The present invention pertains to a method for producing high value-added compounds from polyethylene terephthalate. More specifically, the present invention demonstrates that a monomeric terephthalic acid obtained from the chemical hydrolysis of polyethylene terephthalate can be converted to high value-added aromatic compounds and aromatic-derived compounds, and ethylene glycol, which is another monomer of polyethylene terephthalate, can be converted to glycolic acid, which is a cosmetic material. The present invention is characterized by recycling polyethylene terephthalate waste into high value-added compounds.

A combination is provided comprising an ellagitannin composition, and an enzymatic composition comprising one or more ellagitannin enzymes, where the one or more ellagitannin enzymes comprise a tannin acyl hydrolase enzyme, a gallate decarboxylase enzyme, or a combination thereof. Methods of making and using combinations disclosed herein are also provided.

A combination is provided comprising an ellagitannin composition, and an enzymatic composition comprising one or more ellagitannin enzymes, where the one or more ellagitannin enzymes comprise a tannin acyl hydrolase enzyme, a gallate decarboxylase enzyme, or a combination thereof. Methods of making and using combinations disclosed herein are also provided.

Presented herein are biocatalysts and methods for converting C1-containing materials to organic acids such as muconic acid or adipic acid.

A combination is provided comprising an ellagitannin composition, and an enzymatic composition comprising one or more ellagitannin enzymes, where the one or more ellagitannin enzymes comprise a tannin acyl hydrolase enzyme, a gallate decarboxylase enzyme, or a combination thereof. Methods of making and using combinations disclosed herein are also provided.

Presented herein are biocatalysts and methods for converting C1-containing materials to organic acids such as muconic acid or adipic acid.

Presented herein are biocatalysts and methods for converting C1-containing materials to organic acids such as muconic acid or adipic acid.

Presented herein are biocatalysts and methods for converting C1-containing materials to organic acids such as muconic acid or adipic acid.

A combination is provided comprising an ellagitannin composition, and an enzymatic composition comprising one or more ellagitannin enzymes, where the one or more ellagitannin enzymes comprise a tannin acyl hydrolase enzyme, a gallate decarboxylase enzyme, or a combination thereof. Methods of making and using combinations disclosed herein are also provided.