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IMAGE: Capsid protein pentamers (subunits colour-coded) being recruited to the growing protein shell (brown) during virion assembly by formation of sequence-specific contacts between the genome (packaging signals shown as orange space-filled. view more
Credit: University of Leeds
Researchers have for the first time identified the way viruses like the poliovirus and the common cold virus package up their genetic code, allowing them to infect cells.
The findings, published today (Friday, 8 January) in the journal
PLOS Pathogens by a team from the Universities of Leeds and York, open up the possibility that drugs or anti-viral agents can be developed that would stop such infections.
Credit: Stevepb/pixabay
Hundreds of cancer patients have benefitted from using computer algorithms to manage their symptoms and improve their wellbeing in a unique UK trial.
The early stage colorectal, breast or gynecological cancer patients took part in the trial of the eRAPID system, developed by the University of Leeds, which allowed them to report online symptoms from home and receive instant advice on whether to self-manage or seek medical attention.
Patients reported better symptom control and physical wellbeing in the early weeks of treatment, with the system preventing symptom deterioration in about 9% of patients after 12 weeks. Patients reported more confidence in managing their health at the end of their four-month trial period.
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IMAGE: Carbon spheres - microscope images
A fast, green and one-step method for producing porous carbon spheres, which are a vital component for carbon capture technology and for new ways of storing. view more
Credit: ESRI, Swansea University
A fast, green and one-step method for producing porous carbon spheres, which are a vital component for carbon capture technology and for new ways of storing renewable energy, has been developed by Swansea University researchers.
The method produces spheres that have good capacity for carbon capture, and it works effectively at a large scale.
Carbon spheres range in size from nanometers to micrometers. Over the past decade they have begun to play an important role in areas such as energy storage and conversion, catalysis, gas adsorption and storage, drug and enzyme delivery, and water treatment.