Gene regulation is far more predictable than previously believed, scientists conclude after developing the deep learning ...

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

By combining large-scale experiments with deep learning, researchers built a lightweight model that deciphers how regulatory DNA controls gene activity.

“Many antibodies that were not functional when expressed as intrabodies were ultimately found to be converted into functional ones in our study,” commented Kimura. “This confirms that AI allowed us to ...

Study identified numerous influential “hub genes” that offer promising new targets for early detection and therapeutic intervention.

Researchers led by Min Zhang and Dabao Zhang of the University of California, Irvine's Joe C. Wen School of Population & ...

A team led by UC Davis poultry scientist Huaijun Zhou has created the first comprehensive map of gene regulation in breeds of chickens. The map could be a resource for finding resistance to H5N1 ...

Gene regulation is far more predictable than previously believed, scientists conclude after developing deep learning model PARM. This might bring an end to a scientific mystery: how genes know when to ...