Your search keyword '"TREDICI, Salvatore Maurizio"' showing total 6 results

1. Exposure to static magnetic field stimulates quorum sensing circuit in luminescent Vibrio strains of the Harveyi clade.

Author

Talà A, Delle Side D, Buccolieri G, Tredici SM, Velardi L, Paladini F, De Stefano M, Nassisi V, and Alifano P

Subjects

Genes, Bacterial, Luminescent Measurements, Mutation, Vibrio genetics, Vibrio metabolism, Magnetic Fields, Quorum Sensing, Vibrio physiology

Abstract

In this study, the evidence of electron-dense magnetic inclusions with polyhedral shape in the cytoplasm of Harveyi clade Vibrio strain PS1, a bioluminescent bacterium living in symbiosis with marine organisms, led us to investigate the behavior of this bacterium under exposure to static magnetic fields ranging between 20 and 2000 Gauss. When compared to sham-exposed, the light emission of magnetic field-exposed bacteria growing on solid medium at 18°C ±0.1°C was increased up to two-fold as a function of dose and growth phase. Stimulation of bioluminescence by magnetic field was more pronounced during the post-exponential growth and stationary phase, and was lost when bacteria were grown in the presence of the iron chelator deferoxamine, which caused disassembly of the magnetic inclusions suggesting their involvement in magnetic response. As in luminescent Vibrio spp. bioluminescence is regulated by quorum sensing, possible effects of magnetic field exposure on quorum sensing were investigated. Measurement of mRNA levels by reverse transcriptase real time-PCR demonstrated that luxR regulatory gene and luxCDABE operon coding for luciferase and fatty acid reductase complex were significantly up-regulated in magnetic field-exposed bacteria. In contrast, genes coding for a type III secretion system, whose expression was negatively affected by LuxR, were down-regulated. Up-regulation of luxR paralleled with down-regulation of small RNAs that mediate destabilization of luxR mRNA in quorum sensing signaling pathways. The results of experiments with the well-studied Vibrio campbellii strain BB120 (originally classified as Vibrio harveyi) and derivative mutants unable to synthesize autoinducers suggest that the effects of magnetic fields on quorum sensing may be mediated by AI-2, the interspecies quorum sensing signal molecule.

Published

2014

2. Exposure to Static Magnetic Field Stimulates Quorum Sensing Circuit in Luminescent Vibrio Strains of the Harveyi Clade.

Author

Talà, Adelfia, Delle Side, Domenico, Buccolieri, Giovanni, Tredici, Salvatore Maurizio, Velardi, Luciano, Paladini, Fabio, De Stefano, Mario, Nassisi, Vincenzo, and Alifano, Pietro

Subjects

QUORUM sensing, MAGNETIC fields, EFFECT of radiation on bacteria, COMPARATIVE studies, LUMINESCENCE, ELECTRON density

Abstract

In this study, the evidence of electron-dense magnetic inclusions with polyhedral shape in the cytoplasm of Harveyi clade Vibrio strain PS1, a bioluminescent bacterium living in symbiosis with marine organisms, led us to investigate the behavior of this bacterium under exposure to static magnetic fields ranging between 20 and 2000 Gauss. When compared to sham-exposed, the light emission of magnetic field-exposed bacteria growing on solid medium at 18°C ±0.1°C was increased up to two-fold as a function of dose and growth phase. Stimulation of bioluminescence by magnetic field was more pronounced during the post-exponential growth and stationary phase, and was lost when bacteria were grown in the presence of the iron chelator deferoxamine, which caused disassembly of the magnetic inclusions suggesting their involvement in magnetic response. As in luminescent Vibrio spp. bioluminescence is regulated by quorum sensing, possible effects of magnetic field exposure on quorum sensing were investigated. Measurement of mRNA levels by reverse transcriptase real time-PCR demonstrated that luxR regulatory gene and luxCDABE operon coding for luciferase and fatty acid reductase complex were significantly up-regulated in magnetic field-exposed bacteria. In contrast, genes coding for a type III secretion system, whose expression was negatively affected by LuxR, were down-regulated. Up-regulation of luxR paralleled with down-regulation of small RNAs that mediate destabilization of luxR mRNA in quorum sensing signaling pathways. The results of experiments with the well-studied Vibrio campbellii strain BB120 (originally classified as Vibrio harveyi) and derivative mutants unable to synthesize autoinducers suggest that the effects of magnetic fields on quorum sensing may be mediated by AI-2, the interspecies quorum sensing signal molecule. [ABSTRACT FROM AUTHOR]

Published

2014

3. Bacterial Semiochemicals and Transkingdom Interactions with Insects and Plants.

Author

Calcagnile, Matteo, Tredici, Salvatore Maurizio, Talà, Adelfia, and Alifano, Pietro

Subjects

*INSECT-plant relationships, *TELECOMMUNICATION systems, *BACTERIAL metabolism, *QUORUM sensing, *SEMIOCHEMICALS, *HERBIVORES

Abstract

A peculiar feature of all living beings is their capability to communicate. With the discovery of the quorum sensing phenomenon in bioluminescent bacteria in the late 1960s, it became clear that intraspecies and interspecies communications and social behaviors also occur in simple microorganisms such as bacteria. However, at that time, it was difficult to imagine how such small organisms—invisible to the naked eye—could influence the behavior and wellbeing of the larger, more complex and visible organisms they colonize. Now that we know this information, the challenge is to identify the myriad of bacterial chemical signals and communication networks that regulate the life of what can be defined, in a whole, as a meta-organism. In this review, we described the transkingdom crosstalk between bacteria, insects, and plants from an ecological perspective, providing some paradigmatic examples. Second, we reviewed what is known about the genetic and biochemical bases of the bacterial chemical communication with other organisms and how explore the semiochemical potential of a bacterium can be explored. Finally, we illustrated how bacterial semiochemicals managing the transkingdom communication may be exploited from a biotechnological point of view. [ABSTRACT FROM AUTHOR]

Published

2019

4. Quorum Sensing: Complexity in the bacterial world

Author

Salvatore Maurizio Tredici, Adelfia Talà, D. Delle Side, E. Giuffreda, Pietro Alifano, Cecilia Pennetta, DELLE SIDE, Domenico, Giuffreda, Ernesto, Tredici, Salvatore Maurizio, Tala', Adelfia, Pennetta, Cecilia, and Alifano, Pietro

Subjects

Physics, Quorum sensing, Gumbel distribution, General Mathematics, Applied Mathematics, Cell density, General Physics and Astronomy, Bioluminescence, Statistical and Nonlinear Physics, bacterial quorum sensing, bioluminescence, complexity in biological systems, collective behaviors, Biological system, Extreme value theory

Abstract

We discuss the mechanisms of bacterial Quorum Sensing, the biophysical phenomenon pointing out a social behavior in bacteria, highlighting thus the very complex structure of these systems. Actually, bacterial bioluminescence is an example of a quorum sensing mediated property. We show that the distribution of the activation times of the bioluminescent emission follows the universal behavior described by the Gumbel distribution of extreme value statistics. We provide further evidence on the system size scaling of bioluminescence, showing that the relation between cell density and total number of photons radiated by bacteria is highly non-linear.

Published

2015

5. Bacterial bioluminescence and Gumbel statistics: From quorum sensing to correlation

Author

Pietro Alifano, D. Delle Side, Luciano Velardi, Vincenzo Nassisi, Adelfia Talà, Cecilia Pennetta, Maurizio Tredici, DELLE SIDE, Domenico, Velardi, Luciano, Nassisi, Vincenzo, Pennetta, Cecilia, Alifano, Pietro, Tala', Adelfia, and Tredici, Salvatore Maurizio

Subjects

Physics, Physics and Astronomy (miscellaneous), biology, Vibrio harveyi, quorum sensing, biology.organism_classification, Quorum sensing, Gumbel distribution, Probability theory, Time course, Bioluminescence, Probability distribution, Gumbel statistic, Statistical physics, Bacterial bioluminescence, Extreme value theory

Abstract

We show that, in particular experimental conditions, the time course of the radiant fluxes, measured from a bioluminescent emission of a Vibrio harveyi related strain, collapse after suitable rescaling onto the Gumbel distribution of extreme value theory. We argue that the activation times of the strain luminous emission follow the universal behavior described by this statistical law, in spite of the fact that no extremal process is known to occur.

Published

2013

6. Exposure to Static Magnetic Field Stimulates Quorum Sensing Circuit in Luminescent Vibrio Strains of the Harveyi Clade

Author

Giovanni Buccolieri, F. Paladini, Salvatore Maurizio Tredici, Adelfia Talà, Pietro Alifano, Luciano Velardi, D. Delle Side, Mario De Stefano, Vincenzo Nassisi, Talà, A., Delle Side, D., Buccolieri, G., Tredici, S. M., Velardi, L., Paladini, F., DE STEFANO, Mario, Nassisi, V, Alifano, P., Tala', Adelfia, DELLE SIDE, Domenico, Buccolieri, Giovanni, Tredici, Salvatore Maurizio, Velardi, Luciano, Paladini, Fabio, De Stefano, Mario, Nassisi, Vincenzo, and Alifano, Pietro

Subjects

lcsh:Medicine, Microbiology, Microbial Ecology, Bioluminescence, Vibrio campbellii, Vibrio harveyi, biolumunescence, quorum sensing, magnetic field, lcsh:Science, Vibrio, Multidisciplinary, Ecology, biology, Vibrio harveyi, lcsh:R, Microbial Growth and Development, Quorum Sensing, Biology and Life Sciences, equipment and supplies, Interspecies quorum sensing, biology.organism_classification, Cell biology, Quorum sensing, Magnetic Fields, Genes, Bacterial, Luminescent Measurements, Mutation, bacteria, lcsh:Q, Light emission, Autoinducer, human activities, Research Article, Developmental Biology

Abstract

In this study, the evidence of electron-dense magnetic inclusions with polyhedral shape in the cytoplasm of Harveyi clade Vibrio strain PS1, a bioluminescent bacterium living in symbiosis with marine organisms, led us to investigate the behavior of this bacterium under exposure to static magnetic fields ranging between 20 and 2000 Gauss. When compared to shamexposed, the light emission of magnetic field-exposed bacteria growing on solid medium at 18°C ±0.1°C was increased up to two-fold as a function of dose and growth phase. Stimulation of bioluminescence by magnetic field was more pronounced during the post-exponential growth and stationary phase, and was lost when bacteria were grown in the presence of the iron chelator deferoxamine, which caused disassembly of the magnetic inclusions suggesting their involvement in magnetic response. As in luminescent Vibrio spp. bioluminescence is regulated by quorum sensing, possible effects of magnetic field exposure on quorum sensing were investigated. Measurement of mRNA levels by reverse transcriptase real time-PCR demonstrated that luxR regulatory gene and luxCDABE operon coding for luciferase and fatty acid reductase complex were significantly up-regulated in magnetic field-exposed bacteria. In contrast, genes coding for a type III secretion system, whose expression was negatively affected by LuxR, were down-regulated. Up-regulation of luxR paralleled with down-regulation of small RNAs that mediate destabilization of luxR mRNA in quorum sensing signaling pathways. The results of experiments with the well-studied Vibrio campbellii strain BB120 (originally classified as Vibrio harveyi) and derivative mutants unable to synthesize autoinducers suggest that the effects of magnetic fields on quorum sensing may be mediated by AI-2, the interspecies quorum sensing signal molecule. © 2014 Talà et al.

Published

2014