Unlike the rigid skeletons within our bodies, the skeletons within individual cells—cytoskeletons—are changeable, even fluid. And when these cytoskeletons reorganize themselves, they do more than ...

In a breakthrough blending biology and engineering, scientists have built synthetic cells that mimic nature’s internal clockwork. Researchers at UC Merced engineered tiny artificial vesicles that ...

Identifying and delineating cell structures in microscopy images is crucial for understanding the complex processes of life. This task is called 'segmentation' and it enables a range of applications, ...

For stem cells to differentiate into the appropriate cell-type, transcription factors (TFs) must be tailored to highly specific expression patterns of lineage-specific genes. Abnormalities in the ...

Just like your body has a skeleton, every cell in your body has a skeleton—a cytoskeleton to be precise. This provides cells with mechanical resilience, as well as assisting with cell division. To ...

A research group led by Professor SUZUKI Hiroaki from Faculty of Science and Engineering at Chuo University, graduate students YONEYAMA Ryotaro (at the time), MORIKAWA Naoya, and USHIYAMA Ryota (at ...

Artificial cells using riboswitch-gene fusion in liposomes produce fluorescent proteins when detecting specific targets. Multiple cell types can simultaneously detect different targets.RetryClaude can ...

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 ...

Cell culture is a fundamental technique in biotechnology and life sciences that involves growing and maintaining living cells outside their natural environment, typically in a controlled laboratory ...

Modern artificial intelligence systems, from robotic surgery to high-frequency trading, rely on processing streams of raw data in real time. Extracting important features quickly is critical, but ...