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71.
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V M Poliachenko V A Mel'nikova I M Gruber G A Smirnova B M Raskin 《Zhurnal mikrobiologii, epidemiologii, i immunobiologii》1989,(3):3-8
A culture medium for the cultivation of hemophilic bacteria, containing acidic casein hydrolysate, aminopeptide and fodder yeast extract, has been proposed. The growth-stimulating properties of this medium have been studied on 5 strains producing restrictases differing in their specificity. In growing these producer strains in a model ANKUM-2 fermenter with the supply of carbohydrate substrates (glucose, sucrose, glycerin) the yield of biomass, considered to be high for hemophilic bacteria (10-14 g of humid substance from 1 liter of the medium), has been achieved. As shown on H. influenzae Rc B-2297 used as an example, an increase in the yield of microbial biomass leads to a decrease in restrictase specific activity. 相似文献
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Mixtures of interacting compounds produced by plants may provide important combination therapies that simultaneously affect multiple pharmacological targets and provide clinical efficacy beyond the reach of single compound-based drugs. Developing innovative scientific methods for discovery, validation, characterization and standardization of these multicomponent botanical therapeutics is essential to their acceptance into mainstream medicine. 相似文献
74.
Activated sludge mixed liquor and biological foam samples were collected from five full-scale municipal wastewater treatment plants in Illinois, all of which were exhibiting biological foaming at the time of sampling. Oligonucleotide probe hybridization consistently measured higher levels of Gammaproteobacteria rRNA in the foam as compared with the mixed liquor for all treatment plants analysed. Cloning and sequencing of 16S rRNA gene amplicons led to the identification of populations which were abundant in each of the treatment plants. These populations were related to the Alkanindiges/Acinetobacter cluster within the Gammaproteobacteria. Further analysis of the 16S rRNA sequences indicated that they clustered in three phylogenetic groups outside the main Alkanindiges/Acinetobacter cluster, suggesting that these groups may represent new taxa. Terminal-restriction fragment length polymorphism analysis showed that these populations were enriched in the foam compared with the underlying mixed liquor similar to the enrichment of the Gammaproteobacteria measured by oligonucleotide probe membrane hybridization. The observed enrichment in foam samples is suggestive of a role for these populations in foam formation or stabilization, and their presence in all treatment plants analysed in this study may be indicative of their widespread abundance in foaming plants. 相似文献
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Buehrer BM Duffin DJ Lea-Currie YR Ribnicky D Raskin I Stephens JM Cefalu WT Gimble JM 《The Journal of nutritional biochemistry》2012,23(6):519-525
Plant extracts continue to represent an untapped source of renewable therapeutic compounds for the treatment and prevention of illnesses including chronic metabolic disorders. With the increase in worldwide obesity and its related morbidities, the need for identifying safe and effective treatments is also rising. As such, use of primary human adipose-derived stem cells represents a physiologically relevant cell system to screen for bioactive agents in the prevention and treatment of obesity and its related complications. By using these cells in a primary screen, the risk and cost of identifying artifacts due to interspecies variation and immortalized cell lines is eliminated. We demonstrate that these cells can be formatted into 384-well high throughput screens to rapidly identify botanical extracts that affect lipogenesis and lipolysis. Additionally, counterscreening with human primary stem cells from distinct adipose depots can be routinely performed to identify tissue specific responses. In our study, over 500 botanical extracts were screened and 16 (2.7%) were found to affect lipogenesis and 4 (0.7%) affected lipolysis. 相似文献
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Archana Jindal Svetlana Kocherginskaya Asma Mehboob Matthew Robert Roderick I. Mackie Lutgarde Raskin Julie L. Zilles 《Applied microbiology》2006,72(12):7813-7820
Chlortetracycline and the macrolide tylosin were identified as commonly used antimicrobials for growth promotion and prophylaxis in swine production. Resistance to these antimicrobials was measured throughout the waste treatment processes at five swine farms by culture-based and molecular methods. Conventional farm samples had the highest levels of resistance with both culture-based and molecular methods and had similar levels of resistance despite differences in antimicrobial usage. The levels of resistance in organic farm samples, where no antimicrobials were used, were very low by a culture-based method targeting fecal streptococci. However, when the same samples were analyzed with a molecular method detecting methylation of a specific nucleotide in the 23S rRNA that results in resistance to macrolides, lincosamides, and streptogramin B (MLSB), an unexpectedly high level of resistant rRNA (approximately 50%) was observed, suggesting that the fecal streptococci were not an appropriate target group to evaluate resistance in the overall microbial community and that background levels of MLSB resistance may be substantial. All of the feed samples tested, including those from the organic farm, contained tetracycline resistance genes. Generally, the same tetracycline resistance genes and frequency of detection were found in the manure and lagoon samples for each commercial farm. The levels of tetracycline and MLSB resistance remained high throughout the waste treatment systems, suggesting that the potential impact of land application of treated wastes and waste treatment by-products on environmental levels of resistance should be investigated further. 相似文献
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Zhi Zhou Lutgarde Raskin Julie L. Zilles 《Applied and environmental microbiology》2009,75(18):5814-5820
To investigate the relationship between agricultural antimicrobial use and resistance, a variety of methods for quantification of macrolide-lincosamide-streptogramin B (MLSB) resistance were applied to organic swine farm manure samples. Fluorescence in situ hybridization was used to indirectly quantify the specific rRNA methylation resulting in MLSB resistance. Using this method, an unexpectedly high prevalence of ribosomal methylation and, hence, predicted MLSB resistance was observed in manure samples from two swine finisher farms that reported no antimicrobial use (37.6% ± 6.3% and 40.5% ± 5.4%, respectively). A culture-based method targeting relatively abundant clostridia showed a lower but still unexpectedly high prevalence of resistance at both farms (27.7% ± 11.3% and 11.7% ± 8.6%, respectively), while the prevalence of resistance in cultured fecal streptococci was low at both farms (4.0%). These differences in the prevalence of resistance across microorganisms suggest the need for caution when extrapolating from data obtained with indicator organisms. A third antimicrobial-free swine farm, a breeder-to-finisher operation, had low levels of MLSB resistance in manure samples with all methods used (<9%). Tetracycline antimicrobials were detected in manure samples from one of the finisher farms and may provide a partial explanation for the high level of MLSB resistance. Taken together, these findings highlight the need for a more fundamental understanding of the relationship between antimicrobial use and the prevalence of antimicrobial resistance.Clinical data have documented a substantial rise in the levels of antimicrobial resistance (reviewed in reference 22). In response to this alarming rise, national and international initiatives have been developed to limit the use of antimicrobials in both human and veterinary medicine, with some successes. However, some of the data suggest a more complicated relationship between the patterns of antimicrobial use and the resulting prevalence of resistance. For both avoparcin and chloramphenicol, a ban was not effective in reducing the prevalence of resistance to the respective antimicrobial in pig isolates (2, 9). This may be due to coselection by the continued use of other types of antimicrobials (1, 15, 16, 33). Coselection by other antimicrobials, however, cannot explain the persistence of antimicrobial resistance for years after all use of antimicrobials was stopped, as documented in other studies of swine (13, 25). A better understanding of this complex relationship is needed to provide a basis for developing more-effective measures to control the prevalence of antimicrobial resistance. One means for investigating the factors influencing the prevalence of resistance is through comparisons between conventional farms and organic, antimicrobial-free farms (12, 13, 18, 25) or the wilderness (14, 19).The current study focused on macrolide antimicrobials, for which the most clinically relevant resistance mechanisms are efflux and target site modification (20). Resistance via modification of the target site on the ribosome may be achieved either through point mutations in rRNA or proteins or through acquisition of an erm gene catalyzing a site-specific mono- or dimethylation of the 23S rRNA (37). The point mutations confer various levels of resistance and degrees of cross-resistance (35), and their known distribution is currently limited, although this may simply reflect the historical experimental focus (20, 35). Dimethylation of A2058 (Escherichia coli numbering), on the other hand, consistently results in high-level resistance (for antimicrobial concentrations above 1 mg/ml) for three structurally unrelated classes of antimicrobials, macrolides, lincosamides, and streptogramin Bs, or macrolide-lincosamide-streptogramin B (MLSB) antimicrobials, because of their shared target site (37). Constitutive expression of an erm dimethylase can also confer resistance to the newer ketolides, which are erythromycin (macrolide) derivatives developed for use on macrolide-resistant pathogens, and the degree of resistance correlates with the degree of methylation (11). The ribosomal methylation resistance mechanism is of particular concern for this work for the following three reasons. (i) It confers a high level of resistance. (ii) It can be acquired through horizontal gene transfer and thus has the potential for rapid spread. (iii) It is relevant to swine production environments in the United States because all three classes of MLSB antimicrobials are used there. A variety of methods have been used to quantify macrolide resistance, including traditional culture-based methods (for an example, see reference 9), PCR (for examples, see references 27 and 32), or fluorescence in situ hybridization (FISH) (for an example, see reference 34) detection of specific point mutations known to result in resistance in the targeted microorganisms, using PCR to detect erm and mef (efflux) genes (for examples, see references 6 and 31) and using membrane hybridizations to detect the degree of methylation at A2058 (5, 18).In our previous study of swine production, a discrepancy was observed between culture-based measurements of resistance to the macrolide tylosin and membrane hybridizations quantifying the ribosomal methylation leading to MLSB resistance (18). Cultured fecal streptococci showed a low prevalence of tylosin resistance (4.0%) in manure samples from an organic farm, as expected in the absence of the selective pressure imposed by the use of antimicrobials. However, membrane hybridizations quantifying the ribosomal methylation leading to MLSB resistance in all bacteria in the swine waste samples suggested the presence of a much higher level of resistance (approximately 50%). One explanation for this discrepancy is that the prevalence of resistance in the fecal streptococci was not representative of the overall prevalence of resistance in this community. However, the high level of resistance measured with the molecular method was surprising in the absence of antimicrobial use and could also be explained as an artifact of the membrane hybridization methodology.The primary objectives of this paper were to resolve this discrepancy between culture-based and molecular methods and, if the unexpectedly high prevalence of antimicrobial resistance was confirmed, to investigate possible explanations. To accomplish the first objective, we developed a variation of FISH to indirectly quantify the specific rRNA methylation resulting in MLSB resistance and provide insight into the identity of the putative resistant microorganisms. The major group identified, Clostridium cluster XIVa, was targeted with a culture-based method to provide an independent quantification of resistance. The results presented here have confirmed an unexpectedly high prevalence of MLSB resistance at two organic farms. They also support the hypothesis that the prior discrepancy resulted from differences in the prevalence of resistance across groups of microorganisms. 相似文献
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