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17 articles
Radio waves are no longer just a background technology for communication: in a new study, they are used as a tool to control spin chemistry in proteins.
SIGnature targets one of single-cell biology’s harder problems: extracting comparable gene-importance scores from large RNA foundation models across datasets.
Wearable sensors already measure the body in motion, but without robust data science and clinical validation they remain sophisticated signal sources, not therapeutic instruments.
The SynCell Asia Initiative moves the synthetic cell from grand promise into a harder engineering problem: making life-like modules work as one system.
AI in pharmaceutical R&D is no longer just a molecule-search tool, but an attempt to turn biology into a design system that still has to pass reality’s exam.
A wearable ultrasound patch for fetal monitoring pushes ultrasound away from occasional snapshots and toward longer observation in pregnancies where every signal matters.
The latest Nature Biotechnology item is not a new experiment but an author correction, yet it touches a paper aimed at one of CRISPR biology’s sharper frontiers: directing Cas12a systems toward RNA targets.
A new preclinical study changes an old assumption: for mRNA vaccines, the key is not only which antigen is delivered, but where the body expresses it.
A study in *GEN News* identifies tunneling nanotubes as a key pathway for mutant huntingtin protein transfer in brain cells.
The article 'Minimal life by computer' presents a significant step forward in the development of virtual cells, with a focus on uniting AI's pattern-finding power with mechanistic models.
A preprint study shows new sensors recording neural activity in brain organoids for under $500 per unit, but clinical relevance is years away.
ERAST’s vector database compresses 1 billion biological sequences into a searchable format—yet its paper omits the critical benchmark: how often speed comes at accuracy’s expense.
The study titled 'Scalable single-cell total RNA sequencing unifies coding and noncoding transcriptomics' was published in Nature Biotechnology on 31 March 2026.
A *Nature Biotechnology* review published this March outlines the first coherent vision for AI that could unify genomics, protein folding, and synthetic biology under one model.
Great Ormond Street surgeons achieved what prior attempts could not: a graft that grows with its host.
In 2019, Georg Schett at Friedrich-Alexander University Erlangen-Nürnberg achieved durable remission in a systemic lupus erythematosus patient using CAR-T therapy — a result that launched a global research expansion beyond oncology.
A new study published in Nature Biotechnology has developed a generative modeling framework that enables petascale synthesis of designed DNA, with a DOI of 10.1038/s41587-026-03020-8.
