Proteins are the end products of the decoding process that starts with the information in cellular DNA. As workhorses of the cell, proteins compose structural and motor elements in the cell, and they ...

Researchers developed a computer simulation that rapidly and accurately predicts how proteins shift their shapes, potentially advancing drug design and protein engineering.

As AI increasingly connects breakthroughs across healthcare, from genomics to mRNA therapies, investors should evaluate ...

Jacobs School researchers have shown how an electron diffraction technique can quickly and efficiently create high-resolution ...

Protein engineering is a powerful biotechnological process that focuses on creating new enzymes or proteins and improving the functions of existing ones by manipulating their natural macromolecular ...

This review provides an overview of traditional and modern methods for protein structure prediction and their characteristics and introduces the groundbreaking network features of the AlphaFold family ...

Biotech advances from UT’s new Deep Proteins group are changing the game with help from artificial intelligence. Researchers study the three dimensional structures of molecules on a wall-sized video ...

The limitations imposed by evolution have implications for AI tools trained on existing sequences and de novo protein design ...

A new computer process makes it possible to generate active pharmaceutical ingredients quickly and easily based on a protein's three-dimensional surface. The new process could revolutionize drug ...

Real-time and in-line accurate measuring of protein (monoclonal antibody, or mAb) concentration has been shown across a wide dynamic range (0–135 g/L) through the ...