A new computational method can identify how cause-and-effect relationships ebb and flow over time in dynamic real-life systems such as the brain.

The study of immune biology in the context of infectious and inflammatory diseases is a dynamic and rapidly evolving field. Current research is focused on unravelling the complex mechanisms by which ...

Jaris Computational Biology Centre has set a new standard in computational biology, by reshaping the scientific research ...

In the rapidly advancing field of computational biology, a newly peer-reviewed ... The goal of our study was to perform a bioinformatics analysis of Photosystem I P700 chlorophyll a apoprotein ...

Over the past two decades, new technologies have helped scientists generate a vast amount of biological data. Large-scale ...

Data demonstrates Kronos Bio's approach to targeting oncogenic transcription factors and the strong relationship between IRF4 and p300 in ...

The AI tool AlphaFold has been improved so that it can now predict the shape of very large and complex protein structures.

The inspiring journey of violin maestro, his mission to elevate the violin in Indian music, and his groundbreaking ...

Data analysis experts share their views on open source software, commercial software, cloud-based platforms, and outsourcing ...

The Cambridge Monographs on Applied and Computational Mathematics publishes expositions on all aspects of applicable, numerical and computational mathematics. The series represents the growth in ...

Future Medicine, researchers elucidate the transformative impact of deep learning technologies on protein structure ...

The capability of biological systems to respond to environmental changes is realized by a complex dynamic adjustment of the interplay between genes, proteins and metabolites. For a deeper ...