We are living in an era where biology has become synonymous with big data due to the ever-increasing amount of data being generated by technologies such as next-generation sequencing. Bioinformatics ...

Many proteins are capable of spontaneously rearranging themselves within cells to form molecular condensates—membraneless intracellular structures formed by one or multiple proteins—through a process ...

Bioinformatics is the foundation of modern research, translating complex biological data into actionable insights by combining biology, computer science, and data analysis. Selecting the right ...

Bioinformatics is an interdisciplinary field that combines biology, computer science, mathematics, and statistics to analyze and interpret biological data. It involves the development and application ...

A new artificial intelligence (AI) tool that draws logical inferences about the function of unknown proteins promises to help scientists unravel the inner workings of the cell. A new artificial ...

Dukka KC, chair of the Department of Computer Science, edited the book Large Language Models (LLMs) in Protein Bioinformatics. The recently published book contains 19 chapters covering a wide range of ...

The SYBB track in Translational Bioinformatics poises students to work at the interface of applied ‘omics research and clinical medicine. From integrating genomic and functional genomic data into ...

Protein scientists could improve reproducibility and coordination across the field by rallying around a small, shared set of ...

Melyssa Minto (left) is an omics researcher and bioinformatics scientist at RTI International (NC, USA), where she uses multiomic data to understand how the central dogma of biology – the way genetic ...