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Displaying 137 of 2943 articles.
Targeting a single protein might treat a broad range of viruses
Scientists have identified a protein that many viruses require to spread within a host—a discovery that could lead to fighting diseases as varied as parainfluenza, West Nile, and Zika with a single drug. This finding could also lead to the development of treatments for emerging viruses.
Potential new treatment for Fragile X targets one gene to affect many
Scientists found that inhibiting a regulatory protein alters the intricate signaling chemistry that is responsible for many of the disease’s symptoms. The findings provide a path to possible therapeutics for disorders associated with Fragile X.
Titia de Lange to receive 2017 Rosenstiel Award
de Lange is honored for her elucidation of the mechanism of telomere protection and the maintenance of genome stability.
Gut bacteria that “talk” to human cells may lead to new treatments
Scientists developed a method to genetically engineer gut bacteria to produce molecules that have the potential to treat certain disorders by altering human metabolism.
In brief: How a microRNA protects against liver cancer
New insights about gene regulation in liver cells could lead to better treatments for a common tumor type.
New animal models for hepatitis C could pave the way for a vaccine
In the rats that roam New York City’s streets and tunnels, scientists have found a virus that resembles hepatitis C. They have used it to create the first animal model of the human disease, a breakthrough that potentially could yield a much-needed vaccine.
In brief: A glimpse into the origins of antibiotic resistance
Scientists have identified several genetic mechanisms by which antibiotic resistance may have arisen in a bacterium that causes deadly infections.
A hidden movement in the molecule that makes RNA
Researchers have uncovered new details about the molecular machine that separates DNA strands before copying a gene's sequence into RNA.
In brief: Mapping the errors that disrupt heartbeat
By determining the structure of a protein linked to a deadly form of arrhythmia, scientists have gained new insights about the condition.
In brief: A closer look at why some drugs cause arrhythmia
Scientists have identified the features that render a potassium channel in the heart vulnerable to interference by a range of drugs.
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