For a century, neuroscientists have dissected, traced, eavesdropped on, and are now compiling a seemingly endless cast of players in the nervous system. As we keep gathering more and more molecular...
Apr, 01, 2009
RunBot, already the world’s fastest bipedal robot, has now also learned to keep its balance when walking up ramps. “We have achieved a synthesis of different functionalities, between...
Oct, 01, 2007
Computer modeling may help narrow the molecular landscape to the best drug prospects
Every pharmaceutical company wants to find the next blockbuster drug. Yet finding molecules with a complete set of desired properties is tricky because of the astronomical number of medium-sized...
Jul, 01, 2006
Using software designed for stress testing in engineering, researchers have modeled an American sabercat's skull in the highest resolution vertebrate animal model to date.
Wildlife biologists can watch a lion stalk its prey, but paleontologists must examine fossils to understand how the extinct saber-toothed cat hunted. Researchers now have modeled an American sabercat...
Jan, 01, 2008
How Simbios' state-of-the-art software tools are contributing to high-impact biomedical research
Simbios began with a simple idea: that physics-based simulation of biological structures at all scales could benefit from a
unified tool-building effort.
At the same time, the thinking went,...
Oct, 01, 2009
Using computational models, researchers are gaining traction toward understanding what makes a stem cell a stem cell; how gene expression drives stem cell differentiation; why studying stem cell heterogeneity is important; and, ultimately, how stem cells control their fate.
To the casual observer, stem cells offer the almost magical promise of—Voila!—turning into exactly the kind of cell needed to repair an injured spinal cord or replace a damaged organ. And...
Apr, 01, 2010
To understand biology—and provide appropriate medical care—scientists need to understand interactions across multiple scales. Hence the Physiome.
This is the reality of human biology: events span a 109 range in lengthscale (molecular to organismal) and a 1014 range in timescale (molecular movement to years). To understand this biology—...
Jun, 01, 2010
Computers and human experts duke it out over who is better at diagnosing disease, interpreting images, or predicting protein structure
Dorothy Rosenthal tenses over her microscope, peering at the problematic nucleus on the Pap smear yet again. “It’s abnormal,” she decides, and then hesitates. “No, it’s...
Jul, 01, 2006
Disentangling the different types of skeptics and what modelers can learn from each.
What are the telltale signs of a modeling talk at a biology conference? Just look for the sighs, shifting, and eye-rolling in the audience, says Donald C. Bolser, PhD, professor of physiological...
Jun, 05, 2012
The first four National Centers for Biomedical Computing take off
WHY NATIONAL CENTERS?
Four National Centers for Biomedical Computing were launched by the NIH in 2004 with $20 million in funding for each center over five years. The reason: We need to make...
Jun, 01, 2005