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  • Title: Structural predictions of the binding site architecture for monoclonal antibody NC6.8 using computer-aided molecular modeling, ligand binding, and spectroscopy.
    Author: Viswanathan M, Anchin JM, Droupadi PR, Mandal C, Linthicum DS, Subramaniam S.
    Journal: Biophys J; 1995 Sep; 69(3):741-53. PubMed ID: 8519975.
    Abstract:
    Monoclonal antibody NC6.8 binds the superpotent sweetener ligand N-(p-cyanophenyl)-N'-(diphenylmethyl) guanidineacetic acid with high affinity (Kd = 53 nM). Using computer-aided molecular modeling and several experimental techniques, such as competitive ligand binding, absorbance spectroscopy, and fluorescence spectroscopy, we have predicted the structure of the variable domain fragment (Fv) and identified the key residues in the combining site of the antibody. We have identified nine specific amino acids as being involved in ligand recognition and complexation. Most notable are H:33W, which is responsible for ligand-induced tryptophan fluorescence quenching, H:56R, which forms a salt bridge with the carboxylate moiety of the ligand, and L:34H, which, deep in the binding site, interacts with the cyanophenyl portion of the ligand. Two residues located deep in the putative binding pocket, H:35E and H:50E, provide the negatively charged potential for interaction with the protonated aryl nitrogen and the positive guanidinium group. These modeling predictions were made before the solution of high-resolution structures of the native Fab (2.6 A) and the Fab-ligand complex (2.2 A). Comparisons between the theoretical model and experimental native and liganded Fab structures are made.
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