Using mathematical analysis of patterns of human and animal cell behavior, scientists say they have developed a computer program that mimics the behavior of such cells in any part of the body.

Using mathematical analysis of patterns of human and animal cell behavior, scientists say they have developed a computer ...

Researchers have now succeeded in creating three-dimensional muscle tissue composed of thick fibers from myoblasts. This ...

Nur, an expert in regenerative and muscle biology. However, he hasn't yet tasted the cultivated meat because human ...

Lab grown models of embryos, made from clusters of stem cells, are getting increasingly complex. Ethicists, regulators and ...

In a breakthrough blending biology and engineering, scientists have built synthetic cells that mimic nature’s internal ...

A team of UC Merced researchers has shown that tiny artificial cells can accurately keep time, mimicking the daily rhythms ...

The cultivation of thick muscle fibres from bovine cells in the lab has long been a challenge for scientists. Researchers ...

Scientists at UC Merced have engineered artificial cells that can keep perfect time—mimicking the 24-hour biological clocks found in living organisms. By reconstructing circadian machinery inside tiny ...

Scientists have mapped individual sugar molecules on the surface of cells at a resolution once thought to be impossible for ...

Scientists engineered synthetic cells that accurately keep time using biological clock proteins, offering new insights into how circadian rhythms resist molecular noise. Researchers at UC Merced have ...

Their findings shed light on how biological clocks stay on schedule despite the inherent molecular noise inside cells.