Scientists from the Burnham Institute for Medical Research and the University of Vermont have captured the first 3-dimensional (3D) atomic-resolution images of the motor protein myosin V as it ...

Under the electron microscope: 3-D image of an individual protein showing structure. ScienceDaily . Retrieved June 2, 2025 from www.sciencedaily.com / releases / 2012 / 01 / 120125091343.htm ...

Scientists from the Burnham Institute for Medical Research and the University of Vermont have captured the first 3-dimensional (3D) atomic-resolution images of the motor protein myosin V as it ...

After five years of work, a team from National Biosciences Laboratory (LNBio), in the city of Campinas, has defined the three-dimensional structure of what is called the functional, or active, region ...

The thick filament is formed of myosin, titin and myosin binding protein C (MyBP-C). The latter can form links between the filaments, whereas myosin, the so-called motor protein interacts with the ...

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 ...

In a 2021 publication, the Max Planck researchers produced the first detailed 3D image of the sarcomere, the basic contractile unit of skeletal and heart muscle cell that contains actin, myosin and, ...

But predicting a single protein structure is only half of the problem. In the real world, proteins work together as molecular machines that carry out complicated biological functions.