CSE529/599C: Computational Genomics

Winter 2024, Monday / Wednesday 10:00-11:20am 

Instructor: Sara Mostafavi, PhD.

Teaching Assistant: Xinmgin Tu (Office Hour)

Time and place: Monday / Wednesday 10:00-11:20am, -->  CSE2 G04



Office hours: Wednesdays 12-1pm CSE550

TA Office hours:  Thursday 10:30-11:30 am, Allen 5th floor breakout


Discussion Board: Ed 


Description: Computational genomics is a new emerging field that brings together recent advances in computational methods, including machine learning, and genomic measurement technologies, to provide insights into how our genomes work and underlie health and disease. 


Differences in our genomes underlies differences in our susceptibility to various diseases, including psychiatric disorders, heart disease, and immune responses to infection. Recent advances in measurement technologies now enable scientists to measure genomic data across individuals at multiple granularity, including the genome, epigenome and transcriptome, resulting in millions of measurements per individual. These data promise to enable prediction of disease risk and understand its molecular causes.  However, these data are complex, heterogeneous, confounded, and noisy, thus posing significant challenges to our ability to extract meaningful patterns and predictions that can provide biological insights about cellular systems and disease.  Formulating meaningful computational problems, and understanding how inferences go wrong and lead to misguided conclusions, not only requires statistical and computational insights, but also a scientific lense to experimental design and data interpretation. 


This course will introduce computational and statistical approaches and practices for deriving robust and rigorous insights from modern genomics datasets. Lectures alternate between genomics-inspired problem formulation and foundational statistical and computational approaches for addressing them. In foundational lectures, we will cover basics of statistical inference, hidden confounding factors, causality and causal inference, deep neural networks and interpretation approaches to deep learning models. From the genomics side, we will cover the latest research problems in human genetics, regulatory genomics, multi-omic data, and single cell genomics.




See Schedule page for weekly topics


See Syllabus page for the following information: