Crop Physiology Laboratory, Department of Agronomy, University of Illinois, Urbana, Illinois.
Plant Physiol. 1968 Dec;43(12):1941-6. doi: 10.1104/pp.43.12.1941.
Potassium deficiency decreased the total RNA per shoot in corn (Zea mays L.) seedlings due to the reduced sizes of the plant, but increased the ratio of RNA to dry matter as much as 40%. Total base composition of RNA was unaffected by K(+) deficiency. Thus K(+) deficiency does not appear to alter RNA metabolism to such an extent that a lack of RNA becomes a factor limiting growth. The RNA contents of leaves were followed as deficiency developed or as the plant recovered from deficiency. Such time-course studies, although extremely useful in microbial work, did not yield as much information with higher plants. The ratio of RNA to dry matter in younger leaves was much higher than that in older leaves. The ribonuclease level in corn shoots was increased as much as threefold by K(+) deficiency.
缺钾会使玉米(Zea mays L.)幼苗的总 RNA 含量减少,这是由于植株变小所致,但 RNA 与干物质的比例增加了 40%。RNA 的总碱基组成不受 K(+)缺乏的影响。因此,K(+)缺乏似乎并没有改变 RNA 代谢,以至于 RNA 缺乏成为限制生长的因素。随着缺钾的发展或植物从缺钾中恢复,观察叶片的 RNA 含量。尽管此类时间进程研究在微生物工作中非常有用,但对于高等植物却没有产生那么多信息。较幼叶的 RNA 与干物质的比例远高于较老叶。K(+)缺乏使玉米茎中的核糖核酸酶水平增加了多达三倍。