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Researchers from Osaka University have demonstrated a proof-of-concept for a novel use of artificial intelligence for enzyme engineering that does not require ...

A group of researchers developed two new gene modification methods: lsODN and 2H2OP. These methods will increase the efficiency of genetic engineering in mice ...

Gene therapy can potentially correct genetic disorders by directly editing defective genes. CRISPR-Cas9 is a popular gene-editing technology whose clinical ...

Stem cells are increasingly used to treat disorders caused by defective tissues. The repair of blood vessels by vascular endothelial stem cells (VESCs) is an ...

Osaka University-led researchers constructed integrated gene logic-chips called "gene nanochips." These self-contained nanochips can switch genes on or off ...

Osaka University-led team provides insights into the distribution of pesticides within insects using a newly developed method of insect sample preparation.

Japanese researchers developed a system that can automatically image single molecules within living cells. This system employs learning via neural networks to ...

Osaka University researchers revealed that two molecules, PTEN and PIP3, mutually inhibit each other to ensure their exclusive distribution at opposite ends of ...

Osaka University researchers developed a novel method of identifying disease-related molecules and processes. They achieved this by integrating genetic data ...