人类红细胞的渗透水通透性。对水流方向和细胞体积的依赖性。
Osmotic water permeability of the human red cell. Dependence on direction of water flow and cell volume.
作者信息
Mlekoday H J, Moore R, Levitt D G
出版信息
J Gen Physiol. 1983 Feb;81(2):213-20. doi: 10.1085/jgp.81.2.213.
The osmotic permeability coefficient (Pf) was measured with a stopped-flow light-scattering technique. There is an artifactual light-scattering signal produced by the initial mixing that decays with a half-time of approximately 0.2 s. This seriously interferes with the measurement of the osmotically induced change in cell volume, which has a similar half-time. This "injection artifact" is associated with the biconcave shape of the cells. It is negligible for cells that have been made nearly spherical by swelling them in 160 mosmol. The dependence of this artifact on the cell volume may explain the previously observed dependence of Pf on the cell volume. When cells are made echinocytic (and therefore spherically symmetric), this injection artifact becomes negligible at all cell volumes and Pf can be accurately measured. The Pf of echinocytic cells was nearly constant, varying by less than 10% with the direction of flow and the medium osmolarity (160-360 mosmol). The average value of Pf was 2.0 X 10(-2) cm/s (T = 23 degrees C).
采用停流光散射技术测量渗透渗透系数(Pf)。初始混合会产生一个人为的光散射信号,其半衰期约为0.2秒,该信号会衰减。这严重干扰了对渗透压诱导的细胞体积变化的测量,细胞体积变化的半衰期与之相似。这种“注射伪影”与细胞的双凹形状有关。对于在160毫渗量中膨胀而变得接近球形的细胞,这种伪影可以忽略不计。这种伪影对细胞体积的依赖性可能解释了之前观察到的Pf对细胞体积的依赖性。当细胞变成棘状红细胞(因此呈球对称)时,在所有细胞体积下这种注射伪影都可以忽略不计,并且可以准确测量Pf。棘状红细胞的Pf几乎恒定,随流动方向和介质渗透压(160 - 360毫渗量)的变化小于10%。Pf的平均值为2.0×10⁻²厘米/秒(T = 23℃)。
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