Researchers have created a computer program that can unravel the mysteries of how proteins work together -- giving scientists valuable insights to better prevent, diagnose and treat cancer and other ...

Biotech advances from UT’s new Deep Proteins group are changing the game with help from artificial intelligence.

A University of Missouri researcher has created a computer program that can unravel the mysteries of how proteins work ...

A team at the University of Missouri has created Cryo2Struct, an AI program that automates the determination of large protein ...

Transport proteins are responsible for the ongoing movement of substrates into and out of a biological cell. However, it is ...

A University of Missouri researcher has created a computer program that can unravel the mysteries of how proteins work ...

A University of Missouri researcher has created a computer program that can unravel the mysteries of how proteins work together -; giving scientists valuable insights to better prevent, diagnose and ...

Transport proteins are responsible for the ongoing movement of substrates into and out of a biological cell. However, it is difficult to determine which substrates a specific protein can transport.

By combining biochemistry, molecular biology, physics and computer science, new faculty member Philip Romero aims to decode ...

Rapid sequencing technique can not only deal with proteins hundreds of amino acids long but can detect modifications ...

The SPOT model uses AI to predict the substrates that specific transport proteins can carry. SPOT offers a promising approach ...

Transport proteins are responsible for the ongoing movement of substrates into and out of a biological cell. However, it is difficult to determine ...