Department of Horticulture, University of Illinois, Urbana, Illinois 61801.
Plant Physiol. 1969 Mar;44(3):385-95. doi: 10.1104/pp.44.3.385.
Monovalent ion stimulated ATPase activity from oat (Avena sativa) roots has been found to be associated with various membrane fractions (cell wall, mitochondrial and microsomal) of oat roots. The ATPase requires Mg(2+) (or Mn(+2)) but is further stimulated by K(+) and other monovalent ions. The monovalent ions are ineffective in the absence of the divalent activating cation. The ATPase has been described with respect to monovalent ion specificity, temperature, pH, substrate specificity, and Mg(2+) and K(+) concentrations. It was further shown that oligomycin inhibits a part of the total ATPase activity and on the basis of the oligomycin sensitivity it appears that at least 2 membrane associated ATPases are being measured. The mitochondrial fraction is most sensitive to oligomycin and the microsomal fraction is least sensitive to oligomycin. The oligomycin insensitive ATPase appears to be stimulated more by K(+) than the oligomycin sensitive ATPase.It was further shown that per gram fresh weight of roots, approximately 0.7 to 0.8 mumoles of K(+) were absorbed per mumole of K(+) stimulated ATP hydrolysis. This result was obtained for a variety of K(+) concentrations and was taken to mean that sufficient membrane associated ATPase exists to account for K(+) transport in the oat roots.
从燕麦(Avena sativa)根中发现单价离子刺激的 ATP 酶活性与燕麦根的各种膜部分(细胞壁、线粒体和微粒体)有关。该 ATP 酶需要 Mg(2+)(或 Mn(+2)),但进一步受到 K(+)和其他单价离子的刺激。在没有二价激活阳离子的情况下,单价离子无效。该 ATP 酶已根据单价离子特异性、温度、pH、底物特异性以及 Mg(2+)和 K(+)浓度进行了描述。进一步表明,寡霉素抑制了总 ATP 酶活性的一部分,并且根据寡霉素的敏感性,似乎正在测量至少 2 种与膜相关的 ATP 酶。线粒体部分对寡霉素最敏感,微粒体部分对寡霉素最不敏感。寡霉素不敏感的 ATP 酶似乎比寡霉素敏感的 ATP 酶受 K(+)的刺激更大。进一步表明,每克新鲜根重,每吸收 1 毫摩尔 K(+),就会刺激 0.7 至 0.8 毫摩尔的 K(+)水解。该结果适用于各种 K(+)浓度,并意味着存在足够的膜相关 ATP 酶来解释燕麦根中的 K(+)运输。
