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41 results on '"Intestine, Large microbiology"'

1. Maternal sucralose intake alters gut microbiota of offspring and exacerbates hepatic steatosis in adulthood.

Author

Dai X, Guo Z, Chen D, Li L, Song X, Liu T, Jin G, Li Y, Liu Y, Ajiguli A, Yang C, Wang B, and Cao H

Subjects
Animals, Bacteria growth & development, Bacteria metabolism, Butyrates metabolism, Clostridium butyricum physiology, Cytokines metabolism, Diet, High-Fat, Dysbiosis, Female, Inflammation, Intestine, Large metabolism, Intestine, Large microbiology, Intestines growth & development, Lipid Metabolism, Male, Maternal Nutritional Physiological Phenomena, Mice, Mice, Inbred C57BL, Pregnancy, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Sucrose administration & dosage, Bacteria classification, Dietary Sugars administration & dosage, Gastrointestinal Microbiome, Intestines microbiology, Intestines physiology, Non-alcoholic Fatty Liver Disease etiology, Sucrose analogs & derivatives
Abstract

Background: Nonalcoholic fatty liver disease (NAFLD) is considered to be associated with diet and gut dysbiosis. Excessive sucralose can induce gut dysbiosis and negatively affect host health. Maternal diet shapes the microbial communities of neonate and this effect continues in later life. We aimed to investigate the effects of maternal sucralose (MS) intake on the susceptibility of offspring to hepatic steatosis in adulthood., Methods: C57BL/6 pregnant mice were randomized into MS group (MS during gestation and lactation) and maternal control (MC) group (MC diet). After weaning, all offspring were fed a control diet until 8 weeks of age, and then treated with a high-fat diet (HFD) for 4 weeks. The intestinal development, mucosal barrier function, and gut microbiota were assessed in the 3-week-old offspring. Moreover, the severity of hepatic steatosis, serum biochemistry, lipid metabolism, and gut microbiota was then assessed in the 12th week., Results: MS significantly inhibited intestinal development and disrupted barrier function in 3-week-old offspring. MS also induced intestinal low-grade inflammation, significantly changed the compositions and diversity of gut microbiota including reducing butyrate-producing bacteria and cecal butyrate production with down-regulation of GPR43. Mechanically, blocking GPR43 blunted the anti-inflammatory effect of one of the butyrate-producing bacteria, Clostridium butyricum in vitro . After HFD treatment, MS exacerbated hepatic steatosis, and disturbed fatty acid biosynthesis and metabolism, accompanied by inducing gut dysbiosis compared with MC group., Conclusions: MS intake inhibits intestinal development, induces gut dysbiosis in offspring through down-regulation of GPR43, and exacerbates HFD-induced hepatic steatosis in adulthood.

Published
2020
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2. Infection with a small intestinal helminth, Heligmosomoides polygyrus bakeri, consistently alters microbial communities throughout the murine small and large intestine.

Author

Rapin A, Chuat A, Lebon L, Zaiss MM, Marsland BJ, and Harris NL

Subjects
Animals, Host Microbial Interactions, Host-Parasite Interactions, Intestinal Mucosa microbiology, Intestinal Mucosa parasitology, Intestine, Large microbiology, Intestine, Large parasitology, Metagenomics, Mice, Peptostreptococcus growth & development, Gastrointestinal Microbiome, Helminthiasis, Intestinal Diseases, Parasitic, Intestines microbiology, Intestines parasitology, Nematospiroides dubius microbiology, Nematospiroides dubius parasitology
Abstract

Increasing evidence suggests that intestinal helminth infection can alter intestinal microbial communities with important impacts on the mammalian host. However, all of the studies to date utilize different techniques to study the microbiome and access different sites of the intestine with little consistency noted between studies. In the present study, we set out to perform a comprehensive analysis of the impact of intestinal helminth infection on the mammalian intestinal bacterial microbiome. For this purpose, we investigated the impact of experimental infection using the natural murine small intestinal helminth, Heligmosomoides polygyrus bakeri and examined possible alterations in both the mucous and luminal bacterial communities along the entire small and large intestine. We also explored the impact of common experimental variables including the parasite batch and pre-infection microbiome, on the outcome of helminth-bacterial interactions. This work provides evidence that helminth infection reproducibly alters intestinal microbial communities, with an impact of infection noted along the entire length of the intestine. Although the exact nature of helminth-induced alterations to the intestinal microbiome differed depending on the microbiome community structure present prior to infection, changes extended well beyond the introduction of new bacterial species by the infecting larvae. Moreover, striking similarities between different experiments were noted, including the consistent outgrowth of a bacterium belonging to the Peptostreptococcaceae family throughout the intestine., (Copyright © 2019 Australian Society for Parasitology. Published by Elsevier Ltd. All rights reserved.)

Published
2020
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3. The Gut Microbiota of Wild Mice.

Author

Weldon L, Abolins S, Lenzi L, Bourne C, Riley EM, and Viney M

Subjects
Animals, Bacteroidetes isolation & purification, Body Weight, Cecum microbiology, Computational Biology, DNA, Bacterial isolation & purification, England, Female, Firmicutes isolation & purification, Geography, Intestine, Large microbiology, Leptin blood, Male, Mice parasitology, Mice virology, Mites, Nematoda, Phylogeny, Viruses, Gastrointestinal Microbiome, Intestines microbiology, Mice microbiology
Abstract

The gut microbiota profoundly affects the biology of its host. The composition of the microbiota is dynamic and is affected by both host genetic and many environmental effects. The gut microbiota of laboratory mice has been studied extensively, which has uncovered many of the effects that the microbiota can have. This work has also shown that the environments of different research institutions can affect the mouse microbiota. There has been relatively limited study of the microbiota of wild mice, but this has shown that it typically differs from that of laboratory mice (and that maintaining wild caught mice in the laboratory can quite quickly alter the microbiota). There is also inter-individual variation in the microbiota of wild mice, with this principally explained by geographical location. In this study we have characterised the gut (both the caecum and rectum) microbiota of wild caught Mus musculus domesticus at three UK sites and have investigated how the microbiota varies depending on host location and host characteristics. We find that the microbiota of these mice are generally consistent with those described from other wild mice. The rectal and caecal microbiotas of individual mice are generally more similar to each other, than they are to the microbiota of other individuals. We found significant differences in the diversity of the microbiotas among mice from different sample sites. There were significant correlations of microbiota diversity and body weight, a measure of age, body-mass index, serum concentration of leptin, and virus, nematode and mite infection.

Published
2015
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4. Bacteria, phages and pigs: the effects of in-feed antibiotics on the microbiome at different gut locations.

Author

Looft T, Allen HK, Cantarel BL, Levine UY, Bayles DO, Alt DP, Henrissat B, and Stanton TB

Subjects
Animals, Anti-Bacterial Agents administration & dosage, Bacteria genetics, Bacteria isolation & purification, Bacteriophages genetics, Bacteriophages isolation & purification, Female, Intestine, Large microbiology, Intestine, Small microbiology, Male, Animal Feed, Anti-Bacterial Agents pharmacology, Bacteria classification, Intestines microbiology, Microbiota drug effects, Swine microbiology
Abstract

Disturbance of the beneficial gut microbial community is a potential collateral effect of antibiotics, which have many uses in animal agriculture (disease treatment or prevention and feed efficiency improvement). Understanding antibiotic effects on bacterial communities at different intestinal locations is essential to realize the full benefits and consequences of in-feed antibiotics. In this study, we defined the lumenal and mucosal bacterial communities from the small intestine (ileum) and large intestine (cecum and colon) plus feces, and characterized the effects of in-feed antibiotics (chlortetracycline, sulfamethazine and penicillin (ASP250)) on these communities. 16S rRNA gene sequence and metagenomic analyses of bacterial membership and functions revealed dramatic differences between small and large intestinal locations, including enrichment of Firmicutes and phage-encoding genes in the ileum. The large intestinal microbiota encoded numerous genes to degrade plant cell wall components, and these genes were lacking in the ileum. The mucosa-associated ileal microbiota harbored greater bacterial diversity than the lumen but similar membership to the mucosa of the large intestine, suggesting that most gut microbes can associate with the mucosa and might serve as an inoculum for the lumen. The collateral effects on the microbiota of antibiotic-fed animals caused divergence from that of control animals, with notable changes being increases in Escherichia coli populations in the ileum, Lachnobacterium spp. in all gut locations, and resistance genes to antibiotics not administered. Characterizing the differential metabolic capacities and response to perturbation at distinct intestinal locations will inform strategies to improve gut health and food safety.

Published
2014
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5. Conjugal transfer of the Salmonella enterica virulence plasmid in the mouse intestine.

Author

García-Quintanilla M, Ramos-Morales F, and Casadesús J

Subjects
Animals, Feces microbiology, Gene Transfer, Horizontal, Ileum microbiology, Intestine, Large microbiology, Intestine, Small microbiology, Liver microbiology, Mice, Mice, Inbred BALB C, Salmonella Infections, Animal microbiology, Salmonella enterica pathogenicity, Species Specificity, Spleen microbiology, Virulence genetics, Conjugation, Genetic genetics, Intestines microbiology, Plasmids genetics, Salmonella enterica genetics
Abstract

BALB/c mice were infected with two Salmonella enterica serovar Typhimurium strains, one of which lacked the virulence plasmid. Transconjugants were found at high frequencies in the mouse feces and at low frequencies in the liver and the spleen, suggesting that mating occurred in the gut. Laboratory conditions that mimic those of the small intestine (microaerophilic growth in the presence of 0.3 M NaCl) increased the frequency of virulence plasmid transfer. Sodium deoxycholate, which is found at high concentrations in the duodenum, and sodium propionate, which is abundant in the large intestine, reduced the conjugation frequency. Feces inhibited conjugation. Altogether, these observations suggested that transfer of the virulence plasmid occurred in the distal portion of the small intestine. Conjugation trials in ileal loops provided direct evidence that conjugal transfer of the Salmonella virulence plasmid occurs in the ileum in mice.

Published
2008
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6. Prebiotics and their long-term influence on the microbial populations of the mouse bowel.

Author

Santos A, San Mauro M, and Díaz DM

Subjects
Administration, Oral, Animals, Antibiosis, Bifidobacterium physiology, Clostridium growth & development, Female, Intestine, Large microbiology, Intestine, Small microbiology, Lactobacillus physiology, Mice, Models, Animal, Bifidobacterium growth & development, Food Microbiology, Intestines microbiology, Lactobacillus growth & development, Probiotics administration & dosage
Abstract

Various prebiotics were orally administered to mice and the evolution of different microbial populations was studied. The administration of prebiotics significantly increased lactobacilli and bifidobacteria in the large bowel content. Ingestion of prebiotics specifically lowered microbial populations of sulphite-reducing clostridia. Xylo-oligosaccharides (XOS) increased lactobacilli by 10 fold and produced the highest counts of bifidobacteria. In XOS-treated mice, levels of sulphite-reducing clostridia decreased significantly. Prebiotics slightly reduced the amount of aerobic bacteria and significantly increased the number of anaerobes in both the small and the large bowel. These effects of prebiotics were reverted by the basal diet.

Published
2006
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7. The effect of diet on aerobic bacterial flora associated with intestine of Arctic charr (Salvelinus alpinus L.).

Author

Ringø E and Olsen RE

Subjects
Animals, Arctic Regions, Colony Count, Microbial, Gram-Negative Bacteria classification, Gram-Negative Bacteria isolation & purification, Gram-Positive Bacteria classification, Gram-Positive Bacteria isolation & purification, Intestine, Large microbiology, Intestine, Small microbiology, Salmonidae physiology, Dietary Carbohydrates administration & dosage, Intestines microbiology, Salmonidae microbiology
Abstract

In order to extend the knowledge on the possible effect of diet on the gastrointestinal microbial community of fish, Arctic charr (Salvelinus alpinus L.) were fed diets containing high (23.7%) and low (6.4%) levels of carbohydrate. The number of viable aerobic and facultative aerobic bacteria associated with the digestive tract were not influenced by dietary regimen. A wide range of bacterial species was isolated, and the predominant bacterial species of both rearing groups were identified as Staphylococcus. There were, however, some differences in bacterial composition between the rearing groups, as well as inter-individual variations. For example, atypical Aeromonas salmonicida were isolated from the small and large intestine of two fish fed low dietary carbohydrate, while Aer. caviae-like isolates were found in the small intestine of four fish fed high carbohydrate. Non-motile Aeromonas spp. were found in the rearing group fed high dietary carbohydrate, but at low frequencies. Dietary manipulation seemed to influence the species composition of carnobacteria, Gram-positive rods, oxidase and catalase-negative and fermentative metabolism. Carnobacterium piscicola-like bacteria were only found in the small intestine, while C. mobile-like and Carnobacterium spp. were isolated from the large intestine of fish fed high carbohydrate. On the contrary, C. divergens-like isolates were found associated with the small and large intestine of fish fed low dietary carbohydrate.

Published
1999
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8. Potentiation of 2,6-dinitrotoluene genotoxicity in Fischer 344 rats by pretreatment with coal tar creosote.

Author

Chadwick RW, George SE, Kohan MJ, Williams RW, Allison JC, Talley DL, Hayes YO, and Chang J

Subjects
Analysis of Variance, Animals, Bacteria, Aerobic drug effects, Bacteria, Anaerobic drug effects, Cecum drug effects, Cecum enzymology, Cecum microbiology, Chromatography, Gas, Chromatography, High Pressure Liquid, Coal Tar chemistry, DNA Adducts genetics, DNA Adducts metabolism, Disease Models, Animal, Drug Synergism, Glucuronidase metabolism, Intestine, Large drug effects, Intestine, Large enzymology, Intestine, Large microbiology, Intestine, Small drug effects, Intestine, Small enzymology, Intestine, Small microbiology, Intestines enzymology, Intestines microbiology, Liver pathology, Male, Mutation drug effects, Mutation genetics, Nitroreductases metabolism, Occupational Exposure, Random Allocation, Rats, Rats, Inbred F344, Creosote toxicity, Dinitrobenzenes toxicity, Intestines drug effects, Liver drug effects
Abstract

Pretreatment of male Fischer 344 rats for 5 wk with coal tar creosote, a coal distillation product that is widely used as a wood preservative, potentiated the excretion of urinary mutagens in 2,6-dinitrotoluene (DNT) treated rats. Creosote increased the bioactivation of DNT to significantly greater levels of urinary genotoxic metabolites and/or formed DNA adducts in the liver. A significant increase in the excretion of mutagenic DNT metabolites was observed after the first week of creosote treatment, peaked at wk 3, and then decreased by 33% after 5 wk of treatment. Nevertheless, there was a significant increase (66%) in the formation of DNT-derived DNA adducts in the livers of rats treated with DNT plus creosote at wk 5. Increased cecal beta-glucuronidase activity and reduced small intestinal nitroreductase activity may play roles in the bioactivation of DNT. The excretion of mutagenic DNT metabolites supplies useful information about the bioactivation of DNT; it does not provide a useful index of DNT-derived hepatic DNA adduct formation. Such interactions could be important to predictive risk assessment because the overall cancer risk of such chemical mixtures may exceed the sum of the component risks.

Published
1995
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9. Microbial succession and intestinal enzyme activities in the developing rat.

Author

Chang J, Chadwick RW, Allison JC, Hayes YO, Talley DL, and Autry CE

Subjects
Age Factors, Animals, Autopsy, Bacteria classification, Body Weight, Ecology, Female, Glucuronidase analysis, Hydrocarbons, Chlorinated metabolism, Intestine, Large enzymology, Intestine, Large microbiology, Intestine, Small enzymology, Intestine, Small microbiology, Lyases analysis, Male, Organ Size, Oxidoreductases analysis, Rats, Sex Factors, Time Factors, Bacteria isolation & purification, Intestines enzymology, Intestines microbiology
Abstract

The succession of gut bacteria and selected intestinal enzyme activities in developing 7-35-d-old rats was studied. Aerobes and anaerobes were identified as members of four broad major bacterial groups, i.e. Gram-positive rods, Gram-positive cocci, Gram-negative rods and obligate anaerobes. The enzyme activities of nitro and azo reductases, beta-glucuronidase, dechlorinase and dehydrochlorinase were determined by anaerobic incubation of intestinal homogenates with 3,4-dichloronitrobenzene, methyl orange, p-nitrophenyl-beta-D-glucuronide, and p,p'-DDT respectively. Nitroreductase and azo reductase activities increased significantly with the appearance of anaerobes in the large intestine. No increase in either nitroreductase or azo reductase activities in the small intestine was found. The early and high level of beta-glucuronidase activity in the small and large intestines coincided with high numbers of coliforms recovered in 7 and 14 d animals. Dehydrochlorinase activity appeared early but was undetectable at both 21 and 28 d. Its activity increased at 35 d. Dechlorinase activity was variable in development. The rapid changes in the microbial flora and intestinal enzyme activities may influence the susceptibility of pre-pubescent rats to a variety of toxicants. Therefore, age-dependent toxicity may be important in the risk assessment of some environmental chemicals.

Published
1994
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10. Role of the intestinal microbiota in the activation of the promutagen 2,6-dinitrotoluene to mutagenic urine metabolites and comparison of GI enzyme activities in germ-free and conventionalized male Fischer 344 rats.

Author

George SE, Chadwick RW, Kohan MJ, Allison JC, Williams RW, and Chang J

Subjects
Animals, Biotransformation, Dinitrobenzenes pharmacokinetics, Germ-Free Life, Glucuronidase metabolism, Intestinal Mucosa metabolism, Intestine, Large metabolism, Intestine, Large microbiology, Intestine, Small metabolism, Intestine, Small microbiology, Male, Mutagenicity Tests, Nitroreductases metabolism, Rats, Rats, Inbred F344, Dinitrobenzenes urine, Intestines microbiology
Abstract

After male germ-free and conventionalized Fischer 344 rats were administered per os (p.o.) 75 mg/kg 2,6-DNT, intestinal nitroreductase, beta-glucuronidase, and azo reductase activities were lower in the cecum and large intestine of germ-free animals. However, there was no significant difference in the small intestinal nitroreductase and azo reductase compared to the conventionalized counterparts. This indicated a potential mucosal source for the enzymes. Urines from germ-free rats (1144 +/- 64 revertants/ml) were less mutagenic than those from conventionalized animals (1467 +/- 171 revertants/ml) in Salmonella typhimurium strain TA98 without S9. In the presence of S9, urine from conventionalized animals (894 +/- 56 revertants/ml) was more mutagenic than that from germ-free rats (686 +/- 60 revertants/ml). The presence of the intestinal flora plays an important role in the activation of 2,6-DNT but other metabolic pathways, such as the small intestinal mucosal and/or hepatic enzymes, are present that can generate excreted genotoxicants.

Published
1994
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11. Isolation and identification of strains of Bacteroides fragilis group from the digestive tract of Callithrix penicillata marmosets.

Author

Avila-Campos MJ, Raymundo NL, Farias LM, Silva SL, Carvalho MA, Damasceno CA, Pereira LH, and Cisalpino EO

Subjects
Animals, Female, Intestine, Large microbiology, Intestine, Small microbiology, Bacteroides fragilis isolation & purification, Callithrix microbiology, Callitrichinae microbiology, Dental Plaque microbiology, Intestines microbiology
Abstract

Thirty-five strains of the Bacteroides fragilis group were isolated from oral and intestinal samples from 5 wild caught, captive Callithrix penicillata. Nine oral strains of Bacteroides fragilis (7) and Bacteroides distasonis (2), and 26 intestinal strains of Bacteroides fragilis (14) and Bacteroides distasonis (12) were identified.

Published
1990
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12. [Quantitative and qualitative characteristics of representatives of the enterobacteriaceae family in postradiation intestinal dysbacteriosis].

Author

Pinegin BV, Korshunov VM, Ikonnikova TB, and Kissina EV

Subjects
Animals, Citrobacter radiation effects, Enterobacter radiation effects, Escherichia coli radiation effects, Gamma Rays, Intestine, Large microbiology, Intestine, Large radiation effects, Intestine, Small microbiology, Intestine, Small radiation effects, Intestines microbiology, Mice, Mice, Inbred CBA, Proteus radiation effects, Time Factors, Enterobacteriaceae radiation effects, Intestines radiation effects
Abstract

The irradiation of CBA mice with gamma quanta in a dose of 700 C/kg resulted in the development of postradiation intestinal dysbacteriosis in the animals. The dysbacteriosis was characterized by a considerable increase in the number of Escherichia and Proteus mirabilis in the large intestine and by the insemination of the small intestine with these microbial associations. Pr. vulgaris, Pr. morganii, Ent. aerogenes, Ent. cloacae, Citrobacter appeared in great numbers in the intestinal tract of the irradiated mice, while none of these organisms were found in the intact mice.

Published
1980

13. [Citrobacter persistence in the intestinal tract of guinea pigs depending on the microecological status].

Author

Pershin BB, Chakhava OV, Maganet LS, Novikova TA, and Shustrova NM

Subjects
Animals, Antibody Formation, Antigens, Bacterial analysis, Cecum microbiology, Citrobacter immunology, Female, Guinea Pigs, Hemagglutination Tests, Immunity, Immunization, Immunodiffusion, Intestine, Large microbiology, Intestine, Small microbiology, Intestines immunology, Salmonella typhi immunology, Citrobacter isolation & purification, Enterobacteriaceae isolation & purification, Intestines microbiology
Abstract

Gnotobiological studies were conducted on germ-free guinea pigs. Association of the animals with the citrobacteria 5396/38 strain led to the reproduction of these bacteria in numbers exceeding the sum total number of all the representatives of the normal microbial flora in the conventional animals. Association lasting for a period of 46 days caused no antibody formation in the blood serum of these animals in difference to conventional guinea pigs immunized parenterally. Conventionalization of the monoflora guinea pigs served as the beginning of population of the intestinal tract by other microbial representatives which replaced the first culture. Biochemical properties of the citrobacteria strains isolated from the monoflora strains were identical to the properties of the initial culture. After the monoflora animals were let out of the isolation cage the citrobacteria strains displayed changes of some differential-diagnostic signs. Passage through the macroorganism of the citrobacteria stain proved to lead to the changes in the antigenic structure.

Published
1975

14. [Physiology and pathology of intestinal bacteria].

Author

Prizont R

Subjects
Humans, Intestinal Diseases microbiology, Intestinal Diseases, Parasitic parasitology, Intestine, Large microbiology, Intestine, Small microbiology, Intestines microbiology
Published
1979

15. Some factors associated with geographical variations in the intestinal microflora.

Author

Drasar BS

Subjects
Anti-Bacterial Agents, Diet, England, Feces microbiology, Humans, Immunity, India, Intestinal Mucosa physiology, Intestinal Secretions physiology, Intestine, Large microbiology, Intestine, Small microbiology, Japan, Racial Groups, Scotland, Species Specificity, Tropical Climate, Uganda, United States, Bacteria isolation & purification, Intestines microbiology
Published
1974

16. Natural infection with an attaching and effacing Escherichia coli in the small and large intestines of a calf with diarrhoea.

Author

Pearson GR, Watson CA, Hall GA, and Wray C

Subjects
Animals, Bacterial Adhesion, Cattle, Cattle Diseases pathology, Diarrhea microbiology, Diarrhea pathology, Escherichia coli ultrastructure, Escherichia coli Infections microbiology, Escherichia coli Infections pathology, Immunoenzyme Techniques, Intestine, Large microbiology, Intestine, Large pathology, Intestine, Large ultrastructure, Intestine, Small microbiology, Intestine, Small pathology, Intestine, Small ultrastructure, Intestines pathology, Intestines ultrastructure, Microscopy, Electron, Microscopy, Electron, Scanning, Cattle Diseases microbiology, Diarrhea veterinary, Escherichia coli metabolism, Escherichia coli Infections veterinary, Intestines microbiology
Abstract

Attaching and effacing Escherichia coli were identified in the small and large intestine of a calf with naturally occurring diarrhoea. The organisms were associated with intestinal lesions and were identified by immunoperoxidase staining and transmission and scanning electron microscopy, but they did not produce Shiga-like toxin (verotoxin).

Published
1989
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17. Normalizing effect of immunoglobulins in the treatment of endogenous infection and intestinal dysbacteriosis in irradiated mice.

Author

Klemparskaya NN, Pinegin BV, Shal'nova GA, Korshunov VM, Mal'tsev VN, Glad'ko IA, Kuz'mina TD, Ulanova AM, Dobronravova NN, and Yermolov VV

Subjects
Animals, Bacteria growth & development, Bacterial Infections etiology, Female, Immunoglobulin G therapeutic use, Immunoglobulin M therapeutic use, Intestine, Large microbiology, Intestine, Small microbiology, Male, Mice, Mice, Inbred CBA, Whole-Body Irradiation, Bacterial Infections therapy, Immunization, Passive, Intestines microbiology, Radiation Injuries, Experimental complications
Abstract

It has been demonstrated in experiments on 2160 CBA mice and mice of mixed breed, irradiated by LD90/30, that therapeutical administration (subcutaneous or intraperitoneal) of immunoglobulins - homologous (polyglobulin, IgG, IgM) or heterologous - polyglobulin, IgG (from human, equine, canine blood) repeated three times, i.e., 2, 24 and 48 hours after irradiation, not only induces longer survival, but also shows a normalizing effect on the commonly developing dysbacteriosis and increased amount of intestinal microflora and, in addition, leads to suppression of postirradiation endogenous infection. Enterobacteria, enterococci, staphylococci, yeasts, disappear from the small intestine or their quantity decreases substantially in treated irradiated mice in contrast to untreated irradiated mice. In the large intestine, the amount of these organisms decreases considerably while the content of lactobacteria increases; no microbes can be found in the internal organs and in blood (or their content is small). Other conditions being equal, homologous immunoglobulins are more efficient in comparison with heterologous, this applying also to preparations containing normal antibodies to tissues.

Published
1987

18. Origin of intestinal beta-glucuronidase in germfree, monocontaminated and conventional rats.

Author

Rod TO and Midtvedt T

Subjects
Animals, Cecum enzymology, Cecum microbiology, Escherichia coli, Intestine, Large enzymology, Intestine, Large microbiology, Intestine, Small enzymology, Intestine, Small microbiology, Intestines microbiology, Rats, Streptococcus pyogenes, Germ-Free Life, Glucuronidase analysis, Intestines enzymology
Abstract

The intestinal beta-glucoronidase was studied in germfree, monocontaminated and conventional rats. The greater part of the beta-glucuronidase of the caecum and the large intestine of the contaminated animals was of bacterial origin. No bacterial beta-glucuronidase was found in the small intestine. Monocontamination with Escherichia coli gave activities corresponding to those of the conventional rats, whereas content from the caecum and the large intestine of the rats monocontaminated with Streptococcus pyogenes showed an activity approximately 10 per cent of that of the conventional rats.

Published
1977
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19. Effect of lactose on delta 5-steroid-reducing activity of intestinal bacteria in gnotobiotic rats.

Author

Eyssen H, De Pauw G, and Parmentier G

Subjects
Animals, Body Weight, Cholesterol blood, Cholesterol metabolism, Clostridium metabolism, Escherichia coli metabolism, Eubacterium metabolism, Feces analysis, Female, Intestine, Large microbiology, Lactose metabolism, Liver metabolism, Organ Size, Oxidation-Reduction, Rats, Starch metabolism, Sterols metabolism, Dietary Carbohydrates metabolism, Germ-Free Life, Intestines microbiology, Lactose pharmacology, Oxidoreductases metabolism
Published
1974
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20. Metabolic interactions among intestinal microorganisms.

Author

Wolin MJ

Subjects
Aerobiosis, Anaerobiosis, Animals, Bacteroides metabolism, Carbohydrate Metabolism, Cellulose metabolism, Culture Media, Ecology, Fermentation, Humans, Intestine, Large microbiology, Rumen microbiology, Streptococcus metabolism, Veillonella metabolism, Vibrio metabolism, Bacteria metabolism, Intestines microbiology
Published
1974
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22. Development of the normal gastrointestinal microflora of specific pathogen-free chickens.

Author

Coloe PJ, Bagust TJ, and Ireland L

Subjects
Animals, Bacteria isolation & purification, Bacteroides growth & development, Cecum microbiology, Clostridium growth & development, Culture Media, Enterobacteriaceae growth & development, Eubacterium growth & development, Intestine, Large microbiology, Intestine, Small microbiology, Lactobacillus growth & development, Streptococcaceae growth & development, Time Factors, Bacteria growth & development, Chickens microbiology, Germ-Free Life, Intestines microbiology, Specific Pathogen-Free Organisms
Abstract

The development of the normal intestinal microflora of the small intestine, caecum and large intestine of specific pathogen-free (SPF) chickens, was studied in the period from hatching to 84 days of age. No bacteria were detected in any of the sites at hatchery (day 1), but by day 3 significant levels of faecal streptococci and coliforms were isolated from all sites. The flora of the small intestine was limited to faecal streptococci and coliforms for the first 40 days and then lactobacilli became established and dominated the flora. A large variety of facultative and strictly anaerobic organisms colonized the caecum. Many of these species were transient and were only present for a limited period; after 40 days the flora stabilized to consist predominantly of faecal streptococci, Escherichia coli, Bacteroides spp. and Lactobacillus sp. The flora of the large intestine was composed of organisms also present in the small intestine or the caecum. These findings differ from previously published studies on conventionally reared chickens in that the number of species isolated and the population levels of organisms are much lower. This probably reflects the absence of continuous environmental challenge to the chickens because of the housing and feeding facilities in which the chickens were maintained.

Published
1984
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23. [Intestinal autoflora as an indicator of the severity of radiation lesion].

Author

Mal'tsev VN and Pinegin BV

Subjects
Acute Disease, Animals, Dose-Response Relationship, Radiation, Immunity, Innate radiation effects, Intestine, Large microbiology, Intestine, Small microbiology, Mathematics, Mice, Rats, Regression Analysis, Time Factors, Intestines microbiology, Radiation Injuries, Experimental microbiology
Published
1978

25. [Role of the digestive flora in adaptation to lactose consumption in rats].

Author

Adrian J and Frangne R

Subjects
Animals, Cecum enzymology, Cecum microbiology, Ileum enzymology, Ileum microbiology, Intestine, Large enzymology, Intestine, Large microbiology, Intestines enzymology, Jejunum enzymology, Jejunum microbiology, Male, Rats, Dietary Carbohydrates, Galactosidases metabolism, Intestines microbiology, Lactose administration & dosage, beta-Galactosidase metabolism
Abstract

Part of the digestive flora in the adaptation to lactose consumption. Lactase activity was determined with adult Wistar rats. Some of which were accustomed to lactose since weaning. For this purpose, the tissue of jejunum, the flora of the ileum, the caecum and the large intestine were examined. When the rats received a high lactose diet, the lactase of the jejunum is more active because of both the intestinal tissue development and a higher production of enzyme by protein unit. But the main source of lactase is the digestive flora of the animal: a lactase flora develops in the ileum, the large intestine and mainly the caecum. The caecum lactase represents about half of the total lactase activity. The flora of the animal which has not consumed lactose since weaning can develop a noticeable lactase activity after 7 hr of incubation in presence of lactose. It is also the caecum flora which shows the greatest capacity of adaptation to lactose.

Published
1978

28. Kanamycin in pre-operative bowel sterilisation.

Author

Edmond P

Subjects
Humans, Neomycin pharmacology, Preoperative Care, Colectomy, Intestine, Large microbiology, Intestines, Kanamycin pharmacology, Rectum surgery, Sulfathiazoles pharmacology
Published
1967

31. Microbial intestinal flora in acute diarrheal disease.

Author

Cohen R, Kalser MH, Arteaga I, Yawn E, Frazier D, Leite CA, Ahearn DG, and Roth F

Subjects
Adult, Aged, Diarrhea etiology, Female, Fungi isolation & purification, Humans, Intestine, Large microbiology, Intestine, Small microbiology, Intestines isolation & purification, Male, Middle Aged, Viruses isolation & purification, Diarrhea microbiology, Intestines microbiology
Published
1967

33. Pre-operative bowel sterilisation.

Author

Burn JI, Sellwood RA, Okubadejo OA, and Welbourn RB

Subjects
Humans, Preoperative Care, Sterilization, Surgical Wound Infection prevention & control, Anti-Bacterial Agents pharmacology, Colectomy, Intestine, Large microbiology, Intestines, Sulfathiazoles pharmacology
Published
1967

34. Intestinal microflora in a chronic carrier of Vibrio cholerae.

Author

Gorbach SL, Banwell JG, Pierce NF, Chatterjee BD, and Mitra RC

Subjects
Adult, Biopsy, Colon microbiology, Escherichia coli, Feces microbiology, Gallbladder microbiology, Humans, Intestinal Secretions microbiology, Intestine, Large microbiology, Intestine, Small microbiology, Intestine, Small pathology, Male, Polymyxins therapeutic use, Tetracycline therapeutic use, Vibrio, Vibrio Infections drug therapy, Vitamin B 12 metabolism, Xylose metabolism, Intestines microbiology, Vibrio Infections microbiology
Published
1970
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36. [Restoration of intestinal eubiosis in patients with chronic colitis and enterocolitis].

Author

Kudinova TI, Ekisenina NI, and Semenikhina VF

Subjects
Chronic Disease, Colitis therapy, Culture Media, Diet, Enteritis therapy, Enterobacteriaceae isolation & purification, Feces microbiology, Freeze Drying, Humans, Intestine, Large microbiology, Lactobacillus acidophilus, Colitis microbiology, Enteritis microbiology, Intestines microbiology
Published
1973

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