Photon-driven nanorobots can steer, capture, and move bacteria with precision, enabling controlled manipulation in microscopic environments and offering new tools for microbiology.

Embark on a cross-border journey to witness the rescue of a true automotive survivor—a classic BMW that has remained with its ...

Researchers at Hannover Medical School (MHH) have developed a method for the efficient production of human immune cells, such ...

LLNL builds protein screening system that accelerates rare-earth separation using bacterial proteins and machine learning. US ...

Researchers at City of Hope, a cancer research and treatment organization, and the University of California, Berkeley, have ...

Neuronal specification, expansion and differentiation are tightly regulated by the concerted actions of transcription and chromatin modifying factors that are recruited to regulatory elements in the ...

This important paper substantially advances our understanding of how Molidustat may work, beyond its canonical role, by identifying its therapeutic targets in cancer. This study presents a compelling ...

Students and professionals looking to upskill are in luck this month of April, as Harvard University is offering 144 free ...

OneCyte, which focuses on high-throughput single-cell analysis and cell line development technologies, and Kemp Proteins, which specializes in protein engineering and expression solutions, signed a ...

A collaborative research group has shown that biological neurons can be trained to perform a temporal pattern learning task that was previously carried out by artificial systems. (Nanowerk News) A ...

Researchers from several Parisian institutions have worked together to develop a non-destructive approach to study how unicellular organisms respond to stress, focusing on cell-to-cell differences.

Professor Chao Zhang's team at Zhujiang Hospital, Southern Medical University, has developed a novel DNA nanomachine-based drug delivery and release strategy aimed at overcoming chemoresistance in ...