Researchers at The University of Texas MD Anderson Cancer Center have developed a new radio-labeled molecule capable of selectively reacting with certain high-energy radicals that are characteristic ...

Researchers developed a radio-labeled molecule that allows real-time PET imaging of inflammation and activation of innate immune activity. This would allow physicians to pinpoint areas of inflammation ...

Traditional analog ELISA readout systems need great volumes, which inevitably dilute reaction products, adding the requirement of millions of enzyme labels to develop signals that can be detected with ...

Life scientists are striving to use the information emerging or obtained from the Human Genome Project to gain insight into basic biological processes and to improve human health and disease treatment ...

A blue protein ribbon structure labeled PI3Kα has a space-filling molecule bound to it, which interacts (clashes) with a second protein ribbon molecule labeled KRas. This model shows how BBO-10203 ...

The alleviation of pain is perhaps the greatest long-standing goal of both ancient and modern medicine. Quite recently, opiate receptors were implicated in the propagation of pain. With exquisite ...

Even the smallest molecule can tell a big story. For instance, observing a single molecule can throw light on underlying biological processes in the human body. In fact, molecular imaging ...

Many biologically important small molecules, like hormones and amino acids, are too small to be measured by conventional detection methods. Researchers have created a new type of immuno-assay that is ...

HOUSTON ― Researchers at The University of Texas MD Anderson Cancer Center have developed a new radio-labeled molecule capable of selectively reacting with certain high-energy radicals that are ...