A qubit encoded in a fluorescent protein could act as a sensor to measure quantum properties inside living systems ...

You may have heard about people making paintings on a grain of rice, but is it possible to create something inside a living cell, which is thousands of times smaller? Well, for the first time, a team ...

In this study, researcher developed a new imaging approach that combines two powerful techniques to solve this problem. First, a special type of microscope called a two-photon microscope is used, ...

Biology and quantum physics often seem like they belong to separate worlds. Living cells function in warm, noisy environments, full of constant motion, while quantum technologies usually need ...

Here, each neuron is represented as spacecrafts, with their pilots in the cockpits depicted in the shape of protein 3D structures. These spacecrafts collectively process and transmit information to ...

It is still not well understood how cells sort different types of lipids between cell organelles to maintain the composition of each membrane. A major reason is that lipids are difficult to study, ...

3D printing technology has already transformed the field of biomedical research by allowing scientists to produce soft tissue, replacement windpipes, and working hearts on a whim. But each of these ...

Cornell researchers have found a new and potentially more accurate way to see what proteins are doing inside living cells — using the cells’ own components as built-in sensors. This approach could ...

Cornell researchers have found a new and potentially more accurate way to see what proteins are doing inside living cells - using the cells' own components as built-in sensors. This approach could ...

The value measured by the 3D Cell Explorer is not fluorescence intensity of an exogenous molecule like with most optical microscopes. In contrast, Nanolive’s technology detects the physical refractive ...