Surface assembly on biofunctional magnetic nanobeads for the study of protein–ligand interactions

A flow dialysis procedure with an approach to steady state in less than half a minute has been developed. The main advantage of the new device is that it permits the use of lower levels of radioactivity and therefore allows determination of dissociation constants (K,) of tight complexes, i.e., with

The catalytic mechanism of triosephosphate isomerase (TIM) was investigated with ab initio quantum mechanical calculations. Electrostatic interactions between the quantum mechanical active site and the protein and solvent environment were modeled using the finite difference Poission-Boltzman method.

## Abstract The study of protein–protein interactions is important to scientists in a wide range of disciplines. We present here the assessment of a lab‐intensive course that teaches students techniques used to identify and further study protein–protein interactions. One of the unique elements of t

## Abstract The adsorption equilibria of bovine serum albumin (BSA), γ‐globulin, and lysozyme to three kinds of Cibacron blue 3GA (CB)‐modified agarose gels, 6% agarose gel‐coated steel heads (6AS), Sepharose CL‐6B, and a home‐made 4% agarose gel (4AB), were studied. We show that ionic strength has

## Abstract Enzymes with ribonucleolytic activity play a pivotal role in gene expression and cellular homeostasis by altering the levels of cellular RNA. Ribonuclease A has been the most well studied of such enzymes whose histidine residues (His^12^ and His^119^) play a crucial role in the catalyti