Archive
Donald H. Burke-Agüero
Research Interests The Burke lab explores the many roles of ribonucleic acid, or RNA. This substance has long been known to function in cells to help copy genetic information from DNA, but scientists increasingly recognize many other tasks that RNA carries out. The lab pushes the boundaries of what is possible to achieve with RNA. From using aptamers to target cancer, using ribozymes to explore the RNA origins of life on Earth, and using protein engineering to understand RNA-protein interactions in viral replication, a theme that unifies the lab’s projects is the relationships among macromolecular sequence, function, selection pressures,…
Dong Xu
Research Interests Dr. Xu’s lab focuses on the interface between bioinformatics and deep learning. It works on development of novel computational methods, algorithms, software and information systems, as well as on broad applications of these tools and other informatics resources for various biological and medical problems. Several successful applications of deep learning by the lab in bioinformatics span areas such as single-cell data analysis, protein structure prediction, protein language models, protein localization prediction, predicting sites of protein post-translational modifications, elucidating genotype-phenotype associations, understanding biological pathways through image analysis in published literature, and analyzing tongue images for health evaluations.
Trupti Joshi
Research Interests The Joshi lab has expertise in the areas of bioinformatics and its application to biomedical sciences, plants sciences, animal sciences, and health informatics fields. The lab has three key research pillars: Multiomics Informatics Data Analytics and Framework Development Multiomics Informatics Method Development Multiomics Data Integration Tool Development…
Susie Dai
Research Interests The Dai lab integrates chemistry and biology to advance biosynthesis, bioremediation, and resource recovery. Current research focuses on: Integrate chemical catalysis (i.e., electrocatalysis) with synthetic biology to produce platform chemicals Develop chem/bio hybrid materials to empower microbiology for pollutant removal and resource recovery…