WID researchers have developed a computational tool that can accurately predict the three-dimensional interactions between regions of human chromosomes.
Discovery Fellow David Baum leads a team that has cultivated lifelike chemical reactions while pioneering a new strategy for studying the origin of life.
Xuehua Zhong’s close study of an ordinary plant’s cellular mechanisms could lead to big advances in agriculture and medicine. Zhong is featured in Grow magazine.
An interdisciplinary pair of WID researchers has developed a new nanocapsule delivery method for delivering the CRISPR-Cas9 gene editing tool. The new system could be used for many types of gene therapies.
Claudia Solís-Lemus and Daniel Pimentel-Alarcón are experts in statistics and machine learning, augmenting WID’s data science expertise.
WID graduate student Arezoo Movaghar was a collaborator in a study that employed machine learning to mine decades of electronic health records of nearly 20,000 individuals.
WID researchers used a collaborative combination of computational and wet lab experimental techniques to find a connection between a transcription factor and a neurodevelopment gene.
WID Director Jo Handelsman and biochemistry professor Ophelia Venturelli are part of a multi-university interdisciplinary team awarded a grant to study information transmission in microbial communities and how biological networks communicate.
A new group centered at WID hopes to coordinate the dozens of labs that are addressing some aspect of astrobiology and inspire others to join the work. A public lecture series this spring is part of the effort.
A growing understanding of microbial communities and their influence on human health or crop productivity has led to the dream of changing these communities to produce benefits. New research at WID addresses this head-on.