Biology

News articles classified as Biology

SLAC National Accelerator Laboratory —

How a soil microbe could rev up artificial photosynthesis

Researchers discovered that a spot of molecular glue and a timely twist help a bacterial enzyme convert carbon dioxide into carbon compounds 20 times faster than plant enzymes do during photosynthesis. The results stand to accelerate progress toward converting carbon dioxide into a variety of products.

Runners prefer the same pace, regardless of distance

By comparing the most energy-efficient running speeds of recreational runners in a lab to the preferred, real-world speeds measured by wearable trackers, Stanford scientists found that runners prefer a low-effort pace – even for short distances.

Genomic analysis supports ancient Muwekma Ohlone connection

A research collaboration with the Muwekma Ohlone tribe – whose ancestral lands include the Stanford campus – shows a genetic relationship between modern-day Tribe members and individuals buried nearby who lived more than 1,900 years ago.

Four questions for Jeremy Goldbogen

The Stanford whale biologist discusses a pod of orcas taking down a blue whale – “arguably one of the most dramatic and intense predator-prey interactions on the planet.”

The role of ribosomes in age-related diseases

Research finds that the cellular assembly line that produces proteins can stall with age, triggering a snowball effect that increases the output of misfolded proteins. In humans, clumps of misfolded proteins contribute to age-linked Alzheimer’s and Parkinson’s diseases.

Campus trees depict evolutionary concepts

More than a century of attentive groundskeeping has turned the Stanford campus into a museum of mathematical phylogenetics, says Noah Rosenberg, creator of the Stanford X-Tree Project.

Bird-like robot perches and grasps

With feet and legs like a peregrine falcon, engineers have created a robot that can perch and carry objects like a bird.

How cells avoid molecular assembly line mistakes

Stanford researchers use one of the most sophisticated structural biology techniques available to investigate how molecular assembly lines maintain their precise control while shepherding growing molecules through a complex, multi-step construction process.