Johanna M. Koivisto scite author profile

Bifidobacterium longum endo-α-N-acetylgalactosaminidase (GH101), EngBF, is highly specific toward the mucin Core 1 glycan, Galβ1-3GalNAc. Apart from the side chains involved in the retaining mechanism of EngBF, Asp-682 is important for the activity. In the crystal structures of both EngBF and EngSP (from Streptococcus pneumoniae), we identified a conserved water molecule in proximity to Asp-682 and the homologue residue in EngSP. The water molecule also coordinates the catalytic nucleophile and three other residues conserved in GH101 enzymes; in EngBF, these residues are His-685, His-718, and Asn-720. With casein-glycomacropeptide as the substrate, the importance of Asp-682 was confirmed by the lack of a detectable activity for the D682N enzyme. The enzyme variants, H685A, H718A, H685Q, and H718Q, all displayed only a modestly reduction in k cat of up to 15 fold for the H718A variant. However, the double-substituted variants, H685A/H718A and H685Q/H718Q, had a greatly reduced k cat value by about 200 fold compared to that of wild-type EngBF. With the synthetic substrate, Galβ(1−3)GalNAcα1-paranitrophenol, k cat of the double-substituted variants was only up to 30-fold reduced and was found to increase with pH. Compared to the pre-steady-state kinetics of wild-type EngBF, a burst of about the size of the enzyme concentration was absent with the doublesubstituted EngBF variants, indicating that the nucleophilic attack had become at least as slow as the hydrolysis of the enzyme intermediate. Together, the results indicate that not only Asp-682 but also the entire conserved network of His-685, His-718, and what we suggest is a catalytic water molecule is important in the activation of the catalytic nucleophile.

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Co-evolution of drug resistance and broadened substrate recognition in HIV protease variants isolated from an Escherichia coli genetic selection system

Koivisto

Poulsen

Larsen

et al. 2022

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A genetic selection system for activity of HIV protease is described that is based on a synthetic substrate constructed as a modified AraC regulatory protein that when cleaved stimulate L-arabinose metabolism in an Escherichia coli araC strain. Growth stimulation on selective plates was shown to depend on active HIV protease and the scissile bond in the substrate. In addition, the growth of cells correlated well with the established cleavage efficiency of the sites in the viral polyprotein, Gag, when these sites were individually introduced into the synthetic substate of the selection system. Plasmids encoding protease variants selected based on stimulation of cell growth in the presence of saquinavir or cleavage of a site not cleaved by wild-type protease, were indistinguishable with respect to both phenotypes. Also, both groups of selected plasmids encoded side chain substitutions known from clinical isolates or displayed different side chain substitutions but at identical positions. One highly frequent side chain substitution, E34V, not regarded as a major drug resistance substitution was found in variants obtained under both selective conditions and is suggested to improve protease processing of the synthetic substrate. This substitution is away from the substrate-binding cavity and together with other substitutions in the selected reading frames supports the previous suggestion of a substrate-binding site extended from the active site binding pocket itself.

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Johanna M. Koivisto

Engineering Bifidobacterium longum Endo-α-N-acetylgalactosaminidase for Neu5Acα2-3Galβ1-3GalNAc reactivity on Fetuin

Identification of a Catalytic Nucleophile-Activating Network in the endo-α-N-Acetylgalactosaminidase of Family GH101

Co-evolution of drug resistance and broadened substrate recognition in HIV protease variants isolated from an Escherichia coli genetic selection system

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