Dept of Plant Physiology, Swedish Univ. of Agricultural Sciences, P.O. Box 7047, S-750-07 Uppsala, Sweden.
Physiol Plant. 1990 Aug;79(4):686-92. doi: 10.1111/j.1399-3054.1990.tb00045.x.
It was investigated whether K(+) efflux, like K(+) influx, is affected when roots are transferred between solutions with different K(+) concentrations. Sunflower plants (Hehanthus annuus L. cv. Uniflorus) were grown on complete nutrient solutions with 0.1, 1.0, 10 or 25 mM K(+) . This produced plants with K(+) concentrations in the roots varying between 9 and 110 μmol (g fresh weight)(-1) . At the beginning of the experiments the plants were transferred to an (86) Rb-labelled experimental solution initially containing 0.1 mM K(+) . At intervals during 6.5 h samples were removed from the solution and analyzed for K(+) and radioactivity. Based on the analyses K(+) ((86) Rb) influx, K(+) net uptake and K(+) efflux could be computed. In'low K(+) 'roots, K(+) ((86) Rb) influx and K(+) net uptake agreed, suggesting a very low K(+) efflux. This was contrary to'high K(+) 'roots, where K(+) efflux was initially higher than K(+) ((86) Rb) influx. After about 4 h, K(+) efflux declined to a low value also in these roots. When 2-4-dinitrophenol was included in the experimental solution, K(+) ((86) Rb) influx was generally depressed, whereas K(+) efflux was high throughout the experiment and directly proportional to the K(+) status of the roots. Our hypothesis is that after transfer of'high K(+) 'roots to a solution with low K(+) concentration, the K(+) efflux from the vacuoles of root cells transiently increases, until a new electrochemical equilibrium is attained.
研究了在将根系从不同钾浓度的溶液中转移时,钾外流是否像钾内流一样受到影响。向日葵植物(Hehanthus annuus L. cv. Uniflorus)在含有 0.1、1.0、10 或 25 mM K+的完全营养溶液中生长。这使得根系中的 K+浓度在 9 到 110 μmol(g 鲜重)(-1)之间变化。在实验开始时,将植物从最初含有 0.1 mM K+的(86)Rb 标记实验溶液转移到实验溶液中。在 6.5 小时的过程中,每隔一段时间从溶液中取出样品并分析 K+和放射性。基于分析,可以计算 K+((86)Rb)内流、K+净吸收和 K+外流。在“低钾”根中,K+((86)Rb)内流和 K+净吸收一致,表明 K+外流非常低。这与“高钾”根相反,其中 K+外流最初高于 K+((86)Rb)内流。大约 4 小时后,这些根中的 K+外流也下降到低值。当实验溶液中包含 2-4-二硝基苯酚时,K+((86)Rb)内流通常受到抑制,而 K+外流在整个实验过程中很高,并且与根的 K+状态直接成正比。我们的假设是,将“高钾”根转移到低钾浓度的溶液后,根细胞液泡中的 K+外流暂时增加,直到达到新的电化学平衡。
