The molecular structure of the motor component that powers the gliding apparatus of Mycoplasma mobile, one of the few mycoplasma bacteria that can move, has been revealed using cryo-electron ...

A vivid new image is taking shape in the world of cell biology: Imagine bacteria adhering to the surface of a cell, perhaps at the site of an injury or wound. In response, a white blood cell arrives ...

A vivid new image is taking shape in the world of cell biology: Imagine bacteria adhering to the surface of a cell, perhaps ...

A small team of materials scientists and chemical engineers at Qingdao University, in China, has developed a self-powered, ...

A new study has unveiled a precise picture of how an ion channel found in most mammalian cells regulates its own function ...

Using electron microscopy and elemental analyses, we show that the two cable bacteria genera have similar cell envelopes and cell–cell junction ultrastructures. Iron, sulfur, and nickel signals are co ...

Researchers have created a novel imaging-technology combination that can capture gene activity in individual bacteria in their complex local environments, opening new avenues to investigate bacterial ...

coli bacterial cells proliferate in a polymeric solution. (Courtesy: Sebastian Gonzalez La Corte et al./Princeton University/Caltech) Bacterial cells in solutions of polymers such as mucus grow into ...

In prokaryotic cells, DNA bundles together in a region called the nucleoid. Primitive organelles, such as micro-compartments found in some bacteria, help organize ... Table 1. The structure and ...

Yet, our knowledge of the bacterial ... cryo-EM structure, the lateral gate is in a closed state and faces the membrane, whereas in our model, it faces the TM region of YidC (Figure 6b). DNA ...

The study provides a significant step forward in the prediction of T cell receptor docking to peptide-major histocompatibility complex ligands using a specialised version of the deep neural network ...