14 People Results for the Tag: Design
Jessica Conway
Associate Professor of Mathematics
Viral infection dynamics and interplay with therapies for elimination or control
Center for Infectious Disease Dynamics
Adam Glick
Emphasis Area Representative, Cancer Biology; Professor of Molecular Toxicology and Carcinogenesis;
The role of Transforming Growth Factor-beta in cutaneous inflammation and cancer development, and how the immune system responds to epithelial cells with activated oncogenes such as Ras. Signaling pathways that regulate senescence of premalignant epithelial cells and how cells escape from oncogene-induced senescence.
Center for Infectious Disease Dynamics
Qunhua Li
Associate Chair, Intercollege Graduate Degree Program in Bioinformatics and Genomics; Associate Professor of Statistics
Developing statistical and computational methods for analyzing complex omics data and improving quality and reproducibility of high-throughout data
Tim Reluga
Associate Professor of Mathematics and Biology
Dynamics of biological systems
Center for Infectious Disease Dynamics
Mingfu Shao
Assistant Professor of Computer Science and Engineering
Our research interests are designing algorithms and developing methods for solving the various challenging problems in biology using combinatorial optimization and machine learning approaches. Current research topics include: transcript assembly, RNA-seq quantification, single-cell RNA-seq, computational cancer biology, genome rearrangements, protein folding.
Murali Haran
Associate Professor of Statistics
Statistical computing (Markov chain Monte Carlo algorithms); spatial models (Gaussian random field models); methods for complex computer models; interdisciplinary collaborations in environmental sciences, climate science, disease modeling, ecology
Center for Infectious Disease Dynamics
Jonas Rubenson
Associate Professor of Kinesiology
Integrating experimental and modeling approaches to study gait and skeletal muscle function during locomotion in both health and disease/impairment. In particular, the relationship between in vivo muscle mechanics and metabolic energetics and mechanisms underlying locomotor adaptation and optimization.