渗透动力学:十二. 硫化氢。
THE KINETICS OF PENETRATION : XII. HYDROGEN SULFIDE.
机构信息
Laboratories of The Rockefeller Institute for Medical Research, New York and The Bermuda Biological Station for Research, Bermuda.
出版信息
J Gen Physiol. 1936 Jan 20;19(3):397-418. doi: 10.1085/jgp.19.3.397.
The rate of entrance of H(2)S into cells of Valonia macrophysa has been studied and it has been shown that at any given time up to 5 minutes the rate of entrance of total sulfide (H(2)S + S(-)) into the sap is proportional to the concentration of molecular H(2)S in the external solution. This is in marked contrast with the entrance of ammonia, where Osterhout has shown that the rate of entrance of total ammonia (NH(3) + NR(4) (+)) does not increase in a linear way with the increase in the external concentration of NH(3), but falls off. The strong base guanidine also acts thus. It has been shown that the rate of entrance of H(2)S is best explained by assuming that it enters by diffusion of molecular H(2)S through the non-aqueous protoplasmic surface. It has been pointed out that the simple diffusion requires that the rate of entrance might be expected to be monomolecular. Possible causes of the failure of H(2)S to follow this relationship have been discussed.
已经研究了 H(2)S 进入 Valonia macrophysa 细胞的速率,并表明在任何给定的 5 分钟内,总硫化物(H(2)S + S(-))进入汁液的进入速率与外部溶液中分子 H(2)S 的浓度成正比。这与氨的进入形成鲜明对比,Osterhout 已经表明,总氨(NH(3) + NR(4) (+))的进入速率不会随外部 NH(3)浓度的增加呈线性增加,而是会下降。强碱胍也是如此。已经表明,H(2)S 的进入速率最好通过假设它通过非水细胞质表面的分子 H(2)S 扩散来解释。有人指出,简单扩散要求进入速率可能预期是单分子的。已经讨论了 H(2)S 未能遵循这种关系的可能原因。
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