Search results for "zebrafish model"

showing 3 items of 3 documents

Preclinical models in oncological pharmacology: limits and advantages

2021

A wide range of experimental tumor models, each with distinct advantages and disadvantages, is nowadays available. Due to the inherent differences in their complexity and functionality, the choice of the model is usually dependent on the application. Thus, to advance specific knowledge, one has to choose and use appropriate models, which complexity is largely dependent on the hypotheses to test, that is on the objectives. Whatever the model chosen, the complexity of cancer is such that none of them will be able to fully represent it. In vitro tumor models have provided important tools for cancer research and still serve as low-cost screening platforms for drugs. The improved understanding o…

3D modelengineered mouse modelsmedicine.medical_specialty3D models3d modelcell linescell lineBiologyOncology; cell lines; 3D models; engineered mouse models; zebrafish models; immunocompromised mouse modelsengineered mouse modelzebrafish modelsOncologyOncology; cell lines; 3D models; engineered mouse models; zebrafish models; immunocompromised mouse models.medicineMedical physicsimmunocompromised mouse modelszebrafish model
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Dextran production by Lactobacillus sakei MN1 coincides with reduced autoagglutination, biofilm formation and epithelial cell adhesion

2017

40 p.-7 fig.-4 fig.supl.

0301 basic medicineVibrio anguillarumPolymers and Plastics030106 microbiologyBacterial AdhesionMicrobiology03 medical and health scienceschemistry.chemical_compoundLatilactobacillus sakeiMaterials ChemistryLactic acid bacteriaAnimalsVibrio anguillarumDextranZebrafish modelsZebrafishAutoagglutinationbiologyOrganic ChemistryBiofilmfood and beveragesDextransEpithelial CellsColonisationbiology.organism_classificationLactobacillus sakeiLactic acidMeat Products030104 developmental biologyDextranBiochemistrychemistryLeuconostoc mesenteroidesBiofilmsFermentationFermented FoodsFish probioticsBacteria
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Biofilms of Lactobacillus plantarum and Lactobacillus fermentum: Effect on stress responses, antagonistic effects on pathogen growth and immunomodula…

2016

IF 3.682; International audience; Few studies have extensively investigated probiotic functions associated with biofilms. Here, we show that strains of Lactobacillus plantarum and Lactobacillus fermentum are able to grow as biofilm on abiotic surfaces, but the biomass density differs between strains. We performed microtiter plate biofilm assays under growth conditions mimicking to the gastrointestinal environment. Osmolarity and low concentrations of bile significantly enhanced Lactobacillus spatial organization. Two L. plantarum strains were able to form biofilms under high concentrations of bile and mucus. We used the agar well-diffusion method to show that supernatants from all Lactobaci…

0301 basic medicineLimosilactobacillus fermentum[SDV]Life Sciences [q-bio][ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionProbiotic bacteriaResistanceEscherichia-coliZebrafish modelProbioticmedicine.disease_causeMonocyteslaw.inventionIn-vitroProbioticlawLactobacillusBileVibrio-choleraeZebrafishComputingMilieux_MISCELLANEOUSbiologySalmonella entericafood and beveragesInterleukin-10Salmonella entericaSulfonic-acidLactobacillus fermentum030106 microbiologyLactic-acid bacteriaMicrobiologyMicrobiologyImmunomodulation03 medical and health sciencesAntibiosisEscherichia coliPseudomonas-aeruginosa biofilmsmedicineAnimalsHumansEscherichia coliImmunomodulatory effectsTumor Necrosis Factor-alphaProbioticsBile-salt hydrolaseCommunitiesAntibiosisBiofilmbiochemical phenomena metabolism and nutritionbiology.organism_classificationImmunity InnateCulture MediaLactobacillus biofilmsMucus030104 developmental biologyBiofilms[SDV.AEN]Life Sciences [q-bio]/Food and NutritionLactobacillus plantarumLactobacillus plantarumFood ScienceFood Microbiology
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