A remarkably small bacterium containing fewer than 500 genes serves as the basis for one of the most detailed digital life ...
To model bacterial life, Thornburg and his colleagues turned to one of its simplest examples: a bacterial cell with a ...
How does a tiny cluster of cells become an embryo with a head, trunk, and tail? And how do thousands of genes coordinate this development? A new imaging method makes it possible to visualize the ...
Drs. Jeanette Johnson, Elana J. Fertig, and Daniel Bergman review mathematical models and genomic data to simulate cancer cell growth. [University of Maryland School of Medicine] Researchers at ...
Researchers created a cryo-optical microscopy method that freezes live cells in milliseconds, enabling multi-mode imaging of fast cellular events. (Nanowerk News) Optical microscopy is a key technique ...
Fluorescence microscopy reveals cellular morphology and dynamics in remarkable detail, but achieving clear visualization at fast acquisition rates remains a challenge. A fundamental trade-off between ...
AI tools expedite antibody probe development, allowing researchers to track activity inside living cells. Researchers at Colorado State University (CSU; CO, USA) have determined how to use artificial ...
An engineered viral protein enhanced the anticancer function of T cells in mice, suggesting a new strategy to improve immunotherapy. Courtney and his team sought to exploit this property of TIP to ...
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