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穿戴式生理信号监测与分析技术研究
本项目研究穿戴式生理信号监测与分析关键技术,实现日常无感长程医疗级连续监测,产-学-研-医合作研发穿戴式医疗设备,累计服务超十万人次,并助力新冠肺炎抗疫。 This project researches on the key technologies of wearable physiology signal monitoring. With the breakthrough of key technologies, we cou... [详细] -
面向能源物联网的智能传感芯片设计与应用
针对能源物联网领域,本团队研发出一系列具有自主知识产权的低功耗高精度智能传感芯片,多款芯片在国内外电力领域实现了大规模产业化应用,出货量超过1亿颗。 Low-power and high-precision smart sensing chips with proprietary architecture and techniques have been developed for energy internet of things.... [详细] -
甘蓝型油菜生态类型形成的分子机制及核心种质资源库的建设与共享
收集了全球39个国家991份油菜种质,对其基因组进行重测序,揭示了三种生态型差异的分子机制、及传播轨迹。建设了300份核心种质GWAS分析平台,并已分享给国内13家主要油菜研究单位。 We have collected 991 accessions of rapeseed germplasm from 39 countries/regions of the world. Based on whole-genome reseque... [详细] -
两个四倍体栽培棉种种间分化的基因组解析
海岛棉和陆地棉两个四倍体栽培棉种起源于共同祖先种。本项目组装了染色体水平的基因组,并从基因组水平上解析了纤维发育和适应性海陆种间分化的遗传机制。 G. hirsutum and G. barbadense origin from common ancestral allotetraploid cotton species. This project reports the chromosome-scale de novo assemb... [详细] -
遗传补偿效应分子机制
遗传补偿效应是指敲低某个基因时有表型,基因敲除突变体反而没有表型,被誉为遗传学上的悖论。该项研究揭示无义突变mRNA,Upf3a和COMPASS一起介导H3K4me3修饰提高同源基因表达,实现补偿效应。 The genetic compensation response (GCR), triggered by deleterious mutations but not by gene knockdown, has been pr... [详细]