Researcher helps solve 60-year mystery inside heart
One University of Kentucky (UK) researcher has helped solve a 60-year-old mystery about one of the body's most vital organs: The heart.
Nov 14, 2023
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One University of Kentucky (UK) researcher has helped solve a 60-year-old mystery about one of the body's most vital organs: The heart.
Nov 14, 2023
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For the first time ever, a molecule able to prevent the invasion of blood cells by parasites of the genus Plasmodium, responsible for malaria, has been identified and described by CNRS scientists, in collaboration with American ...
Jun 16, 2023
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Hypertrophic cardiomyopathy (HCM) is the most common of all genetic heart diseases and is the leading cause of sudden cardiac death. It is characterized by an abnormal thickening of the heart muscle, which over time can lead ...
Aug 12, 2021
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Researchers at the University of Cincinnati say a regulatory protein found in skeletal muscle fiber may play an important role in the body's fight or flight response when encountering stressful situations.
Apr 23, 2021
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Chronic muscle spasticity after nervous system defects like stroke, traumatic brain and spinal cord injury, multiple sclerosis and painful low back pain affect more than 10% of the population, with a socioeconomic cost of ...
Oct 16, 2020
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A prevalent heart protein known as cardiac myosin, which is released into the body when a person suffers a heart attack, can cause blood to thicken or clot—worsening damage to heart tissue, a new study shows.
Apr 2, 2020
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The heart's ability to beat normally over a lifetime is predicated on the synchronized work of proteins embedded in the cells of the heart muscle.
Jan 27, 2020
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Atrial fibrillation is a common abnormal heart rhythm. It is treated either with medications or by applying heat or extreme cold to destroy small specific tissue areas in the atrium. This inevitably causes small wounds. A ...
Jul 24, 2019
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Hypertrophic cardiomyopathy is best known for revealing itself in one certain way: as an unexpected, fatal heart attack during strenuous exercise. But researchers suspect as many as 300 mutations can individually cause enlargement ...
Apr 4, 2019
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On Dec. 14, 2014, after many months of not getting expected results, biochemist Jim Spudich got into bed, read a chunk of a novel, fell asleep and had a dream that would change the focus of his entire field in thinking about ...
Mar 21, 2019
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Myosins comprise a family of ATP-dependent motor proteins and are best known for their role in muscle contraction and their involvement in a wide range of other eukaryotic motility processes. They are responsible for actin-based motility. The term was originally used to describe a group of similar ATPases found in striated and smooth muscle cells. Following the discovery by Pollard and Korn of enzymes with myosin-like function in Acanthamoeba castellanii, a large number of divergent myosin genes have been discovered throughout eukaryotes. Thus, although myosin was originally thought to be restricted to muscle cells (hence, "myo"), there is no single "myosin" but rather a huge superfamily of genes whose protein products share the basic properties of actin binding, ATP hydrolysis (ATPase enzyme activity), and force transduction. Virtually all eukaryotic cells contain myosin isoforms. Some isoforms have specialized functions in certain cell types (such as muscle), while other isoforms are ubiquitous. The structure and function of myosin is strongly conserved across species, to the extent that rabbit muscle myosin II will bind to actin from an amoeba.
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