Jose A. Bocanegra scite author profile

Systematic replacement of a set of amino acids in the beta alpha beta-fold of the NAD-binding domain of Escherichia coli dihydrolipoamide dehydrogenase has been used to convert its coenzyme specificity from NAD to NADP. After comparison with the homologous enzyme glutathione reductase, Glu 203 was replaced with a valine residue, thereby eliminating the potential to form hydrogen bonds with the 2'- and 3'-OH groups of the adenine ribose in NAD. Similarly, Met 204, Pro 210, Phe 205, and Asp 206 were replaced by an arginine, an arginine, a lysine, and a histidine residue, respectively, to provide a nest of positive charge to accommodate the 2'-phosphate group of the incoming NADP. In addition, Gly 185 and Gly 189 in the beta alpha beta motif were replaced with alanine residues to facilitate the positioning of the newly introduced Val 203 by allowing a flip of the peptide bond between residues Gly 180 and Gly 181. Wild-type dihydrolipoamide dehydrogenase is inactive with NADP, but the mutant enzyme displayed high levels of activity with this coenzyme, the values of Km, kcat, and kcat/Km comparing favorably with those found for the wild-type enzyme operating with NAD. The mutant enzyme was also capable of assembly in vitro to form an active pyruvate dehydrogenase multienzyme complex, the coenzyme specificity of which reflected that of its dihydrolipoamide dehydrogenase component. These experiments should make it possible now to study the effects in vivo of requiring a crucial catabolic enzyme to function with the wrong coenzyme, an important extension of protein engineering into the living cell.

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Immunocytochemical Localization of Nitrite Reductase in Green Algae

Lopez‐Ruiz

Verbelen²,

Bocanegra³

et al. 1991

Plant Physiol.

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The distribution of nitrite reductase (EC 1.7.7.1) in the green algae Chiamydomonas reinhardtii, Monoraphidium braunil, ChIorella fusca, and Scenedesmus obliquus was studied by immunoelectron microscopy. The labeling of ultrathin cryosections was performed with anti-nitrite reductase antibodies followed by goldlabeled goat anti-rabbit antibodies. In C. reinhardtii sections, gold label was mainly associated with the pyrenoid, tonoplast, and plasmalemma. Significant labeling was also detected in the thylakoid region. In all other organisms, label density was lower but distributed in the same locations, except that the plasmalemma of S. obliquus was not significantly labeled. From estimates of the relative volume of different cell regions, we found that approximately 80% of the total enzyme is located in the chloroplastic region (thylakoids plus pyrenoid) of C. reinhardtii, M. braunil, and C. fusca, and 97% in the case of S. obliquus.

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Jose A. Bocanegra

Creation of an NADP-dependent pyruvate dehydrogenase multienzyme complex by protein engineering

Immunocytochemical Localization of Nitrite Reductase in Green Algae

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