植物中DREBs类转录因子及其在非生物胁迫中的作用

低温、干旱、高盐等非生物胁迫能够严重影响植物的生长及作物的产量。最近发现了许多调控多种与逆境相关基因表达的转录因子, 其中DREBs类转录因子能够通过与含有DRE/CRT顺式作用元件的抗逆相关基因启动子区相互作用, 进而调控一系列抗逆基因的表达, 使植物品质得到综合改良从而提高植物对非生物胁迫耐受力。文章通过对DREBs的结构、表达调控、作用方式及机理进行总结, 并结合其在植物胁迫信号通路中的作用以及提高转基因植株胁迫耐受性的最新研究成果加以综述, 并对其在农业生产中的应用前景进行展望。     

TINY, a dehydration-responsive element (DRE)-binding protein-like transcription factor connecting the DRE- and ethylene-responsive element-mediated signaling pathways in Arabidopsis

Dehydration-responsive element-binding proteins (DREBs) and ethylene-responsive element (ERE) binding factors are two major subfamilies of the AP2/ethylene-responsive element-binding protein family and play crucial roles in the regulation of abiotic- and biotic-stress responses, respectively. In the present work, we have reported a previously identified DREB-like factor, TINY, that was involved in both abiotic- and biotic-stress signaling pathways. TINY was capable of binding to both DRE and ERE with similar affinity and could activate the expression of reporter genes driven by either of these two elements in tobacco cells. The 15th amino acid in the APETALA2 (AP2)/ethylene-responsive element-binding factor domain was demonstrated to be essential for its specific binding to ERE, whereas the 14th and 19th amino acids were responsible for the binding to DRE. The expression of TINY was greatly activated by drought, cold, ethylene, and slightly by methyl jasmonate. Additionally, overexpression of TINY in Arabidopsis resulted in elevated expressions of both the DRE- and the ERE-containing genes. Moreover, the expression of DRE-regulated genes, such as COR6.6 and ERD10, was up-regulated upon ethylene treatment, and the expression of ERE-regulated genes, such as HLS1, was also increased by cold stress, when the expression of TINY was being induced. These results strongly suggested that TINY might play a role in the cross-talk between abiotic- and biotic-stress-responsive gene expressions by connecting the DRE- and ERE-mediated signaling pathways. The results herein might promote the understanding of the mechanisms of specific DNA recognition and gene expression regulation by DREBs.     

Interaction between two cis-acting elements,ABRE and DRE,in ABA-dependent expression of Arabidopsis rd29A gene in response to dehydration and high-salinity stresses

Many abiotic stress-inducible genes contain two cis-acting elements, namely a dehydration-responsive element (DRE; TACCGACAT) and an ABA-responsive element (ABRE; ACGTGG/TC), in their promoter regions. We precisely analyzed the 120 bp promoter region (-174 to -55) of the Arabidopsis rd29A gene whose expression is induced by dehydration, high-salinity, low-temperature, and abscisic acid (ABA) treatments and whose 120 bp promoter region contains the DRE, DRE/CRT-core motif (A/GCCGAC), and ABRE sequences. Deletion and base substitution analyses of this region showed that the DRE-core motif functions as DRE and that the DRE/DRE-core motif could be a coupling element of ABRE. Gel mobility shift assays revealed that DRE-binding proteins (DREB1s/CBFs and DREB2s) bind to both DRE and the DRE-core motif and that ABRE-binding proteins (AREBs/ABFs) bind to ABRE in the 120 bp promoter region. In addition, transactivation experiments using Arabidopsis leaf protoplasts showed that DREBs and AREBs cumulatively transactivate the expression of a GUS reporter gene fused to the 120 bp promoter region of rd29A. These results indicate that DRE and ABRE are interdependent in the ABA-responsive expression of the rd29A gene in response to ABA in Arabidopsis.     

DRE顺式作用元件dsDNA芯片制备

DRE顺式作用元件能与DREB转录因子特异结合,在诱导逆境（干旱、高盐、低温）基因表达过程中起重要作用。dsDNA（double strand DNA）微阵列芯片技术能够有效地检测序列特异性DNA结合蛋白质（转录因子）与大量DNA靶点（顺式作用元件）的特异性结合,可有效分析生物分子结合作用。根据DRE顺式作用元件核心序列设计并化学合成含发夹结构的单链DNA探针,采用Taq DNA聚合酶在片延伸,并对其在片延伸体系的反应温度、Mg^2＋浓度以及单链探针是否变性等条件进行了优化。结果表明,50％的反应温度,2．5mmol／L的Mg^2＋浓度和单链不变性是TaqDNA聚合酶在片延伸的最佳条件。优化方法制备的dsDNA芯片将更有利于DRE顺式作用元件与DREB抗逆转录因子相互作用的研究。     

草坪草狗牙根中抗逆基因BeDREB的克隆及功能鉴定

DREB(dehydrationresponsiveelementbindingprotein)蛋白是一类在植物中所特有的,能与DRE(dehydrationresponsiveelement)顺式作用元件特异性结合的转录因子,调控与干旱、高盐以及低温等逆境胁迫应答有关基因的表达.根据狗牙根近缘植物的DREB转录因子的AP2EREBP保守结构域的基因序列,通过RTPCR和RACE的方法分别从冷诱导和盐诱导的狗牙根cDNA中扩增到了2个似DREB基因,分别命名为BeDREB1和BeDREB2,并已提交NCBIGenBank,其登录号分别为AY462117和AY462118.这两个基因的编码框均为753个碱基,编码251个氨基酸,具有DREB转录因子的典型特征.两种逆境胁迫下扩增的基因序列同源性很高,达到了97.8%.利用酵母单杂交真核转录激活的方法进行了功能鉴定,证明BeDREB1和BeDREB2蛋白均可以与DRE顺式作用元件结合,激活下游报告基因HIS3的表达.RTPCR结果显示,BeDREB1基因受冷胁迫诱导表达,而BeDREB2受盐胁迫的诱导表达,且随着诱导时间的不同,表达量也在发生变化.上述结果表明,从狗牙根中克隆到的BeDREB1和BeDREB2基因属于DREB转录因子家族的新成员,在狗牙根中分别与冷胁迫和盐胁迫的信号转导有关.     

CBF/DREB转录因子与植物矮化的相关性研究进展

CBF/DREB转录因子即干旱应答元件结合蛋白,是一类可以调控多个与干旱、高盐及低温耐性有关的功能基因表达的转录因子家族。很多报道称CBF/DREB转录因子的过量表达使转基因植株产生矮化、晚花现象。着重探讨CBF/DREB转录因子与植物矮化现象相关性与其矮化机理,并对草坪草育种新方向进行展望。     

玉米中与DRE元件结合的转录因子的克隆和结构分析

DREB类的转录因子特异性地与DRE元件（脱水应答元件）结合,在植物感受干旱,高盐及低温等逆境条件时,激活一系列下游逆境应答基因的表达。进一步的研究发现,拟南芥DREB蛋白的DNA结合域（AP2区）中14位的缬氨酸和19位的谷氨酸对该转灵因子与DNA结合起着关键性的作用。利用酵母单杂交的方法,我们从玉米（Zea mays L.)的cDNA文库中分离到一个编码与DRE元件结合的蛋白的基因,命名为maDREB1。酵母体内的反式激活实验表明,该基因编码和蛋白能特异地与DRE元件结合并能激活下游报告基因的表达。对maDREB1蛋白14位和19位的氨基酸进行单位突变和双点突变实验,发现14位的缬氨酸突变为丙氨酸后maDREB1几乎丧了其转录激活能力,而19位的谷氨酸突变为天门冬氨酸后maDREB1的转录激活能力也受到较大影响。