Department of Botany and Plant Pathology, Purdue University, West Lafayette, Indiana 47907.
Plant Physiol. 1977 Jun;59(6):1051-4. doi: 10.1104/pp.59.6.1051.
Over a 3-day period, the minimum white fluorescent light intensity required for malformin-induced growth stimulation of etiolated and green cuttings of Phaseolus aureus was approximately 2.6 x 10(3) and 0.4 x 10(3) ergs/cm(2) . sec, respectively. High light intensities were unable to inhibit the ability of malformin to stimulate growth. Over 3 days, the minimum photoperiod for malformin-induced growth stimulation using etiolated and green cuttings and a light intensity of 13.5 x 10(3) ergs/cm(2) . sec was 4 hours and 1 hour, respectively. Malformin must be present in the area of growth stimulation during the time of light treatment. Those changes induced by light and required for malformin-induced growth stimulation were estimated to undergo almost complete decay within 1 hour in the dark. By manipulating the experimental technique, it was possible to stimulate the growth of green cuttings with malformin with a 10-min light treatment (13.5 x 10(3) ergs/cm(2) . sec). Although low light intensities and short photoperiods did not allow growth stimulation by malformin using etiolated cuttings, they prevented or alleviated growth inhibition induced by malformin in the dark.
在三天的时间里,诱导金盏花幼苗和绿色插条生长的二甲双胍所需的最小白色荧光光照强度分别约为 2.6 x 10(3) 和 0.4 x 10(3) ergs/cm(2). sec。高强度光照无法抑制二甲双胍刺激生长的能力。在三天的时间里,使用金盏花幼苗和绿色插条以及 13.5 x 10(3) ergs/cm(2). sec 的光强度,诱导二甲双胍生长刺激的最小光周期分别为 4 小时和 1 小时。在光处理期间,二甲双胍必须存在于生长刺激区域。在黑暗中,这些由光诱导并被二甲双胍诱导生长所必需的变化估计在 1 小时内几乎完全衰减。通过操纵实验技术,用 10 分钟的光处理(13.5 x 10(3) ergs/cm(2). sec)就可以用二甲双胍刺激绿色插条的生长。虽然低光强度和短光周期不允许使用金盏花幼苗的二甲双胍生长刺激,但它们可以防止或减轻二甲双胍在黑暗中诱导的生长抑制。