Puhakainen Tuula, Li Chunyang, Boije-Malm Maria, Kangasjärvi Jaakko, Heino Pekka, Palva E Tapio
Division of Genetics, Department of Biological and Environmental Sciences, Viikki Biocenter, University of Helsinki, FIN-00014 Helsinki, Finland.
Plant Physiol. 2004 Dec;136(4):4299-307. doi: 10.1104/pp.104.047258. Epub 2004 Nov 24.
Development of winter hardiness in trees is a two-stage process involving sequential perception of distinct environmental cues, short-day (SD) photoperiod and low temperature (LT). We have shown that both SD and LT are recognized by leaves of silver birch (Betula pendula cv Roth) leading to increased freezing tolerance, and thus leaves can be used as an experimental model to study the physiological and molecular events taking place during cold acclimation. To obtain a molecular marker for the acclimation process in birch we cloned a gene, designated Bplti36, encoding a 36-kD acidic SK2 type of dehydrin. The gene was responsive to LT, drought, salt, and exogenous abscisic acid. This responsiveness to abiotic stresses and abscisic acid was retained when Bplti36 was introduced to Arabidopsis (Arabidopsis thaliana). The LT induction of the gene appeared to be under the control of the C-repeat-binding factor pathway as suggested by the presence of several C-repeat/dehydration-responsive element/LT-responsive elements in the Bplti36 promoter and its constitutive expression in C-repeat-binding factor overproducing Arabidopsis. In birch SD photoperiod at normal-growth temperature did not result in significant induction of Bplti36. However, preexposure to SD followed by LT treatment resulted in a remarkable increase in Bplti36 transcript accumulation as compared to LT-treated plants grown at long-day photoperiod. This suggests that SD photoperiod potentiates the LT response by conditioning the leaf tissue to be more responsive to the LT stimulus.
树木抗寒性的发展是一个两阶段的过程,涉及对不同环境信号(短日照光周期和低温)的顺序感知。我们已经表明,短日照和低温都能被白桦(Betula pendula cv Roth)的叶片识别,从而提高其抗冻性,因此叶片可作为研究冷驯化过程中发生的生理和分子事件的实验模型。为了获得白桦驯化过程的分子标记,我们克隆了一个名为Bplti36的基因,该基因编码一种36-kD酸性SK2型脱水素。该基因对低温、干旱、盐和外源脱落酸有响应。当将Bplti36导入拟南芥(Arabidopsis thaliana)时,其对非生物胁迫和脱落酸的这种响应得以保留。如Bplti36启动子中存在几个C-重复序列/脱水响应元件/低温响应元件以及其在过量表达C-重复序列结合因子的拟南芥中的组成型表达所表明的那样,该基因的低温诱导似乎受C-重复序列结合因子途径的控制。在白桦中,正常生长温度下的短日照光周期不会导致Bplti36的显著诱导。然而,与在长日照光周期下生长的经低温处理的植株相比,先暴露于短日照然后进行低温处理会导致Bplti36转录本积累显著增加。这表明短日照光周期通过使叶片组织对低温刺激更敏感来增强低温响应。