as NaCl are formed of the type Na-Globulin-Cl. It has been pointed out that, in cases where the effect of electrolvtes in solution on living tissues is altered bv the addition. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Biochemical Society (Great Britain); University of Liverpool. Biochemical Dept. London [etc. ] Cambridge University Press
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