Representational Learning in Genome Biology and Medicine

Schedule subject to change
All times listed are in EDT
Wednesday, May 17th
14:30-14:50
Invited Presentation: Representational Learning in Biomedical Sciences: A Gentle Primer
Room: Leacock 232
Format: Live from venue

  • Jake Chen
14:50-15:10
Invited Presentation: Graph-based Representation Learning for Spatial Cellular Communications
Room: Leacock 232
Format: Live from venue

  • Qianqian Song


Presentation Overview: Show

Cell–cell communications are vital for biological signaling and play important roles in complex diseases. Recent advances in single cell spatial transcriptomics (SCST) technologies allow examining the spatial cell communication landscapes and hold the promise for disentangling the complex ligand–receptor (L–R) interactions across cells. However, due to frequent dropout events and noisy signals in SCST data, it is challenging and lack of effective and tailored methods to accurately infer cellular communications. To address these challenges, we have proposed a novel adaptive graph model with attention mechanisms named spaCI. spaCI incorporates both spatial locations and gene expression profiles of cells to identify the active L–R signaling axis across neighboring cells. Through benchmarking with currently available methods, spaCI shows superior performance on both simulation data and real SCST datasets. spaCI achieves to reveal hidden L–R interactions and their upstream transcription factors from different types of SCST data such as seqFISH+ and NanoString CosMx Spatial Molecular Imager (SMI) data. Collectively, spaCI addresses the challenges in interrogating SCST data for gaining insights into the underlying cellular communications, thus facilitates the discoveries of disease mechanisms, effective biomarkers and therapeutic targets.

15:10-15:30
Invited Presentation: Leveraging machine learning and genomics big data to gain funstional insights of complex diseases
Room: Leacock 232
Format: Live from venue

  • Steve Qin
16:00-16:20
Invited Presentation: Challenges in representing biological networks: from nodes, to edges, to interfaces
Room: Leacock 232
Format: Live from venue

  • Yu Xia


Presentation Overview: Show

Systems biology aims to build a model of the cell by first mapping the network of interactions among proteins and other biomolecules in the cell. This highly successful, network-based view of the cell treats biomolecules and their interactions as nodes and edges, but often with little atomic details. Such details are important because atomic-level changes in the molecular circuitry can lead to large differences in cell behavior, as often happens in evolution and disease. Here, I will discuss recent progress and challenges in constructing genome-scale structural models of nodes and edges within protein-protein interaction networks. I will argue that this structural systems biology approach enables the construction of a multi-scale predictive model of the cell circuitry, where the causes at the atomic level and the consequences at the organismal level can be modeled together in a unified framework.

16:20-16:40
Invited Presentation: Applications of Digital Twins in Personal Health and Wellness
Room: Leacock 232
Format: Live from venue

  • Huanmei Wu
16:40-17:00
Invited Presentation: Deciphering Complex Composition and Language of Cancer, Stroma and Immune Cells in Tumor Immune Microenvironment
Room: Leacock 232
Format: Live from venue

  • Tae Hyun Hwang
17:00-18:00
Panel: Preparing for AI/ML Adoptions in Biomedical Research, Medicine, and Public Health
Room: Leacock 232
Format: Live from venue

Moderator(s): Jake Chen

  • Tae Hyun Hwang
  • Qiaqian Song
  • Steve Qin, Emory University, US
  • Huanmei Wu
  • Brandon Xia, McGill University, Canada