朝鲜黄杨叶片冷驯化和冻害相关的核酸与蛋白质变化
Nucleic Acid and protein changes in relation to cold acclimation and freezing injury of korean boxwood leaves.
作者信息
Gusta L V, Weiser C J
机构信息
Laboratory of Plant Hardiness, Department of Horticultural Science, University of Minnesota, St. Paul, Minnesota 55101.
出版信息
Plant Physiol. 1972 Jan;49(1):91-6. doi: 10.1104/pp.49.1.91.
Abstract
Quantitative and qualitative differences in nucleic acids of Korean boxwood (Buxus microphylla var. Koreana) leaves were determined by methylated albumin kieselguhr chromatography at different levels of cold hardiness. During cold acclimation there was an increase in RNA, mainly ribosomal RNA, with little or no change in DNA. The increase in ribosomal RNA was closely paralleled by an increase in water soluble and membrane bound proteins. As cold hardiness increased, ribonuclease activity declined.Exposure of hardy boxwood plants to warm temperatures resulted in a rapid loss in cold resistance and a rapid synthesis of nucleic acids as judged by (32)P incorporation.Following a killing frost to Korean boxwood leaves, there was a rapid decrease in all nucleic acid fractions which was attributed to nuclease activity. Within 5 hours there was no measurable soluble RNA and ribosomal RNA. Tenaciously bound RNA was somewhat more persistent.
摘要
通过甲基化白蛋白硅藻土色谱法测定了不同抗寒水平下韩国黄杨(小叶黄杨变种)叶片核酸的定量和定性差异。在低温驯化过程中,RNA增加,主要是核糖体RNA增加,而DNA几乎没有变化或没有变化。核糖体RNA的增加与水溶性和膜结合蛋白的增加密切平行。随着抗寒能力的增强,核糖核酸酶活性下降。将耐寒的黄杨植物置于温暖温度下,根据磷-32掺入判断,抗寒能力迅速丧失,核酸迅速合成。韩国黄杨叶片遭受致命霜冻后,所有核酸组分迅速减少,这归因于核酸酶活性。5小时内,可溶性RNA和核糖体RNA无法检测到。紧密结合的RNA则更具持久性。
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