Explores protein structure, properties, and analysis techniques, emphasizing the importance of understanding protein charge and interpreting UV and CD spectra.
Explores the importance and complexity of protein-protein interaction networks, experimental approaches, virus-host interactions, and network construction.
Covers the process of expressing and purifying proteins, including the importance of studying protein function, folding, interactions, sequence, and structure.
Explores protein structure determination through X-ray crystallography, NMR spectroscopy, and Cryo-EM, covering crystallization, diffraction patterns, and atomic models.
Explores protein structure determination using NMR and Cryo-EM techniques, covering chemical shifts, isotope labeling, NOE, and high-resolution imaging methods.
Covers posttranslational modifications, focusing on phosphorylation and protein phosphatases, and explains kinase specificity assays and the optimal phosphorylation consensus.
Explores the synthesis of sphingolipids, focusing on ceramide formation, glycosylation, and sphingomyelin conversion, as well as the biosynthesis of complex glycosphingolipids.
Delves into the energetic determinants of protein folding, equilibrium constants, and thermodynamic properties of proteins, emphasizing enthalpy, entropy, and heat capacity.
