“My main interest is in statistical inference for stochastic processes that describe dynamics of biological systems, with applications to phylogenetics, population genetics, infectious disease epidemiology, immunology, and systems biology.”
Modeling and Forecasting Infectious Disease Spread
Combating infectious diseases continues to be one of the most important and challenging problems in public health. Professor Minin is developing statistical data integration methods for real-time modeling and forecasting of the spread of infectious diseases. “These methods play an important role in evaluating outbreak containment and mitigation strategies — for example, by estimating vaccine efficacy and the effects of nonpharmaceutical interventions,” he says. “They also help with optimal allocation of limited resources in time and space.”
Evolutionary Processes in Viruses, Bacteria, and Immune System
Genetic sequences of viruses and bacteria help epidemiologists track the spread of these pathogens through populations and even reconstruct transmission networks (outlining who infected whom). Professor Minin develops new methods for these genomic epidemiology applications. “Similar techniques and data allow us to observe, almost in real time, a process during which our immune system uses an evolutionary trial-and-error system to produce antibodies that help our bodies fight pathogens,” he says. “I am working on methods that help us learn important details about this antibody formation process.”
Differentiation of Stem Cells into Mature Blood Cells
Studies of hematopoiesis, a process of blood cell formation, require understanding of how hematopoietic stem cells in our bone marrow constantly replicate and differentiate to produce mature blood cells (such as granulocytes, T cells, B cells, and natural killer cells). “Answering fundamental questions about hematopoiesis is clinically important,” he says, “because all blood cell diseases, including leukemias, are caused by malfunctions in some part of the hematopoiesis process.” Professor Minin is developing methods for analyzing high throughput experimental techniques that allow us to peek inside the hematopoiesis process.
Ph.D., Biomathematics, University of California, Los Angeles, 2007
M.S., Biomathematics University of California, Los Angeles, 2004
M.S., Mathematics University of Idaho, 2002
B.S., Mathematics, Odesa National University, Ukraine, 2000
Biomedical Informatics and Computational Biology
Techniques from applied mathematics, informatics, statistics and computer science to solve biological problems...
Statistics and Statistical Theory
Developing and studying methods for collecting, analyzing, interpreting and presenting empirical data...
A probabilistic framework that integrates prior knowledge with new data to update and refine probability …
The application of statistical methods to analyze and interpret data in the fields of biology …