ERF020参与调控水稻避旱性OA
ERF020 participates in regulating drought avoidance in rice
[目的]水稻是我国最主要的粮食作物之一,生产过程中需要消耗大量的水资源.干旱频发严重影响了水稻生产,威胁我国粮食安全.利用水稻抗旱基因资源、培育节水抗旱稻已成为水稻育种的重要方向之一.在众多抗旱基因中,DREB亚族转录因子在调控植物对非生物胁迫的响应中起到了重要作用,是水稻抗旱性改良重要的基因资源.[方法]通过蛋白质序列比对和系统发育分析确定ERF020转录因子的分类及其进化关系.采用RNA实时定量PCR分析ERF020时空表达模式及其在典型水稻品种(中花11)和典型陆稻品种(草皮谷)根系中对渗透胁迫的响应表达模式.为进一步研究ERF020对避旱性的影响,比较了过表达株系与野生型拟南芥在渗透胁迫下的表现.[结果]ERF020含有一个AP2结构域,属于DREB亚族转录因子.ERF020在根系中的表达量较高,且响应渗透胁迫上调.ERF020在草皮谷中的表达要高于中花11,特别是在渗透胁迫处理条件下.中花11在处理前根长显著高于草皮谷,但在处理后中花11根长显著低于草皮谷.此外,处理前后中花11根冠比无显著差异,但处理后草皮谷根冠比显著高于处理前.在典型水稻和典型陆稻背景下,处理后ERF020表达量均显著上升,且处理前后草皮谷中ERF020的表达量均显著高于中花11.拟南芥渗透胁迫的实验结果表明,处理前后ERF020超表达株系根长均显著小于野生型,处理后野生型单株最大叶片叶面积显著大于超表达株系.[结论]ERF020具有AP2结构域,属于DREB亚族转录因子,并且在水稻根系中的表达量较高.ERF020的表达响应渗透胁迫,且在草皮谷品种中表达量高于中花11.在拟南芥中超表达ERF020可以有效改变其在渗透胁迫下的根系生长,表明其在避旱性中可能具有潜在的作用.ERF020是一个值得进一步研究和利用的水稻抗旱基因资源.
[Objective]Rice is one of the most important food crops in China and requires a large amount of water in production.Frequent droughts have seriously affected rice production and threatened food security in China.Research on the utilization of rice drought-resistant genes and the development of water-saving and drought-resistantce rice has become important in rice research.Among various drought resistant,DREB subfamily transcription factors play an important role in regulating plant tolerances to abiotic stresses and are important gene resources in improving rice drought resistance.[Method]Protein sequence alignment and phylogenetic analysis were used to determine the classification of transcription factors for ERF020 and its evolutionary relationship.Real-time quantitative PCR was used to analyze the spatiotemporal expression pattern of ERF020.And its expression pattern in response to osmotic stress in the roots of typical lowland rice genotype(Zhonghua 11)and a typical upland rice genotype(Caopigu).To further study the effect of ERF020 on drought avoidance ability,the performance of ERF020 overexpression lines and the wild-type Arabidopsis thaliana under osmotic stress were compared.[Result]ERF020 contains an AP2 domain and belongs to the DREB subfamily of transcription factor.The expression level of ERF020 is relatively high in the root and it is upregulated in response to osmotic stress.The expression of ERF020 in Caopigu is higher than that of Zhonghua 11,especially under osmotic stress conditions.Before the treatment,the root length of Zhonghua 11 was significantly higher than that of Caopigu,but after the treatment,the root length of Zhonghua 11 was significantly lower than that of Caopigu.Furthermore,there was no significant difference in the ratio of root-shoot in Zhonghua 11 before and after the treatment,but the ratio of root-shoot in Caopigu was significantly higher after the treatment than before.The expression of ERF020 significantly increased after treatment in both typical rice and typical upland rice backgrounds,and the expression of ERF020 in Caopigu background was significantly higher than that in Zhonghua 11 background before and after treatment.The experimental results on osmotic stress in Arabidopsis showed that the root length of ERF020 overexpression lines was significantly shorter than that of wild type before and after treatment,and the maximum leaf area of a single plant in wild type was significantly larger than that in overexpression lines after treatment.[Conclusion]ERF020 contains an AP2 domain and belongs to the DREB subfamily of transcription factor and it has a relatively high expression level in the roots of rice.The expression of ERF020 responds to osmotic stress,and its expression level is higher in Caopigu than in Zhonghua 11.Overexpression of ERF020 in Arabidopsis can effectively alter the root growth of the plant under osmotic stress,indicating that it may have potential roles in drought avoidance.ERF020 is a valuable resource of rice drought-resistant genes that is worthy of further research and utilization.
王顺杰;齐薇;罗志;王磊;周立国;罗利军;夏辉
华中农业大学 植物科学技术学院,湖北 武汉 430072||上海市农业生物基因中心,上海 201106上海市农业生物基因中心,上海 201106上海市农业生物基因中心,上海 201106上海市农业生物基因中心,上海 201106上海市农业生物基因中心,上海 201106华中农业大学 植物科学技术学院,湖北 武汉 430072||上海市农业生物基因中心,上海 201106华中农业大学 植物科学技术学院,湖北 武汉 430072||上海市农业生物基因中心,上海 201106
农业科技
水稻陆稻避旱性转录因子渗透胁迫
lowland riceupland ricedrought avoidancetranscription factorosmotic stress
《江西农业大学学报》 2026 (1)
1-10,10
国家自然科学基金项目(U24A20399)和上海市基金项目(23JC1403500) Project supported by National Natural Science Foundation of China(U24A20399)and Shanghai Science and Tech-nology Commission Fund(23JC1403500)
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