WID seeks to add to its roster of excellent faculty with two new hires in emerging cutting-edge fields.
WID’s new hubs—Data Science, Multi-Omics, and Illuminating Discovery—represent a new path forward for collaborative research projects and fields.
WID’s John Yin and colleagues have described initial steps toward achieving chemistries that encode information in a variety of conditions that might mimic the environment of prehistoric Earth.
Writing in Nature Ecology & Evolution, WID’s Seyfullah Kotil and Kalin Vetsigian uncover an assembly mechanism that can lead to the spontaneous formation of microbial communities.
From On Wisconsin Magazine: UW-Madison students are joining the hunt for new antibiotics in their introductory biology coursework and becoming part of the Tiny Earth network, based at the Wisconsin Institute for Discovery.
An international team of researchers including WID scientists has discovered new mechanisms to regulate the activity of a gene essential in metabolism, with implications for pathologies related to alterations in glucose levels in the body, such as diabetes or metastasis in some types of cancer.
From the Milwaukee Journal Sentinel: At a recent training event, teachers from Milwaukee Public Schools were joined by a teacher from New York Public Schools, a middle school teacher from Oak Creek, and even a researcher planning to bring the program back to his home university in India.
With Wisconsin’s short growing seasons, reducing a plant’s life cycle and completing the season earlier “could be very important for many crops.”
Ten highly innovative projects have been chosen to receive University of Wisconsin–Madison Data Science Initiative funding, including two led by Wisconsin Institute for Discovery investigators.
Tiny Earth’s 2018 symposium will feature experts on the front lines of the antimicrobial resistance crisis.
Investigators from WID are among the recipients of the latest round of UW2020 awards.
A new paper in Microbiology and Molecular Biology Reviews describes how the steps of virus reproduction contribute to timing and productivity of cell infection.
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.
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.