Study reveals how mechanical forces drive skeletal development
New research has revealed how mechanical forces caused by fetal movements drive skeletal development in the embryo.
New research has revealed how mechanical forces caused by fetal movements drive skeletal development in the embryo.
Cell & Microbiology
Jan 27, 2023
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New research shows that brain development in humans and other primates is closely linked to skeletal development, a finding that creates new avenues for studying the evolution and development of the human brain.
Evolution
Jan 10, 2023
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105
A researcher at the University of Houston College of Pharmacy has identified the proteins necessary for efficient regeneration of skeletal muscles after acute injury and in Duchenne Muscular Dystrophy (DMD). Ashok Kumar, ...
Cell & Microbiology
Dec 20, 2021
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Drug therapies that help older adults maintain their skeletal muscle mass and physical function for longer could be a step closer after researchers at the University of Birmingham identify a key mechanism that drives the ...
Molecular & Computational biology
Mar 23, 2020
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A new antibody could dramatically boost strength and muscle mass in patients with cancer, chronic obstructive pulmonary disease (COPD), sporadic inclusion body myositis, and in elderly patients with sarcopenia according to ...
Cell & Microbiology
Dec 19, 2013
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A Singapore-based research team has used fluorescent labeling of embryonic cell populations to pinpoint the origin of scales and fins in modern-day fish. These tissues are evolutionary relics of the first skeletons and were ...
Evolution
Aug 28, 2013
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Cell biologists believe that gene expression in eukaryotic cells is partly controlled by the uneven distribution of DNA in the nucleus. Colin Stewart and Audrey Wang at the A*STAR Institute of Medical Biology, Singapore, ...
Cell & Microbiology
Jun 19, 2013
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Genes relocated from their correct position in the nucleus cause them to malfunction and this may lead to the heart, blood vessels and muscles breaking down. This new discovery by A*STAR scientists may be the key to finding ...
Cell & Microbiology
Feb 8, 2013
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For more than two decades, scientists have relied on studies that linked juvenile primate tooth development with their weaning as a rough proxy for understanding similar developmental landmarks in the evolution of early humans. ...
Plants & Animals
Jan 28, 2013
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Too little of a protein called neogenin results in a smaller skeleton during development and sets the stage for a more fragile bone framework lifelong, Medical College of Georgia researchers report.
Biotechnology
Jul 27, 2010
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