应我校化工与化学学院邀请,中国科学院深圳先进技术研究院戴卓君教授将于2022年7月22日上午10:00开设线上讲座,具体信息如下:
报告人:戴卓君
联系人:齐殿鹏
报告题目:结合工程细菌与智能材料实现生物智造
报告时间:2022年7月22日,上午10:00
腾讯会议会议 ID:251 477 545
本次报告戴卓君教授将分享关于工程细菌与智能材料实现生物智造的独到见解,欢迎全校师生踊跃参加
主讲人简介:
戴卓君,中国科学院深圳先进技术研究院研究员,中国科学院人才项目入选者,国家重点研发计划课题负责人。本科毕业于浙江大学,于香港中文大学化学系吴奇教授实验室取得博士学位后,在美国杜克大学游凌冲教授实验室从事博士后研究。课题组的主要研究方向是活体功能材料、智能制造方法开发以及合成功能菌群的构建及调控。研究受到了国家自然科学基金,国家重点研发“合成生物学重大专项“,以及深圳市科创委孔雀团队项目的支持,相关成果以通讯作者(含共同)发表在Nature Chemical Biology、Nature Communications等国际专业期刊。
Professor Zhuojun Dai is a researcher at the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, a candidate for the talent project of the Chinese Academy of Sciences, and the project leader of the National Key R&D Program.
She received her Bachelor degree in Polymer Science and Engineering from Zhejiang University. She obtained PhD degree in chemistry from The Chinese University of Hong Kong under the supervision of Prof Chi Wu, where she investigated the polymer chain dynamics, interactions between the polycations and polyanions and cell-material interactions from the view of polymer physics and chemistry. Then, she undertook postdoctoral training at the Department of Biomedical Engineering, Duke University in Prof Lingchong You’s lab, where she integrated the stimulus-sensitive materials with synthetic gene circuit to build a versatile manufacturing platform. Since Sep, 2018, she started her lab in iSynBio. Her research interests include living functional materials, development of intelligent manufacturing methods, and construction and regulation of synthetic functional flora. The research was supported by the National Natural Science Foundation of China, the National Key Research and Development "Major Project of Synthetic Biology", and the Peacock Team Project of Shenzhen Science and Technology Innovation Committee. The relevant results were published as corresponding authors (including co-authors) in Nature Chemical Biology, Nature Communications and other international professional journals.
报告摘要:
合成生物学通过构建基因线路等一系列手段与工具编辑特定生物行为,实现绿色制造、生物传感等一系列功能。然而,单纯的生物体难以独自完成复杂、多维度及多层次的任务。与水凝胶等一系列生物材料相结合可极大的拓展合成生物学理论与应用的范围和深度。本报告将介绍报告人近期实验室工作:通过结合工程细菌与智能材料实现多层次、多样式的生物智造。