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 ...

Bioinformatics and computational biology represent inter‐related disciplines that harness computational methods, statistical models and algorithmic innovations to decode, organise and interpret ...

Combine the explosion of genetic information fostered by the Human Genome Project (HGP) with huge advances in computer technology, and the result is the relatively young field of bioinformatics. The ...

Whether spearheading genetics research at leading pharmaceutical companies or designing biological models, our faculty and advisory council members represent the best and brightest of the ...

The Bioinformatics and Biostatistics Core is a collaborative center that provides investigators with bioinformatics expertise to analyze large molecular datasets and develop novel algorithms. We have ...

Bioinformatics is rapidly changing the course of human health and history. Scientists and researchers use data like never before to save countless lives each day. Bioinformatics fuels new discoveries ...

NGS enables the in-depth analysis of the genome and the identification and investigation of disease-associated variants–especially when workflows include target enrichment, which focuses on specific ...

The integration of bioinformatics, machine learning and multi-omics has transformed soil science, providing powerful tools to ...

I slipped into bioinformatics through the back door. In 1992, while completing my pathology residency at Brigham and Women's Hospital in Boston, I became frustrated with my inability to combine my ...

In this major, you'll take core classes in calculus, statistics, molecular biology, organic chemistry and databases, as well as bioinformatics. From there, your courses will be based on your specific ...