A scanning electron microscope reveals nematodes (highlighted in green) inside the spongy mesophyll of a European beech ...

In a breakthrough with promising real-world applications, a team of Rutgers biophysicists, bioengineers, and plant biologists ...

Plant cells crammed with chloroplasts ... to places we'd never seen before - the electron microscope. The specimen is put in a vacuum and is viewed not by light waves but by a single beam of ...

Plant cells without walls, known as protoplasts, are very fragile, and it has been difficult to keep them alive under a ...

In plant and other photosynthetic cells ... which in turn aggregate into particles that are observable via electron microscopy. A cell can rapidly mobilize these particles whenever it needs ...

The diagram below shows the same plant cell, as viewed with the light microscope, and with the transmission electron microscope. Animal and plant cells have certain structures in common.

Plants know how to defend themselves against pathogenic microorganisms. In turn, pathogens have sensors to detect such ...

Imaging wall-less plant cells every six minutes for 24 hours revealed how the cells build their protective barriers.

For instance, researchers can use high resolution electron microscopy to take a snapshot through a thin cross-section or slice of a cell. In this way, they can see the structural detail and key ...

The 3D electron microscopy imaging is available using Serial Block Face ... In biological research, ET can be applied to study unique structures, which are in the context of a cell. ET is ideally ...

The electron microscope is a type of microscope that uses a beam of ... High- and low-vacuum mode secondary electron images of an impact crater in a solar cell on the Hubble Space Telescope. Secondary ...