Specially tailored, ultrafast pulses of light can trigger neurons to fire and could one day help patients with light-sensitive circadian or mood problems, according to a new study in mice at the University of Illinois. This study is the first demonstration of using coherent control to regulate function in a living cell.
In December, the Nobel Prize for Medicine and Physiology will be awarded for the identification of genes that control the inner clock. The honored academics examined fruit flies to determine the biorhythm. Biochemist Professor Dr. Dorothee Staiger of Bielefeld University has been researching the inner clock of plants for 20 years. Her team has now published a new study in the research journal Genome Biology.
Enterococcus faecalis 2001 is a probiotic lactic acid bacterium and has been used as a biological response modifier (BRM). From physiological limitation of bacterial preservation in storage and safety, the live E. faecalis 2001 has been heat-treated and the BRM components containing high level of β-glucan, named EF-2001, were prepared.
A Northwestern University research team is the first to capture on video organic nanoparticles colliding and fusing together. This unprecedented view of 'chemistry in motion' will aid Northwestern nanoscientists developing new drug delivery methods as well as demonstrate to researchers around the globe how an emerging imaging technique opens a new window on a very tiny world.
Scientists at Newcastle University, UK have developed a revolutionary technique to allow the continuous production and collection of cells.
Paralyzed rats implanted with engineered tissue containing human stem cells were able to walk independently and regained sensory perception in their hind legs and tail. The implanted rats also show some degree of healing in their spinal cords. The research demonstrates the great potential of stem cells to treat spinal cord injury.
A discovery might help designers of miniature 'lab-on-a-chip' technologies to grow three-dimensional colonies of cancer cells inside a chip's tiny chambers, rather than the merely two-dimensional colonies that they generally can culture now. Chips with 3-D cell arrays could furnish more realistic biological environments for drug testing.
With what strategies should developing countries invest in for emerging biotechnologies and precision medicine?
Plant scientists at the University of Liverpool have revealed new insights into the mechanisms that allow certain plants to conserve water and tolerate drought. The research, which is published in The Plant Cell, could be used to help produce new crops that can thrive in previously inhospitable, hot and dry regions across the world.
Exhaust gas cleaning of passenger cars, power generation from sunlight, or water splitting: In the future, these and other applications may profit from new findings relating to ceria. At Karlsruhe Institute of Technology (KIT), scientists have studied ceria nanoparticles with the help of probe molecules and a complex ultrahigh vacuum-infrared measurement system and obtained partly surprising new insights into their surface structure and chemical activity. Work is reported in three articles published in the journal Angewandte Chemie (applied chemistry).