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EC Number Application Commentary Reference
Show all pathways known for 3.1.1.68Display the word mapDisplay the reaction diagram Show all sequences 3.1.1.68biotechnology considerable interest exists in utilizing the hemicellulose biomass for fine chemical production by converting xylose microbially to xylonic acid, other proposed uses of xylonic acid are in textile bleaching or in electroplating 643848
Show all pathways known for 3.1.1.68Display the word mapDisplay the reaction diagram Show all sequences 3.1.1.68synthesis an engineered Escherichia coli strain, with functional co-expression of a xylose dehydrogenase (gene xdh) and a xylonolactonase (gene xylC) from Caulobacter crescentus, has a promising perspective for large-scale production of xylonate 730737
Show all pathways known for 3.1.1.68Display the word mapDisplay the reaction diagram Show all sequences 3.1.1.68synthesis construction of a route for glycolate production in Escherichia coli by introducing NAD+-dependent xylose dehydrogenase xdh and xylonolactonase xylC from Caulobacter crescentus. The engineered strain produces 28.82 g/L glycolate from xylose with 0.60 g/L/h productivity and 0.38 g/g xylose yield. 27.18 g/L acetate accumulates after fermentation. An ackA knockout results in about 66% decrease in acetate formation. The final engineered strain produces 43.60 g/L glycolate, with 0.91 g/L/h productivity and 0.46 g/g xylose yield -, 751483
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