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Plasmid pGBG1 was constructed to isolate mobile genetic elements in a wide variety of gram-negative bacteria. The mutation target, carried on a broad-host-range vector, allows positive selection for tetracycline resistance. In tests using several gram-negative bacteria we could detect transposition events of either insertion sequences or transposons. A new insertion sequence (IS) element was identified in Ralstonia eutropha.  相似文献   
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Reduction in exercise increases the occurrence of lameness in meat-type chickens. Locomotor activity is dramatically reduced during the finishing period in chickens from fast-growing genetic types compared to slow-growing genetic types, but it is not known whether this difference is already present during the starting period and may be influenced by genetic factors. In order to define the effect of genetic origin on early locomotor behaviour, exercise was compared from 1 to 22 days of age in two meat-type chicken stocks differing in growth rate: male broilers (B) which grow fast and are often lame, and male "label rouge" chickens (L) which grow slowly and are rarely lame.Time budget (lying, standing, drinking, eating, walking) was measured by scanning in six repetitions of five birds (density=2.5 birds/m(2)) at 1, 8, 15 and 17 days of age. Standing bouts were analysed by focal sampling at 2-3, 6-7, 13-14 and 20-21 days of age.B chicks spent less time standing than L chicks at 15 days of age (B=13+/-2%, L=24+/-1%, P<0.01) and 17 days of age, and spent more time lying at 17 days of age (B=73+/-3%, L=60+/-4%, P<0.05).The major part (74%) of the total active time observed by focal sampling was linked to feeding activity. At 2 and 3 days, the activity of B chicks was half that of L chicks during standing bouts (duration of walking per bout: 19+/-4 s for B; 45+/-4 s for L, P<0.05). The activity observed by focal sampling during non-feeding bouts at 20-21 days was significantly correlated with the corresponding data recorded at 2-3 days in the same chicks in the B stock but not in the L stock.We concluded that (1) both B and L genetic stocks have the same overall activity during the first 3 days of age (scanning) but they exhibit different organisation and composition of standing bouts (focal sampling). (2) Genetic factors are probably involved in the expression of locomotor behaviour in very young chicks. (3) The correlations between the levels of activity at early and later ages suggest that selection of young mobile broiler chicks might increase activity at a later age and might therefore reduce the occurrence of leg abnormalities.  相似文献   
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Detection of pathogenic Naegleria fowleri in environmental water samples, which is necessary for the prevention of primary amoebic meningoencephalitis, generally requires concentrating the samples. Two concentration techniques, filtration and centrifugation, were used to study the recovery of N. fowleri, in vegetative or cystic form, that had been mixed with the two other thermotolerant Naegleria species, N. lovaniensis and N. australiensis. Counting of amoebae was performed by the most probable number method on 10 water replicates of 100 ml and 10 ml each. With both concentration methods, recovery was better for cysts than for trophozoites (53% ± 21% versus 5% ± 5% by filtration and 57% ± 25% versus 22% ± 5% by centrifugation). The recovery of Naegleria trophozoites by filtration was very low, and centrifugation was significantly better than filtration in recovery of Naegleria trophozoites (22% ± 5% versus 5% ± 5%; P < 0.001). For cysts, however, filtration appeared as efficient as centrifugation, with equivalent values for recovery (53% ± 21% versus 57% ± 25%; P > 0.7). Although the recovery of cysts of N. fowleri obtained by filtration (51% ± 24%) appeared higher than that by centrifugation (36% ± 23%), the difference was not significant (P > 0.1). Both concentration methods have highly variable recovery rates, making accurate quantification of low concentrations (<100/liter) of N. fowleri in the environment difficult.  相似文献   
55.
The concentration of metals (Al, Cu, Fe, Mn, Ni, Zn) and B were determined in the above- and belowground biomass of Phragmites australis collected from the microcosm constructed wetland system used for the polishing of real electroplating wastewater. Translocation factor and bioconcentration factor were determined. Pearson correlation test was used to determine correlation between metal concentration in substrate and above- and belowground parts of Phragmites australis. The obtained results suggested that Phragmites australis did not play a major role as an accumulator of metals. It was observed also that the substrate could have exerted an effect on the translocation of Ni, Cu, Zn and Mn. The analysed concentrations of metals and B in biomass were in the range or even below the concentrations reported in the literature with the exception of Ni. The aboveground biomass was found suitable as a composting input in terms of metals concentrations.  相似文献   
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During xenophagy, pathogens are selectively targeted by autophagy receptors to the autophagy machinery for their subsequent degradation. In infected cells, the autophagy receptor CALCOCO2/NDP52 targets Salmonella Typhimurium to the phagophore membrane by concomitantly interacting with LC3C and binding to ubiquitinated cytosolic bacteria or to LGALS8/GALECTIN 8 adsorbed on damaged vacuoles that contain bacteria. We recently reported that in addition, CALCOCO2 is also necessary for the maturation step of Salmonella Typhimurium-containing autophagosomes. Interestingly, the role of CALCOCO2 in maturation is independent of its role in targeting, as these functions rely on distinct binding domains and protein partners. Indeed, to mediate autophagosome maturation CALCOCO2 binds on the one hand to LC3A, LC3B, or GABARAPL2, and on the other hand to MYO6/MYOSIN VI, whereas the interaction with LC3C is dispensable. Therefore, the autophagy receptor CALCOCO2 plays a dual function during xenophagy first by targeting bacteria to nascent autophagosomes and then by promoting autophagosome maturation in order to destroy bacteria.Xenophagy is the process referring to the selective degradation of intracellular microorganisms by autophagy. Xenophagy is a very potent intrinsic cellular line of defense to fight pathogens and requires first the detection and targeting of microorganisms to growing phagophores prior to autophagosome maturation leading to microbial destruction. The targeting step can be achieved by cytosolic autophagy receptors, which bind on the one hand to the pathogen and on the other hand to LC3, a phagophore membrane-anchored protein. Once entrapped within an autophagosome, bacteria can survive or escape, unless they are rapidly destroyed. Therefore, autophagosome maturation allows the discharge of lysosomal enzymes in autolysosomes, allowing destruction of the bacteria. It is, however, not well known how autophagosomes mature, especially in the context of xenophagy. Recently, the endosomal membrane-bound protein TOM1 and the dynein motor MYO6 have been both shown to be implicated in the transport of endosomes into the vicinity of autophagosomes in order to ensure fusion of autophagosomes with vesicles of the endo/lysosomal pathway. Moreover, the concomitant absence of 3 autophagy receptors, CALCOCO2, TAX1BP1/T6BP, and OPTN/OPTINEURIN, impairs autophagosome biogenesis and maturation. As CALCOCO2 was already shown to have a MYO6 binding domain, we wondered whether CALCOCO2 could also be implicated in autophagosome maturation per se to promote bacterial degradation.We first observed that the binding site of CALCOCO2 to MYO6 was required for cells to control Salmonella Typhimurium intracellular growth. Nevertheless, when the binding of CALCOCO2 to MYO6 was abolished, bacteria were still efficiently targeted to autophagosomes, but yet still able to replicate to levels similar to the one observed in CALCOCO2-depleted cells. Strikingly, in noninfected cells the absence of CALCOCO2 perturbs the autophagy flux, resulting in a strong accumulation of autophagosomes, suggesting a positive role for CALCOCO2 in the autophagosome-lysosome fusion process. Surprisingly, we found that CALCOCO2 binding to LC3C, through its noncanonical LC3 interacting region (CLIR), is not involved in the maturation of autophagosomes. Instead, we identified another motif in the primary sequence of CALCOCO2, which mediates binding to at least LC3A, LC3B, and GABARAPL2 (but not LC3C). We referred to this motif as “LIR-like” as it differs from the canonical LIR motif by the absence of a hydrophobic residue in position X3. This LIR-like motif was necessary for autophagosome maturation, along with the domain of CALCOCO2 responsible for its binding to MYO6. Eventually, mutation of this LIR-like motif also resulted in an increased Salmonella Typhimurium intracellular proliferation, whereas bacteria were still efficiently targeted within nondegradative autophagosomes. Interestingly, the absence of the autophagy receptor OPTN also led to the accumulation of nondegradative autophagosomes, suggesting that other autophagy receptors could share CALCOCO2 dual functions in xenophagy.Having autophagy receptors ensuring both targeting and degradation of pathogens could be an important evolutionary advantage against infections. Indeed, this mechanism could help to reduce the delay necessary for maturation, thus avoiding adaptation of the pathogen to its new environment (as proposed for Coxiella burnetti, Listeria monocytogenes, and Legionella pneumophila) or its escape from the autophagosome. Conversely, pathogens could avoid autophagy entrapment or autophagic degradation by targeting CALCOCO2 or any other autophagy receptors, which could play similar roles. For instance Chikungunya virus was reported to target CALCOCO2 in human cells leading to increased virus replication. Nevertheless, redundancy among autophagy receptors could also ensure a selective immune advantage against pathogens targeting any one of these receptors.Our results and those from others suggest for now that CALCOCO2 serves as a docking platform for MYO6-bound endosomes, thus facilitating autophagosome maturation (Fig. 1). How this action is coordinated with CALCOCO2 directing pathogens to the phagophore membranes remains unclear. During xenophagy against Salmonella Typhimurium, CALCOCO2 interaction first with LC3C is necessary to further recruit other ATG8 orthologs and ensure the final degradation of bacteria. Since the LIR-like motifs bind several ATG8s, whereas the CLIR motif only mediates binding to LC3C, it is possible that binding of CALCOCO2 to LC3C induces conformational changes and uncovers the LIR-like motif that can be then engaged with other ATG8 orthologs to trigger autophagosome maturation. Moreover, it is still unclear whether the action of CALCOCO2 in autophagosome maturation is coordinated with other partners, such as STX17/SYNTAXIN 17, which is recruited on the external membrane of autophagosomes and regulate fusion with lysosomes. Open in a separate windowFigure 1.Schematic model for the dual role of CALCOCO2 in xenophagy. CALCOCO2 targets bacteria to the phagophore through its LC3C binding site (CLIR motif), and, independently, regulates autophagosome maturation through its LC3A, LC3B, or GABARAPL2 binding site (LIR-like motif) and its MYO6 interacting region.Our findings reveal a new role for the autophagy receptor CALCOCO2 in autophagosome maturation, unravelling another function for CALCOCO2 in cell autonomous defense against pathogens: CALCOCO2 not only targets pathogens to phagophore membranes, but also regulates subsequent maturation of pathogen-containing autophagosomes, thus assuring efficient degradation of autophagy-targeted pathogens.  相似文献   
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The aim of this work was to define the possible occurrence of hematological changes during the course of a chronic ingestion of 137Cs. A mouse model was used, with ingestion through drinking water with a cesium concentration of 20 kBq l−1. Ingestion started in parent animals before mating, and 137Cs intake and its effect on the hematopoietic system was studied in offspring at various ages between birth and 20 weeks. 137Cs content was measured in various organs, indicating that 137Cs was distributed throughout the organism including lympho-hematopoietic organs, i.e., femurs, spleen and thymus. However, we did not observe any effect on the hematopoietic system, whatever the parameter used. In fact, blood cell counts, mononuclear cell counts and progenitor frequency in bone marrow and spleen, and Flt3-ligand, Erythropoietin, G-CSF and SDF-1 concentration in plasma remained unchanged when compared to control animals. Moreover, phenotypic analysis did not show any change in the proportions of bone marrow cell populations. These results indicate that, although 137Cs was found in all organs implicated in the hematopoietic system, this did not induce any changes in bone marrow function.  相似文献   
60.
Very-long-chain fatty acids (VLCFAs) are essential for many aspects of plant development and necessary for the synthesis of seed storage triacylglycerols, epicuticular waxes, and sphingolipids. Identification of the acetyl-CoA carboxylase PASTICCINO3 and the 3-hydroxy acyl-CoA dehydratase PASTICCINO2 revealed that VLCFAs are important for cell proliferation and tissue patterning. Here, we show that the immunophilin PASTICCINO1 (PAS1) is also required for VLCFA synthesis. Impairment of PAS1 function results in reduction of VLCFA levels that particularly affects the composition of sphingolipids, known to be important for cell polarity in animals. Moreover, PAS1 associates with several enzymes of the VLCFA elongase complex in the endoplasmic reticulum. The pas1 mutants are deficient in lateral root formation and are characterized by an abnormal patterning of the embryo apex, which leads to defective cotyledon organogenesis. Our data indicate that in both tissues, defective organogenesis is associated with the mistargeting of the auxin efflux carrier PIN FORMED1 in specific cells, resulting in local alteration of polar auxin distribution. Furthermore, we show that exogenous VLCFAs rescue lateral root organogenesis and polar auxin distribution, indicating their direct involvement in these processes. Based on these data, we propose that PAS1 acts as a molecular scaffold for the fatty acid elongase complex in the endoplasmic reticulum and that the resulting VLCFAs are required for polar auxin transport and tissue patterning during plant development.  相似文献   
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