05-06
Alexander Strzalkowski FPO

Alexander Strzalkowski will present his FPO "Inferring the Biological Time of Single Cells using Supervised Dimensionality Reduction and Trees" on Monday, May 6, 2024 at 11:00 AM in CS 301.

Location: CS 301

The members of Alexander’s committee are as follows:
Examiners: Ben Raphael (Adviser), Yuri Pritykin, Michelle Chan
Readers: Ellen Zhong, Li Ding (Washington University in St. Louis)

Everyone is invited to attend his talk. 
 
Abstract follows below:
Single-cell omics measurements have exploded in growth over the past decade. This explosion has allowed researchers to probe human health and biology with unprecedented resolution. Currently, all these types of measurements are destructive, thus they only provide static snapshots of important dynamic biological processes such as development, cancer progression, and cell cycle. As cells differentiate/progress biologically asynchronously in most tissues, a major computational task often called trajectory inference is to infer the latent biological time also known as pseudotime of every cell. This inverse problem in general is quite challenging and is further complicated by the fact that single-cell omics measurements like scRNA-seq and scATAC-seq are highly sparse and highdimensional. Much of my work has shown that simple linear supervised dimensionality reduction techniques that rely on cell type information can outperform complex non-linear dimensionality reduction techniques when used in conjunction with state-of-the-art trajectory inference methods in a large benchmark. Moreover, we investigate the difficulties of benchmarking trajectory inference methods in the absence of ground truth showcasing that the implicit goal of many methods is not to identify intermediate/transient cell types but rather order cell types. In addition, we introduce a novel supervised linear dimensionality reduction technique called BCA that when applied to simulated and real datasets is better able to uncover intermediate cell types. Lastly, we have been interested in modeling the relationship between cell lineages of inferred phylogenies from single-cell lineage tracing data and scRNA-seq trajectories (the partial ordering of cells induced by pseudotimes). We have found that by using a novel irreversible continuous state model of pseudotime on a rooted tree that we are better able to model unobserved ancestral pseudotimes in simulated and real phylogenies.

Date and Time
Monday May 6, 2024 11:00am - 1:00pm
Location
Computer Science 301
Event Type

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