Visualisation reveals how a protein 'hunkers down' to conserve energy
A visualization made from nearly 100,000 electron microscope images has revealed the ingenious way a protein involved in muscle activity shuts itself down to conserve energy.
A visualization made from nearly 100,000 electron microscope images has revealed the ingenious way a protein involved in muscle activity shuts itself down to conserve energy.
Molecular & Computational biology
Dec 2, 2020
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61
In biological terms, gliding refers to the type of movement during which a cell moves along a surface without changing its shape. This form of movement is unique to parasites from the phylum Apicomplexa, such as Plasmodium ...
Cell & Microbiology
Oct 13, 2020
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109
In JST Strategic Basic Research Programs, a group led by Zhongrui Duan (Researcher, Waseda University) and Motoki Tominaga (Associate professor, Waseda University) succeeded in promoting plant growth and increasing seed yield ...
Plants & Animals
Aug 7, 2020
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9
A chemist and kinesiologist got on a bus, but this isn't the set-up to a joke. Instead, kinesiologist and lead author Ned Debold and chemist Dhandapani Venkataraman, "DV," began talking on their bus commute to the University ...
Molecular & Computational biology
Jul 14, 2020
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197
Researchers at the Max Delbrück Center for Molecular Medicine in the Helmholtz Association (MDC) developed a mouse model that enables them to look inside a working muscle and identify the proteins that allow the sarcomere ...
Molecular & Computational biology
Jun 19, 2020
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176
The movements of cell muscles in the form of tiny filaments of proteins have been visualised at unprecedented detail by University of Warwick scientists.
Molecular & Computational biology
Apr 6, 2020
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64
In a research first, molecular biologists at RIKEN have directly visualized the motion of a critical motor protein at the single molecular level. This achievement could aid in the hunt for new ways to treat diseases associated ...
Biotechnology
Feb 7, 2020
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4
Myosins are motor proteins that convert chemical energy into mechanical work, generating force and movement. Myosin II generates forces that are essential to drive cell movements and cell shape changes that generate tissue ...
Biotechnology
Oct 28, 2019
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106
When a muscle is activated, it is the proteins myosin and actin that go to work. Myosin molecules take hold of actin molecules and pull, like rope pulling, in a process that gets energy from the use of the cellular fuel ATP. ...
Cell & Microbiology
Oct 21, 2019
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4
Every living thing moves—prey from predators, ants to crumbs, leaves toward sunlight. But at the most fundamental level, scientists are still struggling to grasp the physics behind how our own cells build, move, transport ...
Cell & Microbiology
May 30, 2019
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1911