21 research outputs found

    The symbiotic star CH Cygni. I. An analysis of the shocked nebulae at different epochs

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    Context. We analyse the line and continuum spectra of the symbiotic system CH Cygni. Aims. To show that the colliding-wind model is valid to explain this symbiotic star at different phases. Methods. Peculiar observed features such as flickering, radio variation, X-ray emission, as well as the distribution of the nebulae and shells throughout the system are investigated by modelling the spectra at different epochs. The models account consistently for shock and photoionization and are constrained by absolute fluxes. Results. We find that the reverse shock between the stars leads to the broad lines observed during the active phases, as well as to radio and hard X-ray emission, while the expanding shock is invoked to explain the data during the transition phases.Comment: 16 pages, 11 figures, 10 tables, submitted to A&A on 5th December 200

    Whole-Cell Fluorescent Biosensors for Bioavailability and Biodegradation of Polychlorinated Biphenyls

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    Whole-cell microbial biosensors are one of the newest molecular tools used in environmental monitoring. Such biosensors are constructed through fusing a reporter gene such as lux, gfp or lacZ, to a responsive promoter. There have been many reports of the applications of biosensors, particularly their use in assaying pollutant toxicity and bioavailability. This paper reviews the basic concepts behind the construction of whole-cell microbial biosensors for pollutant monitoring, and describes the applications of two such biosensors for detecting the bioavailability and biodegradation of Polychlorinated Biphenyls (PCBs)

    Are luminescent bacteria suitable for online detection and monitoring of toxic compounds in drinking water and its sources?

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    Biosensors based on luminescent bacteria may be valuable tools to monitor the chemical quality and safety of surface and drinking water. In this review, an overview is presented of the recombinant strains available that harbour the bacterial luciferase genes luxCDABE, and which may be used in an online biosensor for water quality monitoring. Many bacterial strains have been described for the detection of a broad range of toxicity parameters, including DNA damage, protein damage, membrane damage, oxidative stress, organic pollutants, and heavy metals. Most lux strains have sensitivities with detection limits ranging from milligrams per litre to micrograms per litre, usually with higher sensitivities in compound-specific strains. Although the sensitivity of lux strains can be enhanced by various molecular manipulations, most reported detection thresholds are still too high to detect levels of individual contaminants as they occur nowadays in European drinking waters. However, lux strains sensing specific toxic effects have the advantage of being able to respond to mixtures of contaminants inducing the same effect, and thus could be used as a sensor for the sum effect, including the effect of compounds that are as yet not identified by chemical analysis. An evaluation of the suitability of lux strains for monitoring surface and drinking water is therefore provided

    Photometry of CH Cygni During 1991-1994

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    Development of a novel assay for proprotein converting enzyme activity on a multiplex bead-based array system

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    We describe the development of a novel, robust assay system for determining the changes in activity of proprotein converting enzymes. An assay for prolyl oligopeptidase (POP) activity was constructed using a peptide-streptavidin substrate coupled to magnetic microspheres and cleavage was detected by loss of streptavidin on the MAGPIX reader. Test analysis of postmortem pituitary extracts from schizophrenia patients showed an increase in POP activity compared to controls. The results were validated using both fluorometric and Western blot analyses for POP activity and immunoreactivity, respectively. The assays can be multiplexed for measuring the activity of multiple proprotein cleaving enzymes simultaneously in laboratory and clinical settings and should add valuable new information for conditions such as neuropsychiatric diseases, diabetes, endocrine dysfunction, and cancer, where effects on proteolysis of biologically active peptides play a key role
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