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1.
Appl Environ Microbiol ; 73(19): 6233-40, 2007 Oct.
Article in English | MEDLINE | ID: mdl-17704280

ABSTRACT

Aerobic activated sludge granules are dense, spherical biofilms which can strongly improve purification efficiency and sludge settling in wastewater treatment processes. In this study, the structure and development of different granule types were analyzed. Biofilm samples originated from lab-scale sequencing batch reactors which were operated with malthouse, brewery, and artificial wastewater. Scanning electron microscopy, light microscopy, and confocal laser scanning microscopy together with fluorescence in situ hybridization (FISH) allowed insights into the structure of these biofilms. Microscopic observation revealed that granules consist of bacteria, extracellular polymeric substances (EPS), protozoa and, in some cases, fungi. The biofilm development, starting from an activated sludge floc up to a mature granule, follows three phases. During phase 1, stalked ciliated protozoa of the subclass Peritrichia, e.g., Epistylis spp., settle on activated sludge flocs and build tree-like colonies. The stalks are subsequently colonized by bacteria. During phase 2, the ciliates become completely overgrown by bacteria and die. Thereby, the cellular remnants of ciliates act like a backbone for granule formation. During phase 3, smooth, compact granules are formed which serve as a new substratum for unstalked ciliate swarmers settling on granule surfaces. These mature granules comprise a dense core zone containing bacterial cells and EPS and a loosely structured fringe zone consisting of either ciliates and bacteria or fungi and bacteria. Since granules can grow to a size of up to several millimeters in diameter, we developed and applied a modified FISH protocol for the study of cryosectioned biofilms. This protocol allows the simultaneous detection of bacteria, ciliates, and fungi in and on granules.


Subject(s)
Bacteria, Aerobic/physiology , Biofilms/growth & development , Bioreactors/microbiology , Ciliophora/physiology , Sewage/chemistry , Sewage/microbiology , Aerobiosis , Animals , Ciliophora/isolation & purification , In Situ Hybridization, Fluorescence , Population Dynamics , Waste Disposal, Fluid/methods
2.
Physiol Chem Phys ; 7(6): 555-64, 1975.
Article in English | MEDLINE | ID: mdl-4847

ABSTRACT

The subunit molecular weight of glucose-6-phosphate dehydrogenase (G6PD) from baker's yeast has been evaluated. The subunit molecular weight value is shown to be 25,500 daltons by analytical ultracentrifugation, SDS-polyacrylamide gel electrophoresis, and the number of peptides produced by CNBr cleavage. The number of NADP binding sites was determined to be one per 25,500 dalton unit.


Subject(s)
Glucosephosphate Dehydrogenase , Amino Acids/analysis , Binding Sites , Cyanogen Bromide , Electrophoresis, Polyacrylamide Gel , In Vitro Techniques , Molecular Weight , NADP , Peptides/analysis , Saccharomyces cerevisiae/enzymology
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