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4. Distribution, persistence and change in the macrobenthos of the lagoon of Lesina (Apulia, southern Adriatic Sea)

Author

Nonnis Marzano, C, Scalera Liaci, L, Fianchini, A, Gravina, F, Mercurio, M, Corriero, G, Nonnis Marzano, C, Scalera Liaci, L, Fianchini, A, Gravina, F, Mercurio, M, and Corriero, G

Abstract

The benthic community of the lagoon of Lesina was studied from July 2000 to June 2001. The distribution of the main macrophytobenthic species was recorded by visual census at 24 stations in July 2000. The macrofauna, from both hard and soft substrates, was analyzed at five stations with seasonal frequency; in addition, the main hydrologic parameters were recorded monthly. The lagoon was mainly characterized by brackish water, with salinity values decreasing from west to east (annual mean: 23.3 psu). It showed mild water temperatures throughout the year (annual mean: 19.8 degreesC) and moderately high values of dissolved oxygen (annual mean: 9.9 ppm). No dystrophic crises were observed during the period of study. In the eastern basin, Zostera noltii Hornemann, Lissara and Ruppia cirrhosa (Patagna) Grande were the most abundant species of macrophytobenthos. Their distributional pattern was coherent with literature data. Soft bottoms of the western basin were largely occupied by the benthopleustophytic alga Valonia aegagropila C. Agardh, which during the last decade had almost completely replaced Cladophora prolifera (Roth) Kutzing and Gracilaria confervoides Greville, the latter of which was previously very abundant in the lagoon. Macrozoobenthos consisted of 53 species (1 sponge, 2 cnidarians, 11 molluscs, 14 annelids, 21 crustaceans, 1 insect, 1 bryozoan, 1 echinoderm, 1 tunicate), most of which are typical of brackish water. Highest abundances were found in the eastern area of the basin. Some marine species were recorded in the western area. In contrast with the dramatic changes observed in the floral assemblage, a large amount of species had already been recorded in the lagoon during the last 10 years, pointing out the persistence of the macrozoobenthic community. Nevertheless, the distribution of benthic macrofauna seemed to be greatly influenced by the presence of Valonia aegagropila, as shown in an ordination model, where station-points were segregated by the p, La communauté benthique de la lagune de Lesina a été suivie de juillet 2000 à juin 2001. La distribution des principales espèces macrobenthiques a été étudiée par recensement visuel à 24 stations en juillet 2000. La macrofaune des fonds durs et celle des fonds meubles a été analysée à cinq stations à fréquence saisonnière. De plus, les principaux facteurs hydrologiques ont été suivis chaque mois. La lagune est caractérisée par la présence d'eau saumâtre avec une salinité décroissant de l'ouest à l'est (moyenne annuelle = 23,3), une température moyenne de 19,8 °C et des teneurs en oxygène dissous modérées (moyenne annuelle = 9,9 ppm). Aucune crise dystrophique ne s'est produite durant la période d'étude. Dans le bassin est, Zostera noltii Hornemann, Lissara et Ruppia cirrhosa (Patagna) Grande sont les principales espèces du macrophytobenthos. Leur distribution est cohérente avec les données de la littérature. Les fonds meubles du bassin ouest constituent le domaine de l'algue benthique Valonia aegagropila C. Agardh, qui, durant la dernière décennie, a remplacé Cladophora prolifera (Roth) Kützing et Gracilaria confervoides Greville, cette dernière auparavant très abondante. Le macrozoobenthos comporte 53 espèces (1 éponge, 2 cnidaires, 11 mollusques, 14 annélides, 21 crustacés, 1 insecte, 1 bryozoaire, 1 échinoderme et 1 tunicier), la plupart d'entre eux typiques des eaux saumâtres. Les concentrations maximales se rencontrent dans la partie est du bassin. Certaines espèces marines sont trouvées dans la partie ouest. À l'opposé du changement drastique de la flore, beaucoup d'espèces animales ont déjà été rencontrées dans la lagune durant la dernière décennie. Cependant, la distribution de la macrofaune benthique est fortement influencée par la présence de Valonia aegagropila ; un modèle montre que les stations sont sélectionnées par la présence de l'algue plutôt que par des facteurs hydrologiques. L'impact sur la communauté des facteurs biotiques, comme l'invasion par

Published
2003
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5. Role of mitochondria in contraction and pacemaking in the mouse uterus.

Author

Gravina, FS, Parkington, HC, Kerr, KP, De Oliveira, RB, Jobling, P, Coleman, HA, Sandow, SL, Davies, MM, Imtiaz, MS, Van Helden, DF, Gravina, F S, Parkington, H C, Kerr, K P, de Oliveira, R B, Coleman, H A, Sandow, S L, Davies, M M, Imtiaz, M S, and van Helden, D F

Subjects
UTERINE contraction, MITOCHONDRIA, CALCIUM channels, ENDOPLASMIC reticulum, CARDIAC pacemakers, SMOOTH muscle, LABORATORY mice, MITOCHONDRIAL physiology, RESEARCH, RESEARCH methodology, ANIMAL experimentation, BIOLOGICAL rhythms, ORGANIC compounds, ISOFLAVONES, TISSUE culture, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, CALCIUM, MICE
Abstract

Background and Purpose: Uterine spontaneous contraction and pacemaking are poorly understood. This study investigates the role of the mitochondrial Ca(2+) store in uterine activity.Experimental Approach: We investigated the effects of mitochondrial and sarco-endoplasmic reticulum (SER) inhibitors on contraction, membrane potential (Vm) and cytosolic Ca(2+) concentration ([Ca(2+) ](c) ) in longitudinal smooth muscle of the mouse uterus.Key Results: The mitochondrial agents rotenone, carbonylcyanide-3-chlorophenylhydrazone (CCCP), 7-chloro-5-(2-chlorophenyl)-1,5-dihydro-4,1-benzothiazepin-2(3H)-one (CGP37157) and kaempferol decreased the force of contractions. The ATP synthase inhibitor oligomycin had no significant effect. The effects of these agents were compared with those of SER inhibitors cyclopiazonic acid (CPA), 2-amino ethoxyphenylborate (2-APB) and caffeine. All agents, except CPA and oligomycin, decreased contractile force. CPA and CCCP transiently increased contraction frequency, which returned to control levels, whereas rotenone, CGP37157, kaempferol and 2-APB decreased frequency and caffeine had no significant effect. Application of the mitochondrial agents when CPA functionally inhibited stores did not change contraction frequency but, with the exception of kaempferol, decreased force. CCCP caused depolarization and maintained increase in [Ca(2+) ](c) or depolarization/transient hyperpolarization and transient increase in [Ca(2+) ](c) for oestrus and di-oestrus tissues respectively. Rotenone caused hyperpolarization and maintained increase in [Ca(2+) ](c) . CGP37157 and kaempferol caused hyperpolarization but no measurable change in [Ca(2+) ](c) . Application of a range of K(+) channel blockers indicated a role of Ca(2+) -activated K(+) (K(Ca) ) channels in the CCCP- and CGP37157-induced actions.Conclusions and Implications: Mitochondria have a modulatory role on uterine contractions, with mitochondrial inhibition reducing contraction amplitude and pacemaker frequency by changes in Vm, [Ca(2+) ](c) and/or Ca(2+) influx. [ABSTRACT FROM AUTHOR]

Published
2010
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9. The protein-protein interaction network of the Escherichia coli EIIA Ntr regulatory protein reveals a role in cell motility and metabolic control.

Author

Gravina F, Degaut FL, Gerhardt ECM, Pedrosa FO, Souza EM, Antônio de Souza G, and Huergo LF

Subjects
Chemotaxis, Escherichia coli growth & development, Escherichia coli metabolism, Ligands, Movement, Phosphorylation, Protein Binding, Escherichia coli physiology, Escherichia coli Proteins metabolism, Metabolome, Phosphoenolpyruvate Sugar Phosphotransferase System metabolism, Protein Interaction Maps
Abstract

The nitrogen-related PTS Ntr system, present in many Proteobacteria including Escherichia coli, acts as a phosphorelay cascade composed of the EI Ntr , NPr and EIIA Ntr proteins. Phosphotransfer initiates with phosphoenolpyruvate-dependent EI Ntr autophosphorylation, the phosphoryl group is then transferred to NPr and finally to a conserved histidine residue on EIIA Ntr . The reporter metabolites l-glutamine and 2-oxoglutarate reciprocally regulate EI Ntr autophosphorylation (Lee et al., 2013) and consequently the phosphorylation status of the PTS Ntr components is controlled by the availability of nitrogen and carbon. The final phosphate acceptor, EIIA Ntr , regulates a range of cellular process by acting as the central hub of a complex protein-protein interaction network. Contact between EIIA Ntr and its target proteins is usually regulated by the EIIA Ntr phosphorylation status. In this study we performed ligand fishing assays coupled to label-free quantitative proteomics to examine the protein-protein interaction network of E. coli EIIA Ntr and a phosphomimic variant of the protein. The ligand fishing data, along with phenotypic analysis, indicated that EIIA Ntr interacts with proteins related to chemotaxis and thereby regulates cell motility. Important metabolic enzymes were also identified as potential EIIA Ntr binding partners., Competing Interests: Declaration of competing interest Authors have no conflict of interest to declare., (Copyright © 2021 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published
2021
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10. The Protein-Protein Interaction Network Reveals a Novel Role of the Signal Transduction Protein PII in the Control of c-di-GMP Homeostasis in Azospirillum brasilense.

Author

Gerhardt ECM, Parize E, Gravina F, Pontes FLD, Santos ARS, Araújo GAT, Goedert AC, Urbanski AH, Steffens MBR, Chubatsu LS, Pedrosa FO, Souza EM, Forchhammer K, Ganusova E, Alexandre G, de Souza GA, and Huergo LF

Abstract

The PII family comprises a group of widely distributed signal transduction proteins ubiquitous in prokaryotes and in the chloroplasts of plants. PII proteins sense the levels of key metabolites ATP, ADP, and 2-oxoglutarate, which affect the PII protein structure and thereby the ability of PII to interact with a range of target proteins. Here, we performed multiple ligand fishing assays with the PII protein orthologue GlnZ from the plant growth-promoting nitrogen-fixing bacterium Azospirillum brasilense to identify 37 proteins that are likely to be part of the PII protein-protein interaction network. Among the PII targets identified were enzymes related to nitrogen and fatty acid metabolism, signaling, coenzyme synthesis, RNA catabolism, and transcription. Direct binary PII-target complex was confirmed for 15 protein complexes using pulldown assays with recombinant proteins. Untargeted metabolome analysis showed that PII is required for proper homeostasis of important metabolites. Two enzymes involved in c-di-GMP metabolism were among the identified PII targets. A PII-deficient strain showed reduced c-di-GMP levels and altered aerotaxis and flocculation behavior. These data support that PII acts as a major metabolic hub controlling important enzymes and the homeostasis of key metabolites such as c-di-GMP in response to the prevailing nutritional status. IMPORTANCE The PII proteins sense and integrate important metabolic signals which reflect the cellular nutrition and energy status. Such extraordinary ability was capitalized by nature in such a way that the various PII proteins regulate different facets of metabolism by controlling the activity of a range of target proteins by protein-protein interactions. Here, we determined the PII protein interaction network in the plant growth-promoting nitrogen-fixing bacterium Azospirillum brasilense The interactome data along with metabolome analysis suggest that PII functions as a master metabolic regulator hub. We provide evidence that PII proteins act to regulate c-di-GMP levels in vivo and cell motility and adherence behaviors., (Copyright © 2020 Gerhardt et al.)

Published
2020
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11. Bacillus megaterium strains derived from water and soil exhibit differential responses to the herbicide mesotrione.

Author

Dobrzanski T, Gravina F, Steckling B, Olchanheski LR, Sprenger RF, Espírito Santo BC, Galvão CW, Reche PM, Prestes RA, Pileggi SAV, Campos FR, Azevedo RA, Sadowsky MJ, Beltrame FL, and Pileggi M

Subjects
Adaptation, Physiological, Bacillus megaterium classification, Bacillus megaterium drug effects, Bacillus megaterium genetics, Biodegradation, Environmental, Ecosystem, Lipid Peroxidation drug effects, Microbial Viability drug effects, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacillus megaterium growth & development, Cyclohexanones pharmacology, Herbicides pharmacology, Soil Microbiology, Water Microbiology
Abstract

The intense use of herbicides for weed control in agriculture causes selection pressure on soil microbiota and water ecosystems, possibly resulting in changes to microbial processes, such as biogeochemical cycles. These xenobiotics may increase the production of reactive oxygen species and consequently affect the survival of microorganisms, which need to develop strategies to adapt to these conditions and maintain their ecological functionality. This study analyzed the adaptive responses of bacterial isolates belonging to the same species, originating from two different environments (water and soil), and subjected to selection pressure by herbicides. The effects of herbicide Callisto and its active ingredient, mesotrione, induced different adaptation strategies on the cellular, enzymatic, and structural systems of two Bacillus megaterium isolates obtained from these environments. The lipid saturation patterns observed may have affected membrane permeability in response to this herbicide. Moreover, this may have led to different levels of responses involving superoxide dismutase and catalase activities, and enzyme polymorphisms. Due to these response systems, the strain isolated from water exhibited higher growth rates than did the soil strain, in evaluations made in oligotrophic culture media, which would be more like that found in semi-pristine aquatic environments. The influence of the intracellular oxidizing environments, which changed the mode of degradation of mesotrione in our experimental model and produced different metabolites, can also be observed in soil and water at sites related to agriculture. Since the different metabolites may present different levels of toxicity, we suggest that this fact should be considered in studies on the fate of agrochemicals in different environments.

Published
2018
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12. Metabolic Interference of sod gene mutations on catalase activity in Escherichia coli exposed to Gramoxone® (paraquat) herbicide.

Author

Gravina F, Dobrzanski T, Olchanheski LR, Galvão CW, Reche PM, Pileggi SA, Azevedo RA, Sadowsky MJ, and Pileggi M

Subjects
Antioxidants metabolism, Escherichia coli genetics, Escherichia coli K12 drug effects, Escherichia coli K12 enzymology, Hydrogen Peroxide metabolism, Malondialdehyde metabolism, Mutation drug effects, Oxidation-Reduction, Oxidative Stress drug effects, Reactive Oxygen Species metabolism, Superoxide Dismutase metabolism, Catalase metabolism, Escherichia coli K12 genetics, Herbicides toxicity, Paraquat toxicity, Superoxide Dismutase genetics
Abstract

Herbicides are continuously used to minimize the loss of crop productivity in agricultural environments. They can, however, cause damage by inhibiting the growth of microbiota via oxidative stress, due to the increased production of reactive oxygen species (ROS). Cellular responses to ROS involve the action of enzymes, including superoxide dismutase (SOD) and catalase (CAT). The objective of this study was to evaluate adaptive responses in Escherichia coli K-12 to paraquat, the active ingredient in the herbicide Gramoxone®. Mutant bacterial strains carrying deletions in genes encoding Mn-SOD (sodA) and Fe-SOD (sodB) were used and resulted in distinct levels of hydrogen peroxide production, interference in malondialdehyde, and viability. Mutations also resulted in different levels of interference with the activity of CAT isoenzymes and in the inactivation of Cu/Zn-SOD activity. These mutations may be responsible for metabolic differences among the evaluated strains, resulting in different patterns of antioxidative responses, depending on mutation background. While damage to the ΔsodB strain was minor at late log phase, the reverse was true at mid log phase for the ΔsodA strain. These results demonstrate the important role of these genes in defense against oxidative stress in different periods of growth. Furthermore, the lack of Cu/Zn-SOD activity in both mutant strains indicated that common metal cofactors likely interfere in SOD activity regulation. These results also indicate that E. coli K-12, a classical non-environmental strain, constitutes a model of phenotypic plasticity for adaptation to a redox-cycling herbicide through redundancy of different isoforms of SOD and CAT enzymes., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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