Barbas III, Carlos F.
designs zinc finger protein-based transcription factors for the directed regulation of gene expression and gene discovery; programs complex reaction mechanisms into antibodies and uses them to treat cancer; develops new approaches to catalytic asymmetric synthesis; and uses phage display methods to evolve antibodies with the potential to become new immunotherapeutic and gene therapeutic approaches to diseases like breast and ovarian cancer, melanoma, and AIDS.
Boger, Dale L.
works on the total synthesis of biologically active natural products using the tools of organic synthesis to identify, imitate, understand, exploit, and sometimes surpass what nature provides.
Ding, Sheng
is applying arrayed large-scale chemical, cDNA, and siRNA libraries and novel high throughput cellular screens to identify and characterize small molecules and genes that can control stem cell fate in various embryonic and adult stem cell systems and modulate specific signaling pathways in development and regeneration.
Feng, Yangbo
focuses on the lead identification and optimization of drug candidates.
Finn, M.G.
uses viruses as building blocks for biologically active structures, diagnostic agents, immunogenic platforms, and drug delivery vehicles; and also develops new bioconjugation methods, enzyme inhibitors, and functional materials using "click chemistry," and studies organic and organometallic reaction mechanisms.
Fokin, Valery
develops preactical catalytic transformations for organic synthesis, combinatorial chemistry, chemical biology, and materials research; searches for novel antiviral agents, nicotinic receptor ligands, and protease inhibitors.
Ghadiri, M.Reza
develops novel methods for the rational design and construction of functional and interesting bioorganic molecules, such as novel antimicrobial agents, catalytic peptides, biosensors, self-replicating systems, and molecular logic gates.
Goodin, David B.
is focused on the rational engineering of metalloenzyme catalysts in order to better understand the chemical diversity of natural enzymes and to generate novel catalysts of potential utility.
Hwang, Inkyu
investigates cellular mechanisms underlying T cell receptor-mediated integrin activation and develops cell-based high throughput assay systems useful for isolation of small molecules modulating T cell immune functions.
Janda, Kim D.
Investigates biological catalysts, development of methods for the detection of and protection against chemical/biological warfare agents, combinatorial chemical libraries, synthesis and evaluation of enzyme inhibitors, solid-phase organic synthesis, quorum sensing within bacterial systems, lead discovery and detection strategies for tropical diseases, antibody/peptide phage display libraries, cell-penetrating peptides as therapeutic delivery vehicles, and the application of immunopharmacotherapy in the treatment of drug addiction, cancer and obesity.
Joyce, Gerald F.
studies the test-tube evolution of RNA and DNA enzymes, both to explore their potential biomedical applications and to examine their possible role in the early history of life on Earth.
Keinan, Ehud
Liang, Chris
Design, synthesis, and testing of novel small molecular therapeutics.
Micalizio, Glenn Christophe
focuses research on the development of new chemical methods and strategies for the total synthesis of complex biologically interesting natural products, and for the discovery of small molecules with interesting biological properties.
Nemerow, Glen R.
investigates the interaction of adenovirus with host cells, looking at the basic mechanisms involved in virus attachment, internalization, membrane penetration, and nuclear localization, and seeking to design novel adenoviral vectors with increased capacity to deliver therapeutic genes to specific cell types.
Nicolaou, K.C.
works on the total synthesis of biologically active natural and designed molecules and the discovery and development of new synthetic strategies and technologies.
Rebek Jr., Julius
studies basic questions of molecular recognition, self-assembly, catalysis, and complementarity by designing novel organic molecular nanocapsules and synthetic receptors.
Romesberg, Floyd Eric
seeks to understand and evolve novel protein function by expanding the genetic code, to understand the molecular basis of DNA damage, repair, and mutagenesis, and to use femtosecond laser pulses to probe protein dynamics.
Roush, William R.
focuses on the total synthesis of structurally complex and biologically interesting natural products, development of new synthetic methods and strategies, and on problems in medicinal and bioorganic chemistry.
Sharpless, K. Barry
discovers new and useful transformations for organic synthesis, particularly employing inorganic catalysts and olefin-derived compounds of high reactivity; he also applies "in situ" click chemistry, which makes enzymes into reaction vessels and templates for the formation of their own inhibitors.
Siuzdak, Gary E.
is interested in the design and application of mass spectrometry technology including pulsed laser desorption/ionization from silicon surfaces, understanding virus structure/activity, and metabolite profiling.
Wong, Chi-Huey
directs his research towards the development of new chemical-enzymatic strategies for the synthesis of biologically active compounds and chiral intermediates; the design and synthesis of mechanism-based inhibitors of enzymes or receptors; the study of carbohydrate-based biological recognition and its intervention; and the investigation of reaction mechanisms.
Yu, Jin-Quan
Discovers regioselective and enantioselective reactions based on C-H activations and applies these reactions to drug discovery and natural product synthesis.
