Laser-induced fluorescence spectrometry is used to profile pH changes as droplets evaporate in an electrospray plume by measuring emission spectra of 2(or 4)-[10-(dimethylamino)-3-oxo-3H-benzo[c]xanthene-7-yl]-benzenedicarboxylic acid (carboxy SNARF-1), a pH-sensitive fluorescent dye. The observed pH changes depend on initial droplet pH and polarity. In some instances, small or negligible changes of pH are observed, consistent with expected buffering. The pH of initially acidic droplets decreases along the spray axis in both positive and negative ion modes, to an extent larger than expected from solvent evaporation. This phenomenon may be a manifestation of droplet cooling, droplet subdivision, or heterogeneous charge distribution within the spray plume or within individual ES droplets.
Conditions were developed for the reproducible production, isolation and characterization of a novel microbial extracellular polysaccharide believed to be involved in transient viscous bulking at an industrial wastewater treatment plant. The exopolysaccharide was extracted from cell-free culture supernatants of Thauera sp. strain MZ1T grown on a minimal medium with succinate. The purified polymer was found to be approximately 260 kDa in size by gel-permeation chromatography. The GC-MS analysis of the alditol acetate and per-O-trimethylsilyl methyl glycoside derivatives revealed that the exopolysaccharide was composed of four monosaccharides including: rhamnose, galacturonic acid, N-acetylglucosamine and N-acetylfucosamine. Glucose, which also appeared at low levels, is most likely from a co-eluting glucan. The FTIR and NMR spectroscopic analyses further revealed the presence of esterified component groups on the polymer. These results represent the first published description of a polysaccharide from a member of the genus Thauera, and lay the foundation for a deeper understanding of the factors potentially involved in zoogloeal cluster formation and viscous bulking.
Fourier transform analysis of electrospray mass spectra of synthetic polymers can be used to obtain information about the monomer mass, charge distribution, and polydispersity in cases where the convolution of molecular weight, charge, and isotope distributions renders spectra otherwise uninterpretable. Charge-state information can be used with the original mass spectrum to estimate the sample average molecular weight. Determination of the combined end group mass may also be feasible, but at best, an average value can be derived in cases where multiple end groups or adducting species are present. The method is tested using simulated and experimental spectra. Successful application requires a reasonable signalto-noise ratio and spectral digitization rate but does not require full resolution of contributing peaks. It appears in this regard to be complementary to the autocorrelation method of Danis and Huby (Danis, P. O.; Huby, F.
Collision-induced dissociation in the source of an electrospray (ES) mass spectrometer was employed to characterize putative samples of the ionic terpolymer poly(styrene sulfonate-co-acrylic acid-co-2-acrylamido-2-methyl-1-propanesulfonic acid). Qualitative and semi-quantitative information about the monomer content was quickly obtainable from ES spectra, and indicated that some samples contained little or none of one or two expected comonomers. For two representative samples, confirmatory nuclear magnetic resonance (NMR) data were acquired. The NMR experiments required sample clean-up (to remove additives) and long acquisition times (up to 720 min) for 13C NMR. Cleanup also improved the ES results, providing better agreement with the NMR data. However, qualitative and semi-quantitative information was obtainable by ES (but not by NMR) without the cleanup step. Full quantitation of monomer ratios would require suitable standards, but even without such standards the ES measurements provide a rapid (<1 min) means for differentiating these samples (e.g., for process or quality control).
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