Our laboratory’s research focuses on understanding (1) how cells measure levels of available nutrients and (2) how cells adapt to changes in nutrient supply to control metabolic homeostasis. Our studies have primarily centered on changes in cholesterol and oxygen...
Understanding how the information in the genome is utilized is one of the central questions in modern biology. It has become clear that a critical level of gene regulation occurs through the chemical modification of both the DNA itself...
The Fukunaga lab is broadly interested in RNA biology. More specifically, the Fukunaga lab investigates the mechanism and biology of post-transcriptional gene regulation controlled by small silencing RNAs and RNA-binding proteins. Our research projects will answer fundamental biological questions...
The goal of my research program is to answer a fundamental biological question: how is the genome properly interpreted to coordinate the diversity of cell types observed during neuronal development? We are focused on the acquisition of specific cellular...
The ribosome is a complex molecular machine that translates the genetic code into functional polypeptides. Our work focuses on understanding how the ribosome functions at a molecular level and how changes in its activity lead to mRNA quality control...
My laboratory focuses on developing novel single-molecule imaging tools in live cells to probe various dynamic aspects of cellular processes. We develop single-molecule gene expression reporting systems and chromosomal DNA conformation markers to probe the dynamics of gene regulation...
Fueled by the fast-growing DNA sequence information, proteomics-the large-scale analysis of proteins-has become one of the most important disciplines to characterize protein activities and provide insight into functional network between protein molecules in a high-throughput format. More and more...
My laboratory is actively engaged in discovering and defining cell signaling pathways that lead to either neuronal survival or neuronal death. We have characterized neuronal injury and survival pathways in fly, mouse and human models of Parkinson’s disease and...
Protein function is dynamically regulated in the cell by reversible posttranslational modifications. We are interested in the mechanism by which chromatin modifications regulate transcription, nucleosome dynamics and the response to DNA damage. A particular focus is on the non-degradative...
