Authors: Kashparov, IV Popov, ME Rumsh, LD Popov, EM

Citation: Iv. Kashparov et al., Mechanism of action of aspartic proteases. V. Conformational characteristics of fragments of substrate-binding sites in rhizopuspepsin and HIV-1 protease, BIOORG KHIM, 25(8), 1999, pp. 597-602

Authors: Popov, ME Kashparov, IV Rumsh, LD Popov, EM

Citation: Me. Popov et al., Mechanism of action of aspartic proteases. III. Conformational characteristics of JG-365, an inhibitor of the HIV-1 protease, BIOORG KHIM, 25(6), 1999, pp. 418-422

Authors: Kashparov, IV Popov, ME Popov, EM

Citation: Iv. Kashparov et al., Mechanism of action of aspartic proteases. IV. Conformational characteristics of a substrate and an inhibitor of rhizopuspepsin, BIOORG KHIM, 25(6), 1999, pp. 423-434

Authors: Popov, ME Kashparov, IV Rumsh, LD Popov, EM

Citation: Me. Popov et al., Mechanism of action of aspartyl proteases. VII. Noncovalent complexes of HIV-1 aspartic protease with substrate and substrate-like inhibitor, BIOORG KHIM, 25(12), 1999, pp. 911-922

Authors: Kashparov, IV Popov, ME Rumsh, LD Popov, EM

Citation: Iv. Kashparov et al., Mechanism of action of aspartyl proteases. VI. Noncovalent enzyme-inhibitor and enzyme-substrate complexes of rhizopuspepsin, an aspartyl protease, BIOORG KHIM, 25(10), 1999, pp. 747-762

Authors: Pechik, IV Kashparov, IV Novikova, LA Andreeva, NS

Citation: Iv. Pechik et al., Comparison of amino acid sequences and three-dimensional structures of aspartic proteases for use in their protein engineering, MOL BIOL, 33(3), 1999, pp. 434-444