Computational Chemistry and Chemical Biology

Computational chemists' daily work effects our accepting of the way the world works, helps manufacturers design more original and efficient procedures, characterizes new compounds and materials, and helps other researchers extract useful knowledge from mountains of data. Computational chemistry is also used to study the important properties of atoms, molecules, and chemical reactions, using quantum mechanics and thermodynamics.

Chemical Biology research uses the tools of chemistry and synthesis to understand biology and disease pathways at the molecular level. Progressive biological chemistry interests include diverse topics such as nucleic acids, DNA repair, bioconjugate chemistry, electron transport, peptides and peptidomimetics, glycoscience, biochemical energy, vitamins, cofactors and coenzymes, biomolecule structure and function, drug activity, imaging, and biological catalysis. Biophysical Chemistry signifies the union of chemistry, physics, and biology using a variety of experimental and theoretical approaches to understand the structure and function of biological systems.

  • Discovery of biomolecules through metagenomics

  • Chemical approaches to stem-cell biology

  • Metal complexes in medicine

  • Bioorganic and Bioinorganic Chemistry

  • Synthetic biology

  • Enzymology

  • Genome Analysis

  • Chemical and Molecular dynamics

  • Applications of Chemical Biology in Drug Discovery

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