Estimations of uronic acids as quantitative measures of extracellular and cell wall polysaccharide polymers from environmental samples.

The extracellular polysaccharide polymers can bind microbes to surfaces and can cause physical modification of the microenvironment. Since uronic acids appear to be the components of these extracellular films that are most concentrated in a location outside the cell membrane, a quantitative assay for uronic acids was developed. Polymers containing uronic acids are resistant to quantitative hydrolysis, and the uronic acids, once released, form lactones irreproducibly and are difficult to separate from the neutral sugars. These problems were obviated by the methylation of the uronic acids and their subsequent reduction with sodium borodeuteride to the corresponding alcohol while they were in the polymer and could not form lactones. This caused the polymers to lose the ability to adhere to their substrates, so they could be quantitatively recovered. The hydrolysis of the dideuterated sugars was reproducible and could be performed under conditions that were mild enough that other cellular and extracellular polymers were not affected. The resulting neutral sugars were readily derivatized and then were separated and assayed by glass capillary gas-liquid chromatography. The dideuterated portion of each pentose, hexose, or heptose, identified by combined capillary gas-liquid chromatography and mass spectrometry, accurately provided the proportion of each uronic acid in each carbohydrate of the polymer. Examples of the applications of this methodology include the composition of extracellular polymers in marine bacteria, invertebrate feeding tubes and fecal structures, and the microfouling films formed on titanium and aluminum surfaces exposed to seawater.