Department of Soil Science, North Carolina State University, Raleigh, North Carolina 27695-7619.
Plant Physiol. 1987 Aug;84(4):1416-20. doi: 10.1104/pp.84.4.1416.
Potassium influx into roots of dark-grown decapitated maize seedling (Zea mays L., cv Pioneer 3369A) was examined in presence and absence of ambient ammonium and at various root potassium concentrations. Six-day old seedlings which were dependent on the endosperm reserves for their energy source were exposed to KCl (labeled with (86)Rb) ranging from 5 to 200 micromolar. At both low (13 micromoles per gram fresh weight) and high (100 micromoles per gram fresh weight) root potassium concentration, isotherms indicated two potassium influx systems, one approaching saturation at 50 to 100 micromolar potassium and an additional one tentatively considered to be linear. A mixed-type inhibition by ammonium for the low-concentration saturable system was indicated by a concomitant decrease in V(max) and increase in K(m). High root potassium concentration decreased V(max) but had little effect on K(m) of this system. The rate constant for the second quasilinear system was decreased by ambient ammonium and by high root potassium status. Transfer of high potassium roots to potassium-free solutions resulted in an increase in influx within 2 hours; by 24 hours influx significantly exceeded that of roots not previously exposed to potassium. In roots of both low and high root potassium concentrations, potassium influx was restricted progressively as ambient ammonium increased to about 100 micromolar, but there was little further inhibition as ammonium concentrations increased beyond that to 500 micromolar. The data imply that potassium influx has two components, one subject to inhibition by ambient ammonium and one relatively resistant.
黑暗中生长的去顶玉米幼苗(Zea mays L.,cv Pioneer 3369A)根部钾内流在环境铵存在和不存在的情况下以及在各种根部钾浓度下进行了检查。依赖胚乳储备提供能量的 6 天大幼苗暴露于(86)Rb 标记的 KCl 范围为 5 至 200 微摩尔。在低(13 微摩尔/克鲜重)和高(100 微摩尔/克鲜重)根部钾浓度下,等摩尔图表明存在两种钾内流系统,一种在 50 至 100 微摩尔钾时接近饱和,另一种则被认为是线性的。铵对低浓度饱和系统的混合类型抑制作用表现为 Vmax 同时降低和 K(m) 增加。高根钾浓度降低了 Vmax,但对该系统的 K(m)影响不大。第二个准线性系统的速率常数受到环境铵和高根钾状态的降低。将高钾根转移到无钾溶液中会导致在 2 小时内内流增加;24 小时后,内流显著超过以前未暴露于钾的根的内流。在低和高根钾浓度的根中,随着环境铵增加到约 100 微摩尔,钾内流逐渐受到限制,但当铵浓度增加到 500 微摩尔以上时,抑制作用几乎没有进一步增加。这些数据表明,钾内流有两个组成部分,一个受到环境铵的抑制,另一个相对不受抑制。