Regioselective degradation of [beta] 1,3 glucan by ferrous ion and hydrogen peroxide (Fenton oxidation)
Autor: | Peter N. Lipke, Rafael Ovalle, Carol Wood Moore, Lijie Chen, Clifford E. Soll |
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Rok vydání: | 2020 |
Předmět: |
chemistry.chemical_classification
beta-Glucans 010405 organic chemistry Iron Carboxylic acid Organic Chemistry Temperature Regioselectivity Stereoisomerism Hydrogen Peroxide General Medicine 010402 general chemistry 01 natural sciences Biochemistry 0104 chemical sciences Analytical Chemistry Gluconolactone chemistry.chemical_compound Monomer chemistry Aldose Polymer chemistry Hydrogen peroxide Bond cleavage Glucan |
Zdroj: | Carbohydrate Research. 497:108124 |
ISSN: | 0008-6215 |
Popis: | Many species use Fe+2 and H2O2 to oxidize a wide variety of compounds to simpler molecules. Both pathogen killing by leukocytes (neutrophils and lymphocytes) and degradation of cellulose by brown rot fungi rely on excretion of Fe+2 ions and H2O2, the Fenton reagent. To elucidate the mechanism of Fenton oxidation of carbohydrates, β1,3 glucan (laminaran), a major fungal wall polysaccharide, was oxidized using a molar ratio of monomer/Fe+2/H2O2 of 10:1:1 (primarily). We labeled the reaction products and profiled them as fluorescent-labeled molecules in polyacrylamide gels and as hydrophobic-tagged molecules using reverse phase liquid chromatography/mass spectrometry (HPLC/MS). Sub-stoichiometric concentrations of Fe+2 and H2O2 fragmented laminaran into smaller molecules containing carbonyl and carboxylic acid groups visible on fluorescent-labeled carbohydrate polyacrylamide gel electrophoresis. HPLC/MS analysis of glucan fragments showed masses consistent with six classes of molecules: aldoses, dialdoses, uronic acids, hexosuloses, aldonic acids, and hexulosonic acids. The results were consistent with published mechanisms where hydrogen radical (H•) abstraction from a C–H or O–H bond begins a cascade of reactions leading to 1) C–C bond cleavage to produce aldose/dialdose pairs; 2) oxo-group (O = ) addition to produce uronic and aldonic acids; 3) hydroxyl group (HO-) addition to produce gluconolactone and hexosuloses; and 4) hexulosonic acids. Most products resulted from regioselective H• abstractions characteristic of oxidations by ferryl-oxo ion [(Fe O)+2] or perferryl-oxo ion [(Fe O)+3] in close contact with specific positions in the glycan. Therefore, oxidations initiated by regioselectively-bound Fe ions were the predominant initiators of polysaccharide degradations. |
Databáze: | OpenAIRE |
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