Kowallik W, Kirst R
Botanisches Institut der Universität, Gyrhofstr. 15, D-5000, Köln-41, Germany.
Planta. 1975 Jan;124(3):261-6. doi: 10.1007/BF00388688.
In the temperature range of 20-50°C the O2-uptake of resting cells of a chlorophyll-free, carotenoid-containing mutant of Chlorella vulgaris Beijerinck (211-11h/20) in the dark is greatest at 47°; in blue light, however, it is highest at 32° (Fig. 1).A preceding one-hour exposure to temperatures of 15-45° in the dark affects neither the O2-uptake at subsequent 30° in darkness nor its enhancement by blue light. Pre-exposure to 50°, however, results in a slightly decreased dark rate and in the absence of any blue light effect, while pre-incubation in 55-70° leads to almost complete suppression of the O2-uptake in darkness as well as under blue light (Fig. 2). The temperature dependence of the O2-consumption of cells supplied with 1% of exogenous glucose in the dark shows an optimum around 36° (Fig. 3a), which correlates with that of the temperature dependence of an active uptake of 3-O-methylglucose (Fig. 3b).The resemblance of these latter temperature dependencies to that of enhanced O2-uptake in blue light leads-together with Georgi's (Dr. thesis, Cologne, 1974) results of pulse chase experiments with [(14)C]glucose-to the discussion of an effect of blue light on intracellular membrane transport systems, which might result in a greater supply of sugar to the respiratory machinery.
在20 - 50°C的温度范围内,普通小球藻(Chlorella vulgaris Beijerinck)无叶绿素、含类胡萝卜素的突变体(211 - 11h/20)静止细胞在黑暗中的O₂摄取量在47°时最大;然而,在蓝光下,它在32°时最高(图1)。在黑暗中预先暴露于15 - 45°的温度1小时,既不影响随后在30°黑暗中的O₂摄取量,也不影响蓝光对其的增强作用。然而,预先暴露于50°会导致黑暗速率略有下降,且不存在任何蓝光效应,而在55 - 70°下预孵育会导致黑暗以及蓝光下的O₂摄取几乎完全受到抑制(图2)。在黑暗中供应1%外源葡萄糖的细胞的O₂消耗对温度的依赖性在36°左右显示出一个最佳值(图3a),这与3 - O - 甲基葡萄糖主动摄取对温度的依赖性相关(图3b)。这些后者对温度的依赖性与蓝光下增强的O₂摄取的依赖性相似,再加上乔治(博士论文,科隆,1974年)用[¹⁴C]葡萄糖进行脉冲追踪实验的结果,引发了关于蓝光对细胞内膜运输系统影响的讨论,这可能导致更多的糖供应给呼吸机制。
