New research published in BMC Molecular Biology explains how a new technique for introducing genes into mammalian cells using the virus responsible for warts could be a major step forward in developing gene therapy treatments for people with familial hypercholesterolemia (FH), a genetic disease that affects around 12 million people worldwide.

People with FH have a genetic defect that prevents their liver cells from absorbing chlolesterol in the form of low density lipoprotein (LDL). This lea

Researchers in the University of Warwick’s Molecular Medicine Research Centre have found the “Bin Laden” of cancer causing faulty proteins. They have undermined the old complex model of how many cancers start and identified a single protein known as c-Myc as a “mission-critical target for effective cancer therapies.”

Fighting cancer is similar to the war against terrorism. Current cancer models suggest that a network of several cell mutations is needed to begin a cancer. Both terrorism and c

Researchers at the Universities of Warwick and Keele are being supported by the Economic and Social Research Council to watch the popular game show Who Wants to be a Millionaire? The globally broadcast show is a treasure trove of data on how all sorts of people of different ages and genders and nationalities perceive and act on risk.
One of the researchers, economist Professor Ian Walker from the University of Warwick said:

“Many decisions involve weighing up potential gains and losses w

Wound healing appears generally a banal event, but in a certain proportion of cases it evolves inappropriately in hypertrophic scars resulting in skin and organ deformations. This is due to an excess of wound contraction, a phenomenon that generally helps to close the wound. Hypertrophic scarring is observed frequently in burned patients.

For the past 30 years, Professor Giulio Gabbiani and his team are interested in the role of myofibroblasts in wound contraction. Myofibroblasts, specializ

Of the estimated 10,000 to 100,000 microbial species that inhabit our planet, scientists can only coax a few thousand to grow in the laboratory. As a result, efforts to categorize the vast diversity of microbes are lagging far behind attempts to classify plants, animals and insects. Now a report published in the current issue of the journal Science suggests that some of these so-called uncultivable microorganisms might not be so out of reach after all.

Tammi Kaeberlein, Kim Lewis and Klava

A research team jointly involving the IRD, the CEA and the CNRS has very recently found phytochromes in a strain of nitrogen-fixing bacterium, Bradyrhizobium (1), symbiont on certain tropical leguminous plants (the Aeschynomene). Techniques of molecular biology, biophysics and biochemistry revealed that the newly-discovered phytochrome has an essential role as regulator of the bacterium’s photosystem synthesis. An identical function was shown in the photosynthetic bacterium Rhodopseudomonas palustris