Biochemical Pathways & Function
ASU students are revolutionizing structural biology using femtosecond nanocrystallography, defining the roles of enzymes and protein complexes with biomolecules that regulate transcription, translation, post-translational modification and energy and proton flow at the molecular and cellular levels, and study the molecular basis of biology in geology and even astronomy.
Protein structure and function, X-Ray crystallography, photosynthesis, bacterial cofactors
Structure, function and evolution of ribonucleoprotein complexes, RNA-protein interactions, telomerase biogenesis and mechanism
electron microscopy, cryo-EM, electron crystallography, membrane protein, structural biology, signal processing, image processing
Structural biochemistry and biophysics, membrane proteins, X-Ray crystallography, photosynthesis, molecular biology
Improved diagnoses and treatments for diseases caused by impaired energy metabolism
Nanoparticles synthesis and functionalization DNA directed self-assembly Multi-component complex structure
Photosynthesis, membrane proteins, genetics, structural biology
Photosynthesis, protonmotive force, proton and electron transfer, photochemistry, photobiology, bioenergy, biocatalysis, sustainable energy, dye sensitized semiconductors
Bacterial dynamics Single molecule Spectroscopy and Imaging analysis Stochastic processes Bayesian inference
Photosynthetic electron transfer, protein-cofactor interactions, membrane protein degradation, re-engineering photosynthesis for energy and bioremediation
Marine Biology, Biochemistry, Biomineralization, Geochemistry, Symbiosis, Reef-building Coral, Mollusk, Cnidarian
Micro and nanofluidics Bioanalytics, Single cell analysis, Biomolecule migration mechanisms
Molecular dynamics simulations, Cryo-electron microscopy, X-ray crystallography, hybrid modeling
Membrane proteins, Solution NMR, Structural biology, Biophysical Chemistry, Enzymology, Electrophysiology, Computational structural biology, Ion channels, Membrane enzymes
Biochemistry, NMR, protein, carbohydrate, glycan, glycosaminoglycan, protein structure, protein-carbohydrate interactions