Javier D. Breccia scite author profile

We screened for microorganisms able to use flavonoids as a carbon source; and one isolate, nominated Stilbella fimetaria SES201, was found to possess a disaccharide-specific hydrolase. It was a cell-bound ectoenzyme that was released to the medium during conidiogenesis. The enzyme was shown to cleave the flavonoid hesperidin (hesperetin 7-O-alpha-rhamnopyranosyl-beta-glucopyranoside) into rutinose (alpha-rhamnopyranosyl-beta-glucopyranose) and hesperetin. Since only intracellular traces of monoglycosidase activities (beta-glucosidase, alpha-rhamnosidase) were produced, the disaccharidase alpha-rhamnosyl-beta-glucosidase was the main system utilized by the microorganism for hesperidin hydrolysis. The enzyme was a glycoprotein with a molecular weight of 42224 Da and isoelectric point of 5.7. Even when maximum activity was found at 70 degrees C, it was active at temperatures as low as 5 degrees C, consistent with the psychrotolerant character of S. fimetaria. Substrate preference studies indicated that the enzyme exhibits high specificity toward 7-O-linked flavonoid beta-rutinosides. It did not act on flavonoid 3-O-beta-rutinoside and 7-O-beta-neohesperidosides, neither monoglycosylated substrates. In an aqueous medium, the alpha-rhamnosyl-beta-glucosidase was also able to transfer rutinose to other acceptors besides water, indicating its potential as biocatalyst for organic synthesis. The monoenzyme strategy of Acremonium sp. SES201 = DSM 24697, [corrected] as well as the enzyme substrate preference for 7-O-beta-flavonoid rutinosides, is unique characteristics among the microbial flavonoid deglycosylation systems reported.

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Stabilizing effect of chemical additives against oxidation of lactate dehydrogenase

Andersson

Breccia

Hatti‐Kaul

2000

Biotech and App Biochem

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Oxidation is one of the major pathways for denaturation of proteins during storage, and also a potential problem in protein production, isolation and purification processes. In this study, a number of additives have been tested for their protective effects against oxidation in the presence of metal ions and hydrogen peroxide. Porcine muscle lactate dehydrogenase (LDH) was used as a model protein. Oxidation and denaturation of the enzyme were followed as activity loss, modification of certain amino acids, altered secondary structure and aggregation. Loss of activity during metal-catalysed oxidation was accompanied by structural damage of the enzyme, which was not the case during oxidation with peroxide. The best protectant during both modes of oxidation was found to be the polycation, poly(ethyleneimine) (PEI), followed by EDTA. Both chemicals also increased the enzyme's half-life during oxidation with a mixture of copper ions and hydrogen peroxide. Ammonium sulphate was an effective stabilizer during metal-catalysed oxidation, while sorbitol, sucrose and hydroxyectoine provided moderate stabilization. The ectoine was also stabilizing against oxidation with hydrogen peroxide, as was poly(ethylene glycol), whereas sorbitol enhanced the rate of enzyme inactivation. The stability of LDH towards denaturation by both oxidation and temperature was increased by addition of both PEI and sorbitol, as indicated by the melting-temperature profiles of the enzyme.

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Javier D. Breccia

Purification and characterization of a thermostable xylanase from Bacillus amyloliquefaciens

Extracellular monoenzyme deglycosylation system of 7-O-linked flavonoid β-rutinosides and its disaccharide transglycosylation activity from Stilbella fimetaria

Stabilizing effect of chemical additives against oxidation of lactate dehydrogenase

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