A research team led by the Universitat Autònoma de Barcelona (UAB) has revealed how the genome is reorganized in 3D during ...
In the earliest stages of life, mammalian embryos start as a disorganized cluster of cells. As development progresses, these cells become organized into well-defined shapes and structures. This ...
AbstractNon apoptotic cell death programs particularly ferroptosis and cuproptosis are transforming how we understand cancer ...
The mechanical process of cell division exerts powerful, if microscopic, forces. How do the molecular machines that power it ...
Every time a white blood cell engulfs a bacterium, a neuron extends a projection to connect with a neighboring cell, or when a cancer cell forcefully squeezes through tissue to spread, the cell must ...
A new study led by Marco Fumasoni, principal investigator at Fundação GIMM, shows that evolution can substantially reduce ...
AI-native platforms are reshaping stem cell research, making regenerative medicine faster, cheaper, and more precise.
We’re just beginning to decode this faint optical “signature of life” and what it could reveal about health, disease, and the ...
To celebrate the journal’s 25th anniversary, we asked 13 researchers to offer a glimpse of what their research field might look like in 2050. They consider how technological breakthroughs — for ...
This past year, we explored a lot of new cell biology research—from cancer to plants to microbes, and more! It’s hard to believe what can fit in a year. Yet as we say goodbye to 2025, we want to take ...
A new stem-cell-inspired technique allows scientists to grow vast numbers of immune-cell progenitors that can be engineered ...
A former surgeon's biology-inspired startup is creating soft robotic cells that could transform how intelligent machines are ...
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