Scientists have fabricated micrometer-scale microstructures that can move, bend, and cluster without any onboard sensors, ...

Researchers in Nikolaus Rajewsky's lab at Max Delbrück Center combined high-resolution, single-cell spatial technologies to map a tumor's cellular neighborhoods in 3D and identify potential targets ...

A team of researchers has developed an innovative imaging platform that promises to improve our understanding of cellular structures at the nanoscale. This platform, called soTILT3D for ...

3D cell cultures are no longer a futuristic idea. They’re already reshaping how we study diseases like cancer, offering more realistic models of how cells behave in the body. But despite their ...

Before cells can divide by mitosis, they first need to replicate all of their chromosomes, so that each of the daughter cells can receive a full set of genetic material. Scientists have until now ...

In conventional pathology and physiology research, two-dimensional (2D) analysis—observing thinly sliced tissue sections—has ...

Live-cell analysis and stem cell isolation techniques help researchers fully leverage 3D spheroid models, bridging the gap between in vitro findings and in vivo outcomes. When derived from isolated ...

A team led by Professor Inkyung Jung from the Department of Biological Sciences at KAIST, working with Professor Yarui Diao’s group, has published a new single-cell method called scHiCAR that ...

Most potential oncology drugs fail during the drug development pipeline, even when there has been promising data for their efficacy during the in vitro stage. This makes it vital to identify in vitro ...

Researchers translated experimental data into Minecraft files to recreate 3D images in a more accessible setting. My group studies the minimum requirements for cells to live. As part of one project, ...