Tag: complex biological systems

A living system, like any complex entity, is more than the sum of its parts. It can be as simple as a virus or as complex as an ecosystem. Researchers at WID aspire to gain an understanding of how such systems function, as well as how they adapt to and shape their environments over different time scales.

An interdisciplinary group of engineers, computer scientists, physicists, and evolutionary biologists take a multi-pronged approach to understanding living systems. We develop and combine experimental and computational methods to study diverse problems, ranging from interactions between organisms (e.g., between hosts and pathogens, and within diverse microbial communities) and interaction networks within organisms (e.g., regulatory and metabolic interactions). A common theme to complex biological systems research at WID is to view these systems through the lens of evolution.

Talia Sankari

Talia Sankari headshot

  • Graduate Student

Methods of chemical ecosystem selection which may have led to the origins of life on prebiotic Earth

Jordan Chao

Jordan Chao headshot

  • Undergraduate Student

Meta-analysis of viral rates of elongation

Steven Manos

Steven Manos

  • Undergraduate Student

Chemical ecosystem selection as the basis for the origins of life

Christopher Endemann

Christopher Endemann

Data Science Facilitator

  • Administrative Staff

Facilitating connections and training researchers in data science.

WID News

WID alumnus awarded first AAAS Science & Technology Policy Fellowship in the U.S. Department of the Treasury

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WID and Saha Lab alumnus, and current postdoc at the Morgridge Institute for Research, Amritava Das anticipates that he will put his engineering and bioscience training to use exploring the sometimes knotty connections between science, national security, and finance.

Tolulope Perrin-Stowe

  • Postdoctoral Associate

Relationship between genomes and their environments to predict organisms' fitness correlations.

Featured Science

Molecular Puzzles in 3D: Understanding a Mechanism for Methylation

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A new publication from the Xuehua Zhong’s group at the Wisconsin Institute for Discovery and the genetics department at the University of Wisconsin–Madison clarifies an important epigenetic mechanism in plants that will help researchers better understand the epigenomes of both plants and animals.

Spencer Halberg

  • Graduate Student

Computational methods to model cellular networks.

WID News

UW Researchers Partner with US Department of Defense to Develop Stem Cell Therapy for Combat-Related Eye Injuries

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Using an ingenious microscopic retinal patch, eye researchers at UW‒Madison will develop and test a new way to treat United States military personnel blinded in combat. WID’s Sarah Gong is a collaborator on the project.

Wisconsin Stories

Randolph Ashton and Collaborators Win WARF Innovation Award

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WID’s Randolph Ashton, Gavin Knight, Benjamin Knudsen, and Nisha Iyer take top honors from the Wisconsin Alumni Research Foundation’s Innovation Awards. Their work, Superior Neural Tissue Models for Disease Modeling, Drug Development and More, was selected from more than 400 innovation disclosures.

Featured Science

New Effective and Safe Antifungal Isolated from Sea Squirt Microbiome

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By combing the ocean for antimicrobials, scientists at the University of Wisconsin–Madison have discovered a new antifungal compound that efficiently targets multi-drug-resistant strains of deadly fungi without toxic side effects in mice. WID postdoc Marc Chevrette is part of the team that published the finding in Science.

Saptarshi Pyne

  • Postdoctoral Associate

Development of computational methods for inference and analysis of biological networks

Myra Mohammad

  • Undergraduate Student

Virus-host interactions and proofreading mechanisms in coronaviruses

Yunyi Shen

Graduate Assistant

  • Graduate Student

Statistical models that reconstruct the interaction networks among microbes and experimental design