Cost Effective Tools: Systems Biology and Bioinformatics

Systems biology is the computational and mathematical modelling of complex biological systems. Systems biology has been responsible for some of the most important developments in the science of human health and environmental sustainability. It is a holistic approach to deciphering the complexity of biological systems that starts from the understanding that the networks that form the whole of living organisms are more than the sum of their parts. It is collaborative, integrating many scientific disciplines – biology, computer science, engineering, bioinformatics, physics and others – to predict how these systems change over time and under varying conditions, and to develop solutions to the world’s most pressing health and environmental issues. Systems biology, ultimately, creates the potential for entirely new kinds of exploration, and drives constant innovation in biology-based technology and computation.
  • Bioinformatics: Sequence and genome analysis
  • Microbial functional genomics
  • Genomics and epidemiological surveillance of bacterial pathogens
  • Microarray expression analysis
  • Mathematical models for infectious disease dynamics
  • Single cell genomics and proteomics
  • Interplay between host ecology and viral evolution
  • Systems biology of host-microbiome interactions
  • Metagenomics
  • Comparitive genomics
  • Diagnosis and management of viral hepatitis
  • Microbial evolution and phylogenetics
  • Microbial genetics
  • Genome evolution and environmental genomics

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