COMPUTATIONAL GENOMICS
THE "HOW" OF SCIENCE
APPLICATIONS
OF COMPUTATIONAL
GENOMICS
PROTEOMICS
AN ESSENTIAL ASPECT OF AN ESSENTIAL FIELD OF STUDY
Proteomics, the study of proteins is essential to understanding how genes are expressed, how the body responds to diseases, the body's response to medication, and so much more. However, even more essential to this critical field are the tools that make it efficient and easy.
PERSONALIZED
MEDICINE
ENABLING A PERSONALIZED, EFFECTIVE FUTURE OF MEDICINE
Personalized medicine is an approach to treating a disease that focuses on how every person has a unique risk and reaction to a specific disease. In order to make personalized medicine possible, doctors need bioinformatics technology to perform a Genome-Wide Association Study.
COMPARATIVE
GENOMICS
HOW DO WE FIGURE OUT WHAT MAKES US HUMAN?
Comparative Genomics is the process of comparing two different genomes to better understand what parts of the genome are unique to a specific species. All of the analyzation essential to comparative genomics is made possible through bioinformatics software