WID Researchers Looking to the Future with UW2020 Awards
Investigators from WID are among the recipients of the latest round of UW2020 awards.
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.
Jo Handelsman
WID Director
Genetic and biochemical processes underlying interactions within plant and human microbiomes.
Kinetic Modeling of Virus Growth in Cells
A new paper in Microbiology and Molecular Biology Reviews describes how the steps of virus reproduction contribute to timing and productivity of cell infection.
UW Carbone Scientists Present at Annual Cancer Research Conference
One of the UW Carbone Cancer Center members presenting is WID’s Peter Lewis. His work focuses on how genes are turned on and off during embryonic development, and how misregulation in those genes can lead to some childhood cancers.
Undergraduate Nathan Wang Receives Goldwater Scholarship
The scholarship recognizes promising undergraduates who plan to pursue a PhD or MD/PhD followed by a research career in engineering, mathematics, or the natural sciences.
Erin Seablom
Observation of the possible evolution of early life-like autocatalytic systems on mineral surfaces.
Small But Mighty: Nanoparticles Can Deliver More Types of Drugs, More Safely
WID researcher Shaoqin Sarah Gong is working to more safely deliver a variety of drugs to treat cancer, heart disease and even blindness.
Niklaus Zeller
Use bio curated data to investigate and model genetic pathways that cause Breast Cancer.
Multifunctional Plant Enzymes Promote Protein Production
Newly characterized roles for plant histone deacetylases have implications for growth and development. The Zhong Lab explores the influence of the enzymes in both transcription and translation.
Jakob Meyer
Looking for other possibilities for the origins of life that isn't a spontaneous cell formation
From WPR: Wisconsin Educators Look To Cultivate A New Generation Of Scientists And Antibiotics
Small World Initiative Includes Hands-On Lab Work Testing Soil
Britney Washington
Cryopreservation's effect on cell isolates and manufactured therapeutic phenotypes
Wisconsin Instructors Engaging Students in the Fight Against Antibiotic Resistance
Instructors from schools across the state are getting their hands dirty in the search for antibiotics by joining the Small World Initiative.
Jennifer Heinritz
Lab Manager
Handle the comings and goings of the Baum, Handelsman, Vetsigian and Yin labs
Paige Arneson
Use bio curated data to investigate and model genetic pathways that cause Breast Cancer.
All-in-One Repair Kit Makes CRISPR Gene Editing More Precise
Error rates as high as 50 percent are a problem when the goal is to correct typos in the DNA that cause genetic disease. Now, a team of researchers led by WID’s Kris Saha has made the fix less mistake-prone.
Tools for Discovery: Sam Rikkers
Sam Rikkers was born and raised in south central Wisconsin but has managed to make his mark in far-flung places. A graduate of Columbia University with a Master of International Affairs, he has served the Peace Corps in Zambia, earned a Law Degree from the University of Wisconsin and served …
Michael Murrell
Assistant Professor
Physics and Synthesis of Soft, Active and Biological Matter
Anthony Schulz
Analysis of bacterial evolution in single- and multi-species cultures
Sean Palecek
Professor
Engineering platforms to regulate human pluripotent stem cell differentiation
Alex Plum
Selecting for the emergence of life-like properties in prebiotic chemical sets