Faculty Publications

Regulation of Coal Polymer Degradation by Fungi. Thirteenth Quartery Report.

Document Type

Report

Journal/Book/Conference Title

United States Department of Energy

First Page

1

Last Page

8

Abstract

During this reporting period we have further studied the oxidation of soluble coal macromolecules by lignin peroxidase from Phanerochaete chrysosporium. Previous studies by others have suggested that a soluble fraction (coal macromolecule B-111) from a nitric acid solubilized North Dakota Lignite is depolymerized by this enzyme. Our investigations indicate that fraction B-111 is a substrate for lignin peroxidase as this material is decolorized in the presence of lignin peroxidase H{sub 8} and hydrogen peroxide. Of interest, however, is the observation that little, if any, depolymerization of this material occurs. Instead, it appears that lignin peroxidase and coal macromolecule B-111 form a precipitate. These results are similar to those observed in our investigations of lignin peroxidase mediated oxidation of oxalate solubilize coal macromolecule. Previous studies in our laboratory using a spectrophotometric assay suggested that, in addition to oxalate, several other fungal metabolites are able to solubilize leonardite. We have reinvestigated this phenomenon using a more reliable gravimetric procedure for assessing solubilization. Our results confirm our earlier findings that malate, oxaloacetate and citrate are effective solubilizing agents whereas succinate, fumarate and {alpha}-ketoglutarate solubilize relatively small amounts of leonardite. Finally, we have studied the composition of the insoluble material remaining following extensive solubilization by sodium oxalate. The ratio of hydrogen to carbon is increased in the insoluble material relative to the parent leonardite.

Department

Department of Chemistry and Biochemistry

Original Publication Date

10-31-1997

DOI of published version

10.2172/610617

Link to Full Text

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