大陆怎么浏览外国网站
手机怎么浏览外国网站
怎样才能浏览外国网站

Our laboratory is interested in how microorganisms co-evolve with their environment (i.e. how microbial metabolic activities change the environment, and how the environment shapes these activities), with a focus on understanding how electron transfer reactions support energy conservation in the absence of oxygen. We are particularly interested in the physiological strategies taken by bacteria when they are growing slowly–the dominate pace of life on the planet, yet one that is poorly understood. Much of our research involves the study of colorful, redox-active metabolites (RAMs) called phenazines, molecules produced by many different types of bacteria. We are interested in how RAMs help structure microbial populations and communities in various contexts, including biofilm aggregates found within human chronic infections or near the roots of plants. Central to our ability to achieve relevant mechanistic insight is our commitment to characterizing the complex contexts that motivate our reductionist research. Ultimately, we are driven by the long-term goal of contributing new approaches to promoting both human and environmental health.

We are an interdisciplinary lab, and seek help from talented scientists of all types to explore these topics. We are committed to training and enabling young scientists with diverse backgrounds (racial, gender, country of origin, sexual-orientation, ethnicity, etc.) to make discoveries during their time in our laboratory and to prepare for a variety of impactful STEM careers.

Please explore our site and contact us if you are interested. Caltech is an exciting place for microbiology (CEMI) and sustainability research (RSI-EBE Initiative)!

          无极加速器官方网址,无极加速器2024,无极加速器vp,无极加速器vn  panda加速器官网网址,panda加速器官方网址,panda加速器vnp,panda加速器打不开了  苹果软件,ios加速软件,苹果加速器,快客加速器vps  云梯加速器下载地址,云梯加速器免费试用,云梯加速器不能用了,云梯加速器vqn  少数人ssr破解版,少数人ssr电脑版下载,少数人ssrvnp,少数人ssrvpm  哔咔漫画加速器ios下载,哔咔漫画加速器打不开,哔咔漫画加速器2024年,哔咔漫画加速器不能用了  vp加速器,免费vp,vp免费,vp加速器免费