164 research outputs found
Isolation and characterization of Alicycliphilus denitrificans strain BC, which grows on benzene with chlorate as the electron acceptor
A bacterium, strain BC, was isolated from a benzene-degrading chlorate-reducing enrichment culture. Strain BC degrades benzene in conjunction with chlorate reduction. Cells of strain BC are short rods that are 0.6 microm wide and 1 to 2 microm long, are motile, and stain gram negative. Strain BC grows on benzene and some other aromatic compounds with oxygen or in the absence of oxygen with chlorate as the electron acceptor. Strain BC is a denitrifying bacterium, but it is not able to grow on benzene with nitrate. The closest cultured relative is Alicycliphilus denitrificans type strain K601, a cyclohexanol-degrading nitrate-reducing betaproteobacterium. Chlorate reductase (0.4 U/mg protein) and chlorite dismutase (5.7 U/mg protein) activities in cell extracts of strain BC were determined. Gene sequences encoding a known chlorite dismutase (cld) were not detected in strain BC by using the PCR primers described in previous studies. As physiological and biochemical data indicated that there was oxygenation of benzene during growth with chlorate, a strategy was developed to detect genes encoding monooxygenase and dioxygenase enzymes potentially involved in benzene degradation in strain BC. Using primer sets designed to amplify members of distinct evolutionary branches in the catabolic families involved in benzene biodegradation, two oxygenase genes putatively encoding the enzymes performing the initial successive monooxygenations (BC-BMOa) and the cleavage of catechol (BC-C23O) were detected. Our findings suggest that oxygen formed by dismutation of chlorite can be used to attack organic molecules by means of oxygenases, as exemplified with benzene. Thus, aerobic pathways can be employed under conditions in which no external oxygen is supplie
Growth of Pseudomonas chloritidismutans AW-1T on n-alkanes with chlorate as electron acceptor
Microbial (per)chlorate reduction is a unique process in which molecular oxygen is formed during the dismutation of chlorite. The oxygen thus formed may be used to degrade hydrocarbons by means of oxygenases under seemingly anoxic conditions. Up to now, no bacterium has been described that grows on aliphatic hydrocarbons with chlorate. Here, we report that Pseudomonas chloritidismutans AW-1T grows on n-alkanes (ranging from C7 until C12) with chlorate as electron acceptor. Strain AW-1T also grows on the intermediates of the presumed n-alkane degradation pathway. The specific growth rates on n-decane and chlorate and n-decane and oxygen were 0.5 ± 0.1 and 0.4 ± 0.02 day−1, respectively. The key enzymes chlorate reductase and chlorite dismutase were assayed and found to be present. The oxygen-dependent alkane oxidation was demonstrated in whole-cell suspensions. The strain degrades n-alkanes with oxygen and chlorate but not with nitrate, thus suggesting that the strain employs oxygenase-dependent pathways for the breakdown of n-alkanes
Development of a genetic tool for functional screening of anti-malarial bioactive extracts in metagenomic libraries
BACKGROUND: The chemical treatment of Plasmodium falciparum for
human infections is losing efficacy each year due to the rise of
resistance. One possible strategy to find novel anti-malarial
drugs is to access the largest reservoir of genomic biodiversity
source on earth present in metagenomes of environmental
microbial communities. METHODS: A bioluminescent P. falciparum
parasite was used to quickly detect shifts in viability of
microcultures grown in 96-well plates. A synthetic gene encoding
the Dermaseptin 4 peptide was designed and cloned under tight
transcriptional control in a large metagenomic insert context
(30 kb) to serve as proof-of-principle for the screening
platform. RESULTS: Decrease in parasite viability consistently
correlated with bioluminescence emitted from parasite
microcultures, after their exposure to bacterial extracts
containing a plasmid or fosmid engineered to encode the
Dermaseptin 4 anti-malarial peptide. CONCLUSIONS: Here, a new
technical platform to access the anti-malarial potential in
microbial environmental metagenomes has been developed
Neutron imaging with a Micromegas detector
The micropattern gaseous detector Micromegas has been developed for several
years in Saclay and presents good performance for neutron detection. A
prototype for neutron imaging has been designed and new results obtained in
thermal neutron beams are presented. Based on previous results demonstrating a
good 1D spatial resolution, a tomographic image of a multiwire cable has been
performed using a 1D Micromegas prototype. The number of pillars supporting the
micromesh is too large and leads to local losses of efficiency that distort the
tomographic reconstruction. Nevertheless, this first tomographic image achieved
with this kind of detector is very encouraging. The next worthwhile development
for neutron imaging is to achieve a bi-dimensional detector, which is presented
in the second part of this study. The purpose of measurements was to
investigate various operational parameters to optimize the spatial resolution.
Through these measurements the optimum spatial resolution has been found to be
around 160 microns (standard deviation) using Micromegas operating in double
amplification mode. Several 2D imaging tests have been carried out. Some of
these results have revealed fabrication defects that occurred during the
manufacture of Micromegas and that are limiting the full potential of the
present neutron imaging system.Comment: 6 pages, 10 figures, presented at IEEE 2004 conference in Roma, Ital
Development of a genetic tool for functional screening of anti-malarial bioactive extracts in metagenomic libraries
Ajuts: Departamento Administrativo de Ciencias, Tecnología e Innovación (Colciencias), República de Colombia; Convocatoria 489 - 2009, Código 657048925406, Contrato de financiación RC. 427 - 2009 Colciencias - CorpoGen; Programa de Asistencias Graduadas de Universidad de los Andes, Bogotá, Colombia; i Programa Jóvenes Investigadores de ColcienciasBACKGROUND: The chemical treatment of Plasmodium falciparum for human infections is losing efficacy each year due to the rise of resistance. One possible strategy to find novel anti-malarial drugs is to access the largest reservoir of genomic biodiversity source on earth present in metagenomes of environmental microbial communities. METHODS: A bioluminescent P. falciparum parasite was used to quickly detect shifts in viability of microcultures grown in 96-well plates. A synthetic gene encoding the Dermaseptin 4 peptide was designed and cloned under tight transcriptional control in a large metagenomic insert context (30 kb) to serve as proof-of-principle for the screening platform. RESULTS: Decrease in parasite viability consistently correlated with bioluminescence emitted from parasite microcultures, after their exposure to bacterial extracts containing a plasmid or fosmid engineered to encode the Dermaseptin 4 anti-malarial peptide. Here, a new technical platform to access the anti-malarial potential in microbial environmental metagenomes has been develope
COVID-19 and the beef market in Latin America: An impact assessment by supply and demand
The impact of COVID-19 on agricultural markets, especially the beef market, represents one of the greatest food security challenges the world is facing in the post-pandemic era and, for this reason, has been widely documented. This study contributes to the literature through a comprehensive impact analysis of the effects of COVID-19 on both the demand and supply of beef in Latin America and thus provides valuable information for two of the most important links of the beef value chain. Robust econometric methods and a graphic analysis were used that give solidity to the investigation. The analysis used a data panel of supply and demand variables between 2018 and 2022 derived from the US Department of Agriculture. The results suggest that the beef market was strongly affected by the pandemic related health emergency, presenting decreases in both consumption and production. These effects are transitory, however, since the analysis of the post-pandemic data revealed that consumption and production return to normal and seem to grow until smoothing out over time
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