At first glance, biology and quantum technology seem incompatible. Living systems operate in warm, noisy environments full of constant motion—while quantum technology often requires extreme isolation ...

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 ...

With today's advanced microscopes, scientists can capture videos of entire embryos developing in real time. But there's a catch: turning those breathtaking images into clean, accurate trajectories of ...

Learn how multichain biotherapeutics overcome manufacturing challenges with advanced expression vector design.

Alzheimer’s disease affects more than seven million Americans, slowly erasing memory and thinking skills. For decades, ...

With the widespread application of technologies such as high-throughput sequencing, large-scale clinical trials, and complex computational ...

"Harnessing nature to create powerful families of quantum sensors—that's the new direction here." The interdisciplinary advance is published in Nature. Unlike engineered nanomaterials, protein-qubits ...

Apple is expected to launch a new foldable iPhone next year, based on multiple rumors and credible sources. The long-awaited device has been rumored for years now, but signs increasingly suggest that ...

The study by Reed et al. provides fundamental findings and convincing evidence defining the topological changes that occur during tumorigenesis. The findings enhance the understanding of stable ...

Our cells produce a variety of proteins, each with a specific role that, in many cases, means that they need to be in a particular part of the cell where that role is needed. One of the ways that ...

How to create an exploded rock is by simply using Cell Fracture 00:00 Introduce 00:28 Enable Cell Fracture 00:47 Create the rock 02:58 Use Cell Fracture 04:25 Rock exploded 06:37 Time Remapping & ...

A team of scientists led by the Institute for Glial Sciences (IGS) at Case Western Reserve University's School of Medicine has discovered a built-in "brake" that controls when key brain cells mature.