6/17/2025
My laboratory studies respiratory immunology under homeostasis and disease conditions. The long-term goals of the laboratory are to develop novel ideas and methods for the induction of strong respiratory antiviral…
6/17/2025
Summary: Nano-electromagnetics (NEMS)--Signaling at the nano/bio interface: The measurement, analysis and propagation of electrical, magnetic and optical signals with nanoscale spatial resolution is of interest within biomolecular sensing, morphogenesis, tissue regeneration,…
6/17/2025
Our lab studies the structure and function of several membrane proteins of clinical importance in their natural membrane environment. We are also interested in the roles that membrane lipids play…
6/17/2025
The Taylor lab is focused on unlocking the potential of B cells to protect against infection, cancer, and other diseases where these cells could benefit human health. B cells are…
6/17/2025
Research in my laboratory currently focuses on several very different aspects of plant cell growth and differentiation. One area of current interest is an examination of the biochemical, cellular, and…
6/17/2025
Papillomaviruses cause the most common lethal malignancy in women world-wide: cervical cancer. Our laboratory studies the actions of the papillomavirus E6 oncoprotein. By identifying host proteins that associate with E6,…
6/17/2025
Research in my lab focuses on advancing knowledge of how the human immune system responds to environmental triggers that worsen lung disease. The prevalence of asthma has risen dramatically in…
6/17/2025
We forge collaborative efforts at the dynamic intersection of biology, chemistry, and medicine, propelling forward the boundaries of scientific exploration. Our work revolves around the development of cutting-edge imaging tools,…
6/17/2025
We study infectious disease pathogenesis and work to develop new therapies and diagnostics for infectious diseases and cancers using the new insights that we develop. In one set of projects we…
6/17/2025
Under certain conditions, all essential biopolymers, such as polypeptides, nucleic acids and polysaccharides, have to cross at least one membrane to reach their final destinations. Examples include the secretion of…
