| Michelle Aarts | Biochemistry and signal transduction in ischemia, proteomics, molecular biology, ion channel biology, neuroscience. | |
| Mounir AbouHaidar | Virology. Research interests lie in the area of the molecular biology of plant and animal viruses. Development of "transgenic" plants resistant to viruses: mechanisms of resistance. Research interests lie in the area of the molecular biology | |
| Ian R. Brown | Molecular Biology, Neurobiology | |
| Malcolm Campbell | Functional genomics of plant growth and development | |
| Belinda Chang | Molecular Evolution of Vision, Experimental Studies of Ancestral Proteins | |
| Hai-Ying (Mary) Cheng | Genetics of Biological Timing in Mammals | |
| John R. Coleman | Molecular biology & biochemisty of photosynthesis | |
| Ingo Ensminger | Plant Physiology & Global Change Molecular Physiology of Trees; Photosynthesis and Carbon metabolism; Development of Tools for Marker Assisted Selection in Trees | |
| George S. Espie | Photosynthesis, CO2 concentrating mechanisms (CCM), membrane transport CO2 /HCO3-, carboxysome structure / function, carbonic anhydrase structure / function / evolution, microalgal photosynthesis & CCMsmitochondion / chloroplast interactions | |
| Sonia Gazzarrini | Functional genomics, cell and molecular biology of seed development and germination. Hormone interaction. Abiotic stress. | |
| David Lovejoy | Hormone form & function | |
| Emma Master | Biocatalysts for the production of new materials from plant biomass. Enzyme Engineering, Fungal genomics and proteomics. | |
| Peter McCourt | Molecular genetics of plant hormone signal transduction | |
| Patrick O. McGowan | Epigenetic mechanisms in neuroplasticity and the response to stress as a function of parental factors in mammals. | |
| David R. McMillen | Synthetic biology (design and construction of novel cellular devices in living cells, to alter and control their behaviour); systems biology (the dynamics and behaviour of cells and networks). | |
| Joshua N. Milstein | Quantitative Biology; Conformational DNA Dynamics; Stochastic Gene Expression | |
| Jennifer Mitchell | Genome Folding and Regulation of Gene Expression | |
| Alan Moses | Regulatory sequences and networks. Evolution of regulatory systems. Comparative genomic and other computational and experimental approaches. | |
| Eiji Nambara | Plant hormone metabolism and its action | |
| Ian Orchard | Insect Neurophysiology | |
| Sergio Peisajovich | Synthetic and Systems Biology of Regulatory Networks.
Network evolution and engineering. | |
| Nicholas Provart | Bioinformatics; gene expression in plants in response to abiotic and biotic stresses; use of gene expression data to study genome evolution; hypothesis generation with large publicly-available data sets | |
| C. Daniel Riggs | Cellular & molecular aspects of plant development; homedomain proteins & chromatin structure | |
| Maurice Ringuette | Molecular Biology and Development | |
| Patricia Romans | Molecular Genetics of the Malaria vector mosquito, Anopheles gambiae | |
| Mauricio R. Terebiznik | Cellular microbiology. | |
| Bebhinn Treanor | Molecular immunology, intercellular communication, cell signalling, imaging | |
| Guojun Yang | Activity, regulation and evolution of mobile genetic elements; development of bioinformatics tools; molecular genetics, genomics, and bioinformatics
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| Keiko Yoshioka | Plant-microbe interaction | |
| Rongmin Zhao | Molecular chaperones; Cellular protein homeostasis | |
