植物免疫诱抗剂的作用机理和应用研究进展

植物免疫诱抗剂除了能诱导植物免疫反应以使植物获得或提高对病菌的抗性外,也可以激发植物体内代谢调控过程,促进植物生长,增加作物产量。植物免疫诱抗剂可以诱导植物产生系统获得抗性以使植物对病原菌产生广泛、长期的抗性。本综述全面、系统地介绍了植物免疫诱抗剂的种类及其目前在生产、病害防治上的应用状况,阐述了其作用机理,并展望了植物免疫诱抗剂的应用前景。通过对植物免疫诱抗剂发展历史和应用现状的分析,旨在为植物免疫诱抗剂未来的开发和应用提供一定的理论和实践依据。     

砂藓(Racomitrium canescens)RcRab基因的克隆及生物信息学分析

本研究以砂藓(Racomitrium canescens)为材料,从砂藓干旱处理转录组数据库中筛选获得小G结合蛋白基因Rab的mRNA序列,通过RT-PCR法扩增,得到RcRab基因的CDS序列,并对其进行了生物信息学分析。结果表明,该基因c DNA全长为1171 bp,包含636 bp的开放阅读框,编码211个氨基酸。预测该基因有Rab家族的保守结构域-G结构域。RcRab蛋白分子质量为23.29 kD,理论等电点为5.76,具有亲水性,不属于跨膜蛋白且不存在信号肽。进化树分析表明,RcRab蛋白质与小立碗藓(Physcomitrella patens)Rab蛋白质亲缘关系最近。本研究可为进一步探索RcRab基因在苔藓植物中的抗旱机制提供数据基础。     

棉花SSR-PCR过程中聚丙烯酰胺凝胶电泳操作常见问题的解决与优化

在大批量聚丙烯酰胺凝胶电泳过程中,难免会出现条带空白、弯曲或者拖尾等各种异常现象。本文以棉花DNA为例,综述了多年实验操作中遇到的突发情况及解决方法,为广大科研工作者提供参考。     

冬季防虫网内外环境因子变化对砂糖橘冬稍生长的影响

探索防虫网覆盖栽培技术对网室环境因子和砂糖橘冬稍生长的影响。对12月份40目防虫网内外环境因子、害虫和冬梢性能进行了检测,结果显示,40目透光防虫网防虫网能增加柑网室的温度和湿度,同时降低柑网室的光照强度和光照时间,冬季对柑橘害虫的数量没有影响,防虫网导致的柑橘园环境因子的变化对柑橘冬稍的生长没有影响。     

黄河流域机采棉植株性状的筛选

为筛选适合黄河流域棉区机采的品种,对16份棉花材料的果枝始节高度、株高、产量构成因素、纤维品质指标进行系统调查、分析与研究。结果表明:适合进一步培育机采品种的材料为590032、中棉所49。     

棉花花铃期持续高温对不同部位成铃和品质的影响

为了探讨花铃期高温对棉花成铃的影响,设置了6个品种试验,调查生长发育、农艺性状与纤维品质。结果表明花铃期高温天气出现频率高,持续时间长,棉花下部棉铃,尤其是中部优质棉铃的成铃率下降,对纤维品质影响大,高温期开花5-6果枝成铃的纤维长度变短,中下部1-6果枝铃的纤维断裂比强度明显低于上部7-9果枝。7月中下旬应增施磷钾肥,提高滴灌频率,缩短滴灌时间,改善田间小气候,减轻天气对棉花产量和品质的影响。     

Physiological characteristics of high yield under cluster planting: photosynthesis and canopy microclimate of cotton

Cotton produces more biomass and economic yield when cluster planting pattern (three plants per hole) than in a traditional planting pattern (one plant per hole), even at similar plant densities, indicating that individual plant growth is promoted by cluster planting. The causal factors for this improved growth induced by cluster planting pattern, the light interception, canopy microclimate and photosynthetic rate of cotton were investigated in an arid region of China. The results indicated that the leaf area index and light interception were higher in cluster planting, and significantly different from those in traditional planting during the middle and late growth stages. Cotton canopy humidity at different growth stages was increased but canopy temperatures were reduced by cluster planting. In the later growth stage of cluster planting, the leaf chlorophyll content was higher and the leaf net photosynthetic rate and canopy photosynthetic rate were significantly increased in comparing with traditional planting pattern. We concluded that differences in canopy light interception and photosynthetic rate were the primary factors responsible for increased biomass production and economic yield in cluster planting compared with the traditional planting of cotton.