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11.
Ochoa O Chrysopoulo M Nastala C Ledoux P Pisano S 《Plastic and reconstructive surgery》2012,130(1):21e-33e
12.
Ioannis S. Minas Georgia Tanou Afroditi Krokida Evangelos Karagiannis Maya Belghazi Miltiadis Vasilakakis Kalliope K. Papadopoulou Athanassios Molassiotis 《BMC plant biology》2018,18(1):358
Background
Understanding the mechanisms involved in climacteric fruit ripening is key to improve fruit harvest quality and postharvest performance. Kiwifruit (Actinidia deliciosa cv. ‘Hayward’) ripening involves a series of metabolic changes regulated by ethylene. Although 1-methylcyclopropene (1-MCP, inhibitor of ethylene action) or ozone (O3) exposure suppresses ethylene-related kiwifruit ripening, how these molecules interact during ripening is unknown.Results
Harvested ‘Hayward’ kiwifruits were treated with 1-MCP and exposed to ethylene-free cold storage (0?°C, RH 95%) with ambient atmosphere (control) or atmosphere enriched with O3 (0.3?μL?L??1) for up to 6?months. Their subsequent ripening performance at 20?°C (90% RH) was characterized. Treatment with either 1-MCP or O3 inhibited endogenous ethylene biosynthesis and delayed fruit ripening at 20?°C. 1-MCP and O3 in combination severely inhibited kiwifruit ripening, significantly extending fruit storage potential. To characterize ethylene sensitivity of kiwifruit following 1-MCP and O3 treatments, fruit were exposed to exogenous ethylene (100?μL?L??1, 24?h) upon transfer to 20?°C following 4 and 6?months of cold storage. Exogenous ethylene treatment restored ethylene biosynthesis in fruit previously exposed in an O3-enriched atmosphere. Comparative proteomics analysis showed separate kiwifruit ripening responses, unraveled common 1-MCP- and O3-dependent metabolic pathways and identified specific proteins associated with these different ripening behaviors. Protein components that were differentially expressed following exogenous ethylene exposure after 1-MCP or O3 treatment were identified and their protein-protein interaction networks were determined. The expression of several kiwifruit ripening related genes, such as 1-aminocyclopropane-1-carboxylic acid oxidase (ACO1), ethylene receptor (ETR1), lipoxygenase (LOX1), geranylgeranyl diphosphate synthase (GGP1), and expansin (EXP2), was strongly affected by O3, 1-MCP, their combination, and exogenously applied ethylene.Conclusions
Our findings suggest that the combination of 1-MCP and O3 functions as a robust repressive modulator of kiwifruit ripening and provide new insight into the metabolic events underlying ethylene-induced and ethylene-independent ripening outcomes.13.
Jaime M. Amezaga Anna Amtmann Catherine A. Biggs Tom Bond Catherine J. Gandy Annegret Honsbein Esther Karunakaran Linda Lawton Mary Ann Madsen Konstantinos Minas Michael R. Templeton 《Plant physiology》2014,164(4):1661-1676
Shortage of freshwater is a serious problem in many regions worldwide, and is expected to become even more urgent over the next decades as a result of increased demand for food production and adverse effects of climate change. Vast water resources in the oceans can only be tapped into if sustainable, energy-efficient technologies for desalination are developed. Energization of desalination by sunlight through photosynthetic organisms offers a potential opportunity to exploit biological processes for this purpose. Cyanobacterial cultures in particular can generate a large biomass in brackish and seawater, thereby forming a low-salt reservoir within the saline water. The latter could be used as an ion exchanger through manipulation of transport proteins in the cell membrane. In this article, we use the example of biodesalination as a vehicle to review the availability of tools and methods for the exploitation of cyanobacteria in water biotechnology. Issues discussed relate to strain selection, environmental factors, genetic manipulation, ion transport, cell-water separation, process design, safety, and public acceptance.Bacteria are commonly employed for the purification of municipal and industrial wastewater but until now, established water treatment technologies have not taken advantage of photosynthetic bacteria (i.e. cyanobacteria). The ability of cyanobacterial cultures to grow at high cell densities with minimal nutritional requirements (e.g. sunlight, carbon dioxide, and minerals) opens up many future avenues for sustainable water treatment applications.Water security is an urgent global issue, especially because many regions of the world are experiencing, or are predicted to experience, water shortage conditions: More than one in six people globally are water stressed, in that they do not have access to safe drinking water (United Nations, 2006). Ninety-seven percent of the Earth’s water is in the oceans; consequently, there are many efforts to develop efficient methods for converting saltwater into freshwater. Various processes using synthetic membranes, such as reverse osmosis, are successfully used for large-scale desalination. However, the high energy consumption of these technologies has limited their application predominantly to countries with both relatively limited freshwater resources and high availability of energy, for example, in the form of oil reserves.The development of an innovative, low-energy biological desalination process, using biological membranes of cyanobacteria, would thus be both attractive and pertinent. The core of the proposed biodesalination process (Fig. 1) is a low-salt biological reservoir within seawater that can serve as an ion exchanger. Its development can be separated into several complementary steps. The first step comprises the selection of a cyanobacterial strain that can be grown to high cell densities in seawater with minimal requirement for energy sources other than those that are naturally available. The environmental conditions during growth can be manipulated to enhance natural extrusion of sodium (Na+) by cyanobacteria. In the second step, cyanobacterial ion transport mechanisms must be manipulated to generate cells in which sodium export is replaced with intracellular sodium accumulation. This will involve inhibition of endogenous Na+ export and expression of synthetic molecular units that facilitate light-driven sodium flux into the cells. A robust control system built from biological switches will be required to achieve precisely timed expression of the salt-accumulating molecular units. The third step consists of engineering efficient separation of the cyanobacterial cells from the desalinated water, using knowledge of physicochemical properties of the cell surface and their natural ability to produce extracellular polymeric substances (EPSs), which aid cell separation while preserving cell integrity. The fourth step integrates the first three steps into a manageable and scalable engineering process. The fifth and final step assesses potential risks and public acceptance issues linked to the new technology.Open in a separate windowFigure 1.Proposed usage of cyanobacterial cultures for water treatment. A, Hypothetical water treatment station. Situated in basins next to the water source, sun-powered cell cultures remove unwanted elements from the water. The clean water is separated from the cells for human uses. The produced biomass is available for other industries. The proposed biodesalination process is based on the following steps. B, Photoautotrophic cells divide to generate high-density cultures. C, The combined cell volume is low in salt as a result of transport proteins in the cell membrane that export sodium using photosynthetically generated energy. D, Through environmental and genetic manipulation, salt export is inhibited and replaced with transport modules that accumulate salt inside the cells. This process is again fueled by light energy. E, Manipulation of cell surface properties separates the salt-enriched cells from the desalinated water.In this review, we outline the state of knowledge and available technology for each of the steps, as well as summarize the current knowledge gaps and technical limitations in employing a large-scale water treatment process using cyanobacteria. Before discussing these issues, we provide some background information on the usage of cyanobacteria in biotechnology and the impact of sodium on cellular functions of cyanobacteria. The example of biodesalination provides a good vehicle to discuss the suitability of photosynthetic bacteria for water treatment more generally. The issues addressed in this review are relevant for a wide range of biotechnological applications of cyanobacteria, including bioremediation and biodegradation as well as the generation of biofuels, natural medicines, or cosmetics. 相似文献
14.
Monique Minas 《International Review of Hydrobiology》1974,59(4):509-542
Distribution, Circulation and Evolution of Nutrients, Inorganic Phosphorus Particularly, in Lake Etang de Berre. Influence of River Durance Waters Nutrients, phosphorus in particular, were studied at five locations in the brackish lake Etang de Berre's waters in order to examine vertical and horizontal distributions, seasonal and annual evolutions, and circulation. The phosphorus cycle was surveyed taking into account the extensive freshwater input from the river Durance which was recently deviated into the Etang de Berre. Of primary importance is the phenomenon of trapped nutrients in the deepest layer of the lake, corresponding to the occurrence of a pycnocline (halocline). This layer is in a steady state characterized by anoxic conditions and shows denitrification processes. 相似文献
15.
The distributions of PHI and VIP in porcine gut and their co-localisation to a proportion of intrinsic ganglion cells 总被引:2,自引:0,他引:2
VIP and PHI share sequence homology and certain biological actions. Immunocytochemistry and radioimmunoassay were used to see if the two peptides also have similar distributions in the gut of the pig. PHI-immunoreactive fibres were found, like those containing VIP, in all layers of the bowel wall but in lesser numbers. Unlike VIP-immunoreactive nerves, however, which are ubiquitous in the gastrointestinal tract, PHI-containing neurons were numerous in all areas except the fundus, where only few fibres and no ganglion cells were found to be reactive to PHI antibodies. PHI and VIP immunoreactive materials were also quantified by specific radioimmunoassay of tissue extracts. The concentrations of PHI and VIP were similar in all regions of the gut, except in the fundus where the quantities of VIP-immunoreactivity far exceeded those of PHI. The presence of both VIP- and PHI-immunoreactivities in ganglion cells of the sub-mucous plexus allowed investigation of the co-localisation of the peptides. Serial sections through ganglion cells revealed that a major proportion contain both PHI- and VIP-immunoreactivity. Some cells contained VIP alone, or VIP and weak, equivocal immunostaining of PHI, and a sub-population contained no peptide-immunoreactivity. The presence of both VIP- and PHI-immunoreactivities in the same ganglion cell supports the recent reports of the isolation and characterisation, using genetic technology, of their common precursor molecule. The finding of VIP and not PHI in the fundic region suggests the differential expression of the two peptides. 相似文献
16.
C. Kotzamanidis A. Zdragas A. Kourelis E. Moraitou A. Papa V. Yiantzi C. Pantelidou M. Yiangou 《Journal of applied microbiology》2009,107(3):997-1005
Aims: In this study we analysed urban, hospital wastewater and pig faeces samples to investigate the presence of vancomycin-resistant Enterococcus faecium strains (VREF) and to determine potential links among the strains originating from the above sources and VREF strains causing clinical infections.
Methods and Results: Urban, hospital wastewater and pig faeces exhibited high VREF prevalence of 52%, 87% and 85%, respectively. Pulsed field gel electrophoresis (PFGE) clustering of VREF genotypes as well as discriminant analysis of antibiotic resistance patterns of VREF strains revealed their source specificity while strains isolated from hospitalized humans were genetically distinct.
Conclusions: PFGE genotypes and antimicrobial resistance patterns in VREF isolates are distinguishable by each sample origin. The observed high genetic diversity of VREF suggests horizontal transfer of genetic elements among VREF. Phenotypic and genotypic data indicate that VREF isolates of hospital-treated wastewater might pass to the urban wastewater system.
Significance and Impact of the Study: This study provides information to understand the origin and the mechanism of circulation of vancomycin resistance in food animals and wastewater treatment plants for minimizing the risk of transmission of VRE in human population. 相似文献
Methods and Results: Urban, hospital wastewater and pig faeces exhibited high VREF prevalence of 52%, 87% and 85%, respectively. Pulsed field gel electrophoresis (PFGE) clustering of VREF genotypes as well as discriminant analysis of antibiotic resistance patterns of VREF strains revealed their source specificity while strains isolated from hospitalized humans were genetically distinct.
Conclusions: PFGE genotypes and antimicrobial resistance patterns in VREF isolates are distinguishable by each sample origin. The observed high genetic diversity of VREF suggests horizontal transfer of genetic elements among VREF. Phenotypic and genotypic data indicate that VREF isolates of hospital-treated wastewater might pass to the urban wastewater system.
Significance and Impact of the Study: This study provides information to understand the origin and the mechanism of circulation of vancomycin resistance in food animals and wastewater treatment plants for minimizing the risk of transmission of VRE in human population. 相似文献
17.
A. Kourelis C. Kotzamanidis E. Litopoulou‐Tzanetaki J. Papaconstantinou N. Tzanetakis M. Yiangou 《Journal of applied microbiology》2010,109(1):260-271
Aims: To determine the immunostimulatory activity of 15 presumptive probiotic yeast strains in the dorsal air pouch system in comparison with their activity in the gut mucosa. Methods and Results: Presumptive probiotic yeast strains previously isolated from human gastrointestinal tract and Feta cheese were further characterized genotypically and biochemically. The Saccharomyces cerevisiae 982, Saccharomyces boulardii KK1 and Kluyveromyces lactis 630 strains exhibited in the air pouch increased polymorphonuclear cell influx and phagocytic activity as well as cytokine production with similar potency as the probiotics Ultra levure S. boulardii and Lactobacillus acidophilus NCFB 1748. Oral administration of these strains in mice results in differential activation of small intestine immune responses concerning IgA and cytokine production as well as Toll‐like receptor expression. Conclusion: Besides the Saccharomyces strains 982 and KK1, the K. lactis 630 strain could also be considered as a candidate probiotic. Significance and Impact of the Study: The air pouch model may be used as an alternative and rapid method for the discrimination and selection of potential probiotic yeast strains. 相似文献
18.
Marina Sagnou Charalambos Triantis Aris Terzis Maria Pelecanou Minas Papadopoulos 《Inorganica chimica acta》2010,363(8):1649-6219
The synthesis and characterization of the neutral 2+1 mixed ligand complex fac-Re(CO)3(acac)(isc) (4) with acetylacetonate (acac) as the bidentate ligand and an isocyanide (the isocyanocyclohexane, isc) as the monodentate ligand is described. The synthesis of 4 proceeds through the intermediate formation of the fac-Re(acac)(H2O)(CO)3 precursor complex 2. Complex 4 was characterized by elemental analysis, spectroscopic methods, and X-ray crystallography showing a distorted octahedral arrangement of the ligands around Re. At technetium-99m level, the corresponding fac-99mTc(acac)(isc)(CO)3 complex 5 was obtained in high yield by reacting the fac-99mTc(acac)(H2O)(CO)3 precursor complex 3 with isocyanocyclohexane and its structure was established by chromatographic comparison with the prototypic rhenium complex using high performance liquid chromatography. 相似文献
19.
Background
Previous literature suggests that those with reading disability (RD) have more pronounced deficits during semantic processing in reading as compared to listening comprehension. This discrepancy has been supported by recent neuroimaging studies showing abnormal activity in RD during semantic processing in the visual but not in the auditory modality. Whether effective connectivity between brain regions in RD could also show this pattern of discrepancy has not been investigated.Methodology/Principal Findings
Children (8- to 14-year-olds) were given a semantic task in the visual and auditory modality that required an association judgment as to whether two sequentially presented words were associated. Effective connectivity was investigated using Dynamic Causal Modeling (DCM) on functional magnetic resonance imaging (fMRI) data. Bayesian Model Selection (BMS) was used separately for each modality to find a winning family of DCM models separately for typically developing (TD) and RD children. BMS yielded the same winning family with modulatory effects on bottom-up connections from the input regions to middle temporal gyrus (MTG) and inferior frontal gyrus(IFG) with inconclusive evidence regarding top-down modulations. Bayesian Model Averaging (BMA) was thus conducted across models in this winning family and compared across groups. The bottom-up effect from the fusiform gyrus (FG) to MTG rather than the top-down effect from IFG to MTG was stronger in TD compared to RD for the visual modality. The stronger bottom-up influence in TD was only evident for related word pairs but not for unrelated pairs. No group differences were noted in the auditory modality.Conclusions/Significance
This study revealed a modality-specific deficit for children with RD in bottom-up effective connectivity from orthographic to semantic processing regions. There were no group differences in connectivity from frontal regions, suggesting that the core deficit in RD is not in top-down modulation. 相似文献20.
Tsoukalas C Pirmettis I Patsis G Pelecanou M Bodo K Raptopoulou CP Terzis A Papadopoulos M Chiotellis E 《Journal of inorganic biochemistry》2003,93(3-4):213-220
The [NS][S](2) mixed-ligand system was applied to synthesize oxorhenium and oxotechnetium complexes of the general formula MO(o-CH(3)OC(6)H(4)N(CH(2)CH(2))(2)NCH(2)CH(2)S)(p-CH(3)C(6)H(4)S)(2) (M=Re in 1, M=(99)Tc in 2, and M=(99m)Tc in 3). The bidentate [NS] ligand includes the 1-(2-methoxyphenyl)piperazine moiety which is a fragment of the true 5-HT(1A) antagonist WAY 100635. The oxorhenium complex 1 was prepared by a ligand exchange reaction using ReOCl(3)(PPh(3))(2) as precursor while [Bu(4)N][(99)TcOCl(4)] and (99)Tc-gluconate were used as precursors in the synthesis of the oxotechnetium-99 complex 2. Both complexes were characterized by elemental analysis and spectroscopic methods. Crystallographic analysis of 1 showed that the rhenium coordination geometry is trigonal bipyramidal. The basal plane of the trigonal bipyramid is defined by the oxo group and two sulphur atoms, one belonging to the [NS] ligand and the other to an aromatic thiol, while the apical positions are occupied by the nitrogen of the [NS] ligand and the sulphur of the second aromatic thiol. The oxotechnetium-99 complex 2 has almost identical unit cell parameters to those of the oxorhenium complex 1 indicating, in combination with the other analytical data, that the complexes are isostructural. The binding affinity of the oxorhenium complex 1 for the 5-HT(1A) receptor subtype was determined in rat brain hippocampal preparations (IC(50)=106 nM). The oxotechnetium-99m complex 3 was prepared by a ligand exchange reaction using (99m)Tc-glucoheptonate as the precursor. Its structure was established by comparative HPLC studies using the oxotechnetium-99 complex 2 as a reference. Complex 3 was administered by intravenous injection in rats. At 2 min post injection, 0.153% of the injected dose per gram of tissue was measured in rat brain. 相似文献