Authors: Rivas, L Murza, A Sanchez-Cortes, S Garcia-Ramos, JV

Citation: L. Rivas et al., Adsorption of acridine drugs on silver: surface-enhanced resonance Raman evidence of the existence of different adsorption sites, VIB SPECTR, 25(1), 2001, pp. 19-28

Authors: Murza, A Sanchez-Cortes, S Garcia-Ramos, JV

Citation: A. Murza et al., Surface-enhanced Raman and steady fluorescence study of interaction between antitumoral drug 9-aminoacridine and trypsin-like protease related to metastasis processes, guanidinobenzoatase, BIOPOLYMERS, 62(2), 2001, pp. 85-94

Authors: Murza, A Fernandez-Lafuente, R Guisan, JM

Citation: A. Murza et al., Essential role of the concentration of immobilized ligands in affinity chromatography: Purification of guanidinobenzoatase on an ionized ligand, J CHROMAT B, 740(2), 2000, pp. 211-218

Authors: Rivas, L Murza, A Sanchez-Cortes, S Garcia-Ramos, JV

Citation: L. Rivas et al., Interaction of antimalarial drug quinacrine with nucleic acids of variablesequence studied by spectroscopic methods, J BIO STRUC, 18(3), 2000, pp. 371-383

Authors: Murza, A Sanchez-Cortes, S Garcia-Ramos, JV Guisan, JM Alfonso, C Rivas, G

Citation: A. Murza et al., Interaction of the antitumor drug 9-aminoacridine with guanidinobenzoatasestudied by spectroscopic methods: A possible tumor marker probe based on the fluorescence exciplex emission, BIOCHEM, 39(34), 2000, pp. 10557-10565

Authors: Murza, A Aguilar, AR Fernandez-Lafuente, R Guisan, JM

Citation: A. Murza et al., Affinity chromatography of plasma proteins (guanidinobenzoatase): use of mimetic matrices and mimetic soluble ligands to prevent the binding of albumin on target affinity matrices, J CHROMAT B, 732(1), 1999, pp. 165-172