A. Molon scite author profile

A. Molon

4Publications

97Citation Statements Received

118Citation Statements Given

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108

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University of British Columbia, Leiden University

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Reconstitution of the Type-1 Active Site of the H145G/A Variants of Nitrite Reductase by Ligand Insertion

et al. 2003

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Variants of the copper-containing nitrite reductase (NiR) of Alcaligenes faecalis S6 were constructed by site-directed mutagenesis, by which the C-terminal histidine ligand (His145) of the Cu in the type-1 site was replaced by an alanine or a glycine. The type-1 sites in the NiR variants as isolated, are in the reduced form, but can be oxidized in the presence of external ligands, like (substituted) imidazoles and chloride. The reduction potential of the type-1 site of NiR-H145A reconstituted with imidazole amounts to 505 mV vs NHE (20 degrees C, pH 7, 10 mM imidazole), while for the native type-1 site it amounts to 260 mV. XRD data on crystals of the reduced and oxidized NiR-H145A variant show that in the reduced type-1 site the metal is 3-coordinated, but in the oxidized form takes up a ligand from the solution. With the fourth (exogenous) ligand in place the type-1 site is able to accept electrons at about the same rate as the wt NiR, but it is unable to pass the electron onto the type-2 site, leading to loss of enzymatic activity. It is argued that the uptake of an electron by the mutated type-1 site is accompanied by a loss of the exogenous ligand and a concomitant rise of the redox potential. This rise effectively traps the electron in the type-1 site.

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Molecular heterogeneity of the hemocyanin isolated from the king crab Paralithodes camtschaticae

Molon¹,

Muro²,

Bubacco³

et al. 2000

European Journal of Biochemistry

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Native Paralithodes camtschaticae hemocyanin is found as a mixture of dodecamers (24S; 80%) and hexamers (16S; 20%). Removal of Ca 21 ions by dialysis against EDTA-containing buffer solution at neutral pH induces complete dissociation of the 24S form into the 16S form. Under these conditions, a further increase in pH to 9.2 produces complete dissociation of the hexamers into monomers (5S). In both cases, the dissociation process is reversible. The dodecamer (24S) is composed of two different hexamers which can be discriminated only by ion-exchange chromatography in the presence of Ca 21 ions. At alkaline pH and in the presence of EDTA, two major monomeric fractions can be separated by ion-exchange chromatography: ParcI (60%) and ParcII (40%). The reassociation properties of the two fractions were studied separately to define their ability to form hexamers and dodecamers.The oxygen-binding properties of the different aggregation states were investigated. Native hemocyanin binds O 2 co-operatively (n H 3) and with low affinity (p 50 < 103 Torr). The two monomeric fractions, ParcI and ParcII, are not co-operative and the affinity is twice that of the native protein ( p 50 < 65 and 52 Torr).Oxygen-binding measurements of native hemocyanin carried out at different pH values indicate a strong positive Bohr effect within the pH range 6.5±8.0 and an increase in oxygen affinity at pH below 6.5.

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Crystal structure of a copper reconstituted H145A mutant of nitrite reductase from Alcaligenes faecalis

Wijma¹,

Boulanger²,

Molon³

et al. 2003

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Crystal structure of H145A mutant of nitrite reductase from Alcaligenes faecalis

Wijma¹,

Boulanger²,

Molon³

et al. 2003

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A. Molon

Reconstitution of the Type-1 Active Site of the H145G/A Variants of Nitrite Reductase by Ligand Insertion

Molecular heterogeneity of the hemocyanin isolated from the king crab Paralithodes camtschaticae

Crystal structure of a copper reconstituted H145A mutant of nitrite reductase from Alcaligenes faecalis

Crystal structure of H145A mutant of nitrite reductase from Alcaligenes faecalis

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