Kohn H, Levitt J
Botany Department, University of Missouri, Columbia.
Plant Physiol. 1966 May;41(5):792-6. doi: 10.1104/pp.41.5.792.
Hardening of SD (8 and 12 hrs) and LD (18- and 24-hr photoperiods) cabbage plants in stages at temperatures starting with + 5 degrees and ending with - 3 degrees led to the following changes:Soluble protein plus nonprotein N showed a net increase only in the SD plants. In both SD and LD plants, it decreased to a minimum toward the end of the first stage of hardening, increased to a maximum in the second stage. The degree of this change was proportional to the photoperiod. These changes were mainly due to the proteins.As in previous investigations, SH content rose during the first 1 to 2 weeks, but only in the SD plants. This rise was primarily due to the protein fraction. After the first 1 to 2 weeks both SD and LD plants showed a decrease in SH content, most pronouncedly during the second stage of hardening.Nonprotein SH content was very low and decreased during hardening in both SD and LD plants. Nonprotein SS increased during the first stage of hardening. Total nonprotein SH+2SS rose to a maximum during the first stage of hardening, paralleling both osmotic potential and hardiness. During the second stage the total decreased, in spite of the rise in hardiness. These results held true for both SD and LD plants.These results are all explainable on the basis of the SHright harpoon over left harpoonSS theory of frost resistance.
对处于短日照(8小时和12小时)和长日照(18小时和24小时光周期)的甘蓝植株进行阶段性低温锻炼,起始温度为+5℃,结束温度为 -3℃,结果导致以下变化:可溶性蛋白质加非蛋白质氮仅在短日照植株中呈现净增加。在短日照和长日照植株中,其在低温锻炼第一阶段结束时降至最低,在第二阶段增至最高。这种变化的程度与光周期成正比。这些变化主要归因于蛋白质。
如同先前的研究,巯基含量在前1至2周上升,但仅在短日照植株中如此。这种上升主要归因于蛋白质部分。在最初的1至2周后,短日照和长日照植株的巯基含量均下降,在低温锻炼的第二阶段最为明显。
非蛋白质巯基含量非常低,且在短日照和长日照植株的低温锻炼过程中均下降。非蛋白质二硫键在低温锻炼第一阶段增加。总非蛋白质巯基 + 2二硫键在低温锻炼第一阶段升至最高,与渗透势和抗寒性平行。在第二阶段,尽管抗寒性增强,但总量下降。这些结果在短日照和长日照植株中均成立。
这些结果均可依据抗冻性的巯基 ⇌ 二硫键理论得到解释。