Breast milk is an important source of staphylococci and other bacterial groups to the infant gut. The objective of this work
was to analyse the bacterial diversity in feces of breast-fed infants and to compare it with that of formula-fed ones. A total
of 23 women and their respective infants (16 breast-fed and 7 formula-fed) participated in the study. The 16 women and their
infants provided a sample of breast milk and feces, respectively, at days 7, 14, and 35. The samples were plated onto different
culture media. Staphylococcal and enterococcal isolates were submitted to genetic profiling and to a characterization scheme,
including detection of potential virulence traits and sensitivity to antibiotics. 相似文献
Experiments were carried out to evaluate the effects of exposure to nitric oxide on the ability by NADPH‐dependent microsomal electron transfer to generate oxygen radicals. Such interactions could play a role in the potential antioxidant action of nitric oxide (NO). Isolated microsomes from soybean ( Glycine max [L.] Merr. cv. Hood) embryonic axes were exposed to an exogenously added source of nitric oxide (NO) (S‐nitrosoglutathione + dithiothreitol). The O2− generation rate by microsomes exposed to NO decreased significantly as compared to the rate measured in microsomes incubated in the absence of NO. The exposure of the microsomes to the NO donor did not alter the microsomal rate of hydroxyl radical generation. Preincubation of the microsomes with the NO donor affected neither iron reduction rate nor activity of cytochrome c reductase. However, cytochrome P450 activity was significantly inhibited after exposure to NO. This inhibition was completely prevented by hemoglobin. The data are consistent with the hypothesis that NO exhibits a potential antioxidant role in the plant cell by decreasing the rate of generation of superoxide anion. Since endogenous NO was detected in homogenates of soybean embryonic axes by EPR studies, this interaction between NO and cytochrome P450 in soybean embryonic axes could be a factor of relevance for the control of oxidative stress in vivo. 相似文献
Eukaryotic initiation factor 2 (eIF-2) is a heterotrimeric protein with subunits α, β and γ that forms a ternary complex with
Met-tRNA and GTP. It promotes the binding of Met-tRNA to ribosomes and controls translational rates via phosphorylation/dephosphorylation
mechanisms. By means of immunofluorescence and post-embedding immunocytochemistry of intact cells and quantitative immunoblotting
of cell extracts, the cellular distribution of the initiation factor has been examined in primary neuronal cultures as well
as in two established cell lines: PC12 phaeochromocytoma cells and rat pituitary GH4C1 cells. Our results indicated that the
initiation factor is located not only in the cytoplasm but also in the nuclei of the cultured neurons and cell lines. In the
cytoplasm, immunocytochemical studies reveal that the factor is present mainly in those areas that are rich in ribosomes.
In the nucleus, the immunolabelling of eukaryotic initiation factor 2 verified the presence of gold particles in both nucleolar
and extranucleolar areas. The specific distribution of this factor on both sides of the nuclear envelope suggests that it
might have some nuclear-related function(s) besides its already known role in the control of translation 相似文献
African swine fever virus (ASFV) CD2v protein is believed to be involved in virulence enhancement, viral hemadsorption, and pathogenesis, although the molecular mechanisms of the function of this viral protein are still not fully understood. Here we describe that CD2v localized around viral factories during ASFV infection, suggesting a role in the generation and/or dynamics of these viral structures and hence in disturbing cellular traffic. We show that CD2v targeted the regulatory trans-Golgi network (TGN) protein complex AP-1, a key element in cellular traffic. This interaction was disrupted by brefeldin A even though the location of CD2v around the viral factory remained unchanged. CD2v-AP-1 binding was independent of CD2v glycosylation and occurred on the carboxy-terminal part of CD2v, where a canonical di-Leu motif previously reported to mediate AP-1 binding in eukaryotic cells, was identified. This motif was shown to be functionally interchangeable with the di-Leu motif present in HIV-Nef protein in an AP-1 binding assay. However, we demonstrated that it was not involved either in CD2v cellular distribution or in CD2v-AP-1 binding. Taken together, these findings shed light on CD2v function during ASFV infection by identifying AP-1 as a cellular factor targeted by CD2v and hence elucidate the cellular pathways used by the virus to enhance infectivity. 相似文献
Swarming, a flagellar-driven multicellular form of motility, is associated with bacterial virulence and increased antibiotic resistance. In this work we demonstrate that activation of the SOS response reversibly inhibits swarming motility by preventing the assembly of chemoreceptor-signaling polar arrays. We also show that an increase in the concentration of the RecA protein, generated by SOS system activation, rather than another function of this genetic network impairs chemoreceptor polar cluster formation. Our data provide evidence that the molecular balance between RecA and CheW proteins is crucial to allow polar cluster formation in Salmonella enterica cells. Thus, activation of the SOS response by the presence of a DNA-injuring compound increases the RecA concentration, thereby disturbing the equilibrium between RecA and CheW and resulting in the cessation of swarming. Nevertheless, when the DNA-damage decreases and the SOS response is no longer activated, basal RecA levels and thus polar cluster assembly are reestablished. These results clearly show that bacterial populations moving over surfaces make use of specific mechanisms to avoid contact with DNA-damaging compounds. 相似文献
Protein amyloids arise from the conformational conversion and assembly of a soluble protein into fibrilar aggregates with a crossed β‐sheet backbone. Amyloid aggregates are able to replicate by acting as a template for the structural transformation and accretion of further protein molecules. In physicochemical terms, amyloids arguably constitute the simplest self‐replicative macromolecular assemblies. Similarly to the mammalian proteins PrP and α‐synuclein, the winged‐helix dimerization (WH1) domain of the bacterial, plasmid‐encoded protein RepA can assemble into amyloid fibres upon binding to DNA in vitro. Here we report that a hyper‐amyloidogenic functional variant (A31V) of RepA, fused to a red fluorescent protein, causes an amyloid proteinopathy in Escherichia coli with the following features: (i) in the presence of multiple copies of the specific DNA sequence opsp, WH1(A31V) accumulates as cytoplasmatic inclusions segregated from the nucleoid; (ii) such aggregates are amyloid in nature; (iii) bacteria carrying the amyloid inclusions age, exhibiting a fivefold expanded generation time; (iv) before cytokinesis, small inclusions are assembled de novo and transferred to the daughter cells, in which transmission failures cure amyloidosis; and (v) in the absence of inducer DNA, purified cellular WH1(A31V) inclusions seed amyloid fibre growth in vitro from the soluble protein. RepA‐WH1 is a suitable bacterial model system for amyloid proteinopathies. 相似文献
The behavior of endogenous polyamines was studied in somatic embryos and zygotic embryos of Habanero pepper (Capsicum chinense). In the first part of the work, the polyamine content was evaluated in both types of embryos (somatic and zygotic). As a result, in addition to the common polyamines (putrescine, spermidine and spermine), it was also possible to detect cadaverine, a polyamine rarely found in plants. In general, all the polyamines were found to be more abundant in somatic embryos than in zygotic embryos, with significantly higher contents of putrescine and cadaverine. Subsequently, the content of putrescine, spermidine, spermine and cadaverine, in their different forms (free, bound and conjugated) was determined in somatic embryos which were cultured in non-ventilated and ventilated containers. Detection of polyamines was carried out at 28 and 42 days of culture by the HPLC method. The ethylene content was monitored during the process in both culture conditions (ventilated and non-ventilated). As a result of the analysis, cadaverine was always found present, indicating that it is a common polyamine in the species. Ethylene was detected in containers without ventilation throughout the culture, except during replenishment of the culture medium (R1, R2 and R3). The behavior pattern of each polyamine, analyzed under different culture conditions (ventilated and non-ventilated) and at different moments of culture (28 and 42 days of culture), show that the polyamines are not only involved in morphogenic processes in plants; polyamines are also significantly affected by the surrounding environment. However, the most novel result, presented for the first time in this paper, is that cadaverine is found to be a common polyamine in C. chinense since it is present in both zygotic embryos and somatic embryos.