搜索结果: 1-15 共查到“遗传学 Research”相关记录22条 . 查询时间(0.125 秒)
重庆医科大学唐静副教授等在《Nucleic Acids Research》发文聚焦宿主遗传和免疫影响微生物组的大数据平台(图)
重庆医科大学 唐静副教授 Nucleic Acids Research 宿主遗传 免疫 影响微生物组 大数据平台
2021/1/11
近日,国际学术期刊《Nucleic Acids Research》以“GIMICA: host genetic and immune factors shaping human microbiota”为题,发表了重庆医科大学基础医学院/教育部生殖与发育国际合作联合实验室唐静副教授的最新研究成果。该成果从分子角度,提供了宿主遗传和免疫因素调控人体微生物组的系统大数据平台。我校唐静副教授为论文第一作者...
北京大学化学与分子工程学院雷晓光课题组在《Accounts of Chemical Research》杂志上发表了细胞死亡化学生物学研究综述(图)
北京大学化学与分子工程学院 雷晓光 细胞死亡 化学生物学
2020/4/22
雷晓光课题组在过去的10多年内一直致力于利用化学生物学方法,特别是利用正向化学遗传学方法,与生物学家合作,针对程序性细胞死亡开展机理性研究。通过利用不同类型的小分子探针,包括天然产物探针,揭示程序性细胞死亡信号转导通路中未知的调控蛋白和分子作用机制。同时,该课题组还进一步针对与非正常细胞死亡密切相关的人类重大疾病,如:癌症、炎症等,开展转化医学与创新药物研究。这一系列深入、系统的研究工作帮助发现和...
浙江大学遗传学研究所管敏鑫教授课题组在Nucleic Acids Research发表研究成果揭示线粒体tRNA转录缺陷导致原发性高血压的致病新机理(图)
浙江大学遗传学研究所 管敏鑫 教授 线粒体 tRNA转录缺陷 原发性 高血压 致病新机理
2019/10/9
2019年8月28日,浙江大学遗传学研究所管敏鑫教授课题组在国际权威学术期刊《核酸研究》(Nucleic Acids Research)在线发表了线粒体tRNA转录缺陷导致原发性高血压的最新研究成果(原文链接:https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkz742/5555676),首次揭示了线粒体基因组重链和轻链的非...
浙江大学遗传学研究所管敏鑫教授课题组在Nucleic Acids Research发表研究成果揭示线粒体tRNA修饰基因GTPBP3缺陷导致肥厚型心肌病的致病机理(图)
浙江大学遗传学研究所 管敏鑫 教授 线粒体 tRNA修饰基因 GTPBP3缺陷 肥厚型心肌病 致病机理
2019/10/9
2019年3月27日,国际权威学术期刊Nucleic Acids Research在线发表了浙江大学遗传学研究所管敏鑫教授课题组对线粒体tRNA修饰基因GTPBP3的最新研究成果(原文链接https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkz218/5420541?searchresult=1),该研究利用CRISPR/Ca...
The Gordon Research Seminar on Epigenetics is a unique forum for graduate students, post-docs, and other scientists with comparable levels of experience and education to present and exchange new data ...
2017年染色体动力学高登研究研讨会 (The Gordon Research Seminar on Chromosome Dynamics)
2017年 染色体动力学高登研究 研讨会
2017/2/15
The Gordon Research Seminar on Chromosome Dynamics is a unique forum for graduate students and post-docs to present and exchange new data and cutting edge ideas. The focus of this meeting is to p...
2017“Fertilization&Activation of Development”戈登学术会议(The 2017 Gordon Research Conference on Fertilization&Activation of Development )
2017 Fertilization&Activation of Development 戈登学术会议
2017/2/14
The union of egg and sperm creates a new totipotent cell – the zygote. In addition to starting the development of a new organism, fertilization also provides an excellent system in which to investigat...
The field of epigenetics was founded by conceptual interpretations of deviations from genetic rules. After the first mechanisms were identified, it became possible to catalog genomic landscapes of epi...
2017年数量遗传学和基因组学高登研究研讨会(The Gordon Research Seminar on Quantitative Genetics and Genomics)
2017年 数量遗传学和基因组学高登研究 研讨会
2017/2/13
The Gordon Research Seminar on Quantitative Genetics and Genomics is a unique forum for graduate students, post-docs, and other scientists with comparable levels of experience and education to present...
2017年RNA编辑戈登学术会议(The Gordon Research Conference (GRC) on RNA Editing)
RNA Editing DNA Modification
2017/1/19
The GRC on RNA Editing is the only international meeting dedicated to nucleic acid modifications. The 2017 meeting is subtitled "Biology and Mechanisms of RNA and DNA Modification". RNA and DNA modifi...
2017年定量遗传学和基因组学戈登学术会议(The Gordon Research Conference (GRC) on Quantitative Genetics & Genomics)
Quantitative Genetics Genomics
2017/1/18
Quantitative genetics is the body of knowledge fundamental to the application of genomic and environmental information to feed our growing global population and deliver on the promise of genomics for ...
Gordon Research Conference on DNA Topoisomerases in Biology and Medicine
genetics pharmacology
2016/7/29
The 2016 DNA Topoisomerases in Biology and Medicine Gordon Research Conference and Associated Gordon Research Seminar provides a forum for the presentation and discussion of recent scientific and meth...
We are pleased to announce an informal session to be held on August 24th from 1:30 pm - 3:30 pm titled, "How Can We Contribute to Understanding Zika Virus's Challenges to Human Reproductive Health".Th...
A University of Texas at Arlington team exploring pigeons as a model for vertebrate evolution has uncovered that mutations and interactions among just three genes create a wide range of color variatio...
Queensland agriculture has received a $3 million boost to support research collaborations between The University of Queensland (UQ) and agricultural industries.