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Two small heat shock proteins (sHsps), Hsp17.8 and Hsp17.1, were identified in the cyanobacterium Anabaena sp. PCC 7120. Recombinant Hsp17.8 and Hsp17.1 were overexpressed in Escherichia coli and characterized here. Hsp17.8 was purified by sequential chromatography on DEAE-Sepharose and Superose 6 10/300 column, and Hsp17.1 was purified by Superose 6 10/300 column in 4M urea. Size exclusion chromatography demonstrated that both purified proteins form large oligomers approximately 420kDa and 410kDa, respectively. Both Hsp17.8 and Hsp17.1 showed chaperone-like activity to protect citrate synthase (CS) from thermal aggregation at 43 degrees C. Furthermore, both proteins were found to form complexes with denatured CS at 45 degrees C. Our study also demonstrated that despite a high degree of sequence homology and similar subunit size, Hsp17.1 showed higher hydrophobicity indicated by 8-anilino-1-naphthalene sulfonate fluorescence and thus greater chaperone-like activity. This is the first report of characterization and comparison of an sHsp system containing two chaperones in cyanobacteria.
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PMID:Purification and characterization of two small heat shock proteins from Anabaena sp. PCC 7120. 1601 54

Calcium functions as a versatile messenger in a wide variety of eukaryotic and prokaryotic cells. Cyanobacteria are photoautotrophs which have a great ecological impact as primary producers. Our research group has presented solid evidence of a role of calcium in the perception of environmental changes by cyanobacteria and their acclimation to these changes. We constructed a recombinant strain of the freshwater cyanobacterium Anabaena sp. PCC 7120 that constitutively expresses the calcium-binding photoprotein apoaequorin, enabling in-vivo monitoring of any fluctuation in the intracellular free calcium concentration of the cyanobacterium in response to any environmental stimulus. The "Ca(2+) signature" is the combination of changes in all Ca(2+) signal properties (magnitude, duration, frequency, source of the signal) produced by a specific stimulus. We recorded and analyzed the Ca(2+) signatures generated by exposure of the cyanobacterium to different groups of environmental pollutants, for example cations, anions, organic solvents, naphthalene, and pharmaceuticals. We found that, in general, each group of tested chemicals triggered a specific calcium signature in a reproducible and dose-dependent manner. We hypothesize that these Ca(2+) signals may be related to the cellular mechanisms of pollutant perception and ultimately to their toxic mode of action. We recorded Ca(2+) signals triggered by binary mixtures of pollutants and a signal induced by a real wastewater sample which could be mimicked by mixing its main constituents. Because Ca(2+) signatures were induced before toxicity was evident, we propose that intracellular free Ca(2+) may serve as an early biomarker of exposure to environmental pollution.
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PMID:Free Ca2+ as an early intracellular biomarker of exposure of cyanobacteria to environmental pollution. 2088 7

Synergistical bacterial species can perform more varied and complex transformations of chemical substances than either species alone, but this is rarely used commercially because of technical difficulties in maintaining mixed cultures. Typical problems with mixed cultures on scale are unrestrained growth of one bacterium, which leads to suboptimal population ratios, and lack of control over bacterial spatial distribution, which leads to inefficient substrate transport. To address these issues, we designed and produced a synthetic ecosystem by co-encapsulation in a silica gel matrix, which enabled precise control of the microbial populations and their microenvironment. As a case study, two greatly different microorganisms: Pseudomonas sp. NCIB 9816 and Synechococcus elongatus PCC 7942 were encapsulated. NCIB 9816 can aerobically biotransform over 100 aromatic hydrocarbons, a feat useful for synthesis of higher value commodity chemicals or environmental remediation. In our system, NCIB 9816 was used for biotransformation of naphthalene (a model substrate) into CO2 and the cyanobacterium PCC 7942 was used to provide the necessary oxygen for the biotransformation reactions via photosynthesis. A mathematical model was constructed to determine the critical cell density parameter to maximize oxygen production, and was then used to maximize the biotransformation rate of the system.
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PMID:Silica ecosystem for synergistic biotransformation. 2726 16