Acid pretreatment is commonly used

Acid pretreatment is commonly used to release pentoses from the hemicellulose fraction of cellulosic
biomass for bioconversion. The predominant pentose in the hemicellulose fraction of hardwoods and crop
residues is xylose in the polysaccharide methylglucuronoxylan, in which as many as one in six of the

-1,4-linked xylopyranose residues is substituted with -1,2-linked 4-O-methylglucuronopyranose. Resistance
of the -1,2-methylglucuronosyl linkages to acid hydrolysis results in release of the aldobiuronate
4-O-methylglucuronoxylose, which is not fermented by bacterial biocatalysts currently used for bioconversion
of hemicellulose. Enterobacter asburiae strain JDR-1, isolated from colonized hardwood (sweetgum),
efficiently ferments both methylglucuronoxylose and xylose, producing predominantly ethanol and
acetate. 13C-nuclear magnetic resonance studies defined the Embden-Meyerhof pathway for metabolism of
glucose and the pentose phosphate pathway for xylose metabolism. Rates of substrate utilization, product
formation, and molar growth yields indicated methylglucuronoxylose is transported into the cell and
hydrolyzed to release methanol, xylose, and hexauronate. Enterobacter asburiae strain JDR-1 is the first
microorganism described that ferments methylglucuronoxylose generated along with xylose during the
acid-mediated saccharification of hemicellulose. Genetic definition of the methylglucuronoxylose utilization
pathway may allow metabolic engineering of established gram-negative bacterial biocatalysts for
complete bioconversion of acid hydrolysates of methylglucuronoxylan. Alternatively, Enterobacter asburiae
strain JDR-1 may be engineered for the efficient conversion of acid hydrolysates of hemicellulose to
biofuels and chemical feedstocks.