Category Biology/Biotechnology

Using an imaging technique developed at Princeton, researchers captured the moment when a segment of DNA — from genetic material that was once thought to be useless junk — turns on a target gene. Here, a time series of images reveals how a DNA segment known as an enhancer can turn on, or activate, its target gene. The enhancer (blue) must come in close proximity to the gene (green) to turn on gene activity (pink).
Credit: Hongtao Chen, Princeton University

Video shows DNA enhancers finding and activating a target gene in a living cell. Researchers have captured video showing how pieces of DNA once thought to be useless can act as on-off switches for genes. These pieces of DNA are part of over 90% of the genetic material that are not genes...

Whole-brain low-intensity pulsed ultrasound therapy markedly improves cognitive dysfunctions in mouse models of dementia -Crucial roles of endothelial nitric oxide synthase Journal: Brain Stimulation. DOI: 10.1016/j.brs.2018.05.012

Ultrasound waves applied to the whole brain improve cognitive dysfunction in mice with conditions simulating vascular dementia and Alzheimer’s disease. The research, conducted by scientists at Tohoku University in Japan, suggests that this type of therapy may also benefit humans.

The team, led by cardiologist Hiroaki Shimokawa, found that applying low-intensity pulsed ultrasound (LIPUS) to the whole brain of the mice improved blood vessel formation and nerve cell regeneration without having obvious side effects...

MIT chemists have designed a polymer that can reversibly switch from a large structure (orange spheres) to the smaller blue shapes, in response to light.
Image: Demin Liu/Molgraphics

New material reversibly changes its structure in response to different wavelengths of light. MIT researchers have designed a polymer material that can change its structure in response to light, converting from a rigid substance to a softer one that can heal itself when damaged.

“You can switch the material states back and forth, and in each of those states, the material acts as though it were a completely different material, even though it’s made of all the same components,” says Jeremiah Johnson, an associate professor of chemistry at MIT, a member of MIT’s Koch Institute for Integrative Cancer Research and th...

A cross section of a mouse spinal cord, stained two different ways, showing increased expression of KCC2 in inhibitory neurons. This increased expression correlated with improved motor function, including ankle movement and stepping. Credit: Zhigang He Lab, Boston Children’s Hospital

Small-molecule drug reactivates dormant nerve pathways; could complement regenerative strategies. Most people with spinal cord injury are paralyzed from the injury site down, even when the cord isn’t completely severed. Why don’t the spared portions of the spinal cord keep working? Researchers at Boston Children’s Hospital now provide insight into why these nerve pathways remain quiet...