黑暗中雄蜂(意大利蜜蜂)超灌注视网膜内氧气的扩散与消耗
Diffusion and consumption of oxygen in the superfused retina of the drone (Apis mellifera) in darkness.
作者信息
Tsacopoulos M, Poitry S, Borsellino A
出版信息
J Gen Physiol. 1981 Jun;77(6):601-28. doi: 10.1085/jgp.77.6.601.
Double-barreled O2 microelectrodes were used to study O2 diffusion and consumption in the superfused drone (Apis mellifera) retina in darkness at 22 degrees C. Po2 was measured at different sites in the bath and retinas. It was found that diffusion was essentially in one dimension and that the rate of O2 consumption (Q) was practically constant (on the macroscale) down to Po2 s less than 20 mm Hg, a situation that greatly simplified the analysis. The value obtained for Q was 18 +/- 0.7 (SEM) microliter O2/cm3 tissue . min (n = 10), and Krogh's permeation coefficient (alpha D) was 3.24 +/- 0.18 (SEM) X 10(-5) ml O1/min . atm . cm (n = 10). Calculations indicate that only a small fraction of this Q in darkness is necessary for the energy requirements of the sodium pump. the diffusion coefficient (D) in the retina was measured by abruptly cutting off diffusion from the bath and analyzing the time-course of the fall in Po2 at the surface of the tissue. The mean value of D was 1.03 +/- 0.08 (SEM) X 10(-5) cm2/s (n = 10). From alpha D and D, the solubility coefficient alpha was calculated to be 54 +/- 4.0 (SEM) microliter O2 STP/cm3 . atm (n = 10), approximately 1.8 times that for water.
使用双管氧微电极研究了在22摄氏度黑暗条件下,体外灌注的雄蜂(蜜蜂)视网膜中的氧气扩散和消耗情况。在浴槽和视网膜的不同部位测量了氧分压(Po2)。结果发现,扩散基本上是一维的,并且在Po2小于20毫米汞柱时,氧气消耗率(Q)在宏观尺度上实际上是恒定的,这种情况大大简化了分析。得到的Q值为18±0.7(标准误)微升氧气/立方厘米组织·分钟(n = 10),克罗格渗透系数(αD)为3.24±0.18(标准误)×10-5毫升氧气/分钟·大气压·厘米(n = 10)。计算表明,在黑暗中,钠泵的能量需求仅需要该Q的一小部分。通过突然切断浴槽中的扩散并分析组织表面Po2下降的时间过程,测量了视网膜中的扩散系数(D)。D的平均值为1.03±0.08(标准误)×10-5平方厘米/秒(n = 10)。根据αD和D,计算出溶解系数α为54±4.0(标准误)微升氧气标准温度和压力/立方厘米·大气压(n = 10),约为水的1.8倍。
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