在人类基因组中，98%是“不编码蛋白”的DNA，却可能决定疾病的发生。旗下DeepMind公司开发的人工智能模型AlphaGenome登上Nature封面，尝试直接“读懂”这些被忽视的非编码区域，为罕见病诊断提供新的线索。

Artificial intelligence has gotten a bad reputation lately, and often for good reason. But a team of scientists at Google’s ...

Fixing gene defects with designer DNA is on the horizon after Google DeepMind launched a pioneering new AI tool.

DNA coding theory bridges the disciplines of mathematics, computer science and molecular biology by applying advanced algebraic and combinatorial techniques to the design of nucleotide sequences. This ...

Researchers reckon it could dramatically accelerate understanding of how DNA influences disease, cancer, and drug discovery.

Deep-learning model decodes the regulatory effects of DNA changes ...

Scientists have found that non-coding 'junk' DNA, far from being harmless and inert, could potentially contribute to the development of cancer. Their study has shown how non-coding DNA can get in the ...

Life runs on instructions you never see. Every cell reads DNA, turns that message into RNA, and then builds proteins that ...

Forbes contributors publish independent expert analyses and insights. Recent breakthroughs in genetics research may have uncovered new genes underlying common psychiatric disorders. Schizophrenia and ...

Researchers from CSIRO, Australia's national science agency, have unlocked the most detailed genetic blueprint yet of a major ...

Butterfly wing patterns have a basic plan to them, which is manipulated by non-coding regulatory DNA to create the diversity of wings seen in different species, according to new research. The study, ...