This page outlines the degree requirements for Computational Biology. This page is not an official list of degree requirements. Adjustments may be required due to curriculum changes. Current students ...

The four-course sequence ISC 231-234 integrates introductory topics in calculus-based physics, chemistry, molecular biology, and scientific computing with Python, with an emphasis on laboratory ...

Saint Louis University's Data Science, B.S. to Bioinformatics and Computational Biology, M.S. accelerated program allows a student to complete both the Bachelor of Science in Data Science and the ...

The use of computational techniques and information systems has revolutionized research in the biological sciences — from the analysis of DNA sequences and the understanding of gene expression and ...

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 ...

Our students are well-prepared to tackle complex biological systems and topics such as epidemiology, biotechnology, precision medicine and more. The undergraduate minor in computational biology ...

Bioinformatics and Genomics: Computational and experimental methods in bioinformatics and genomics, and how these methods provide insights into protein structure and function, molecular evolution, ...

Gain Hands-on Experience: Sequence and annotate whole genomes of a variety of organisms using the Illumina MiSeq in the Genomics Lab. Industry Work Experience: Bioinformatics students gain career ...

Computational modeling is the use of mathematics, physics, and computer science to create complex, dynamic models of systems based on multiple data points. The growth of sophisticated data-gathering ...

This module will introduce students to the new and rapidly evolving interdisciplinary field of synthetic biology which aims to reprogram cellular and/or molecular systems at the genetic level for ...