Search results for "Cryptosporidium"

showing 10 items of 41 documents

Structure of the Cryptosporidium parvum microneme: a metabolically and osmotically labile apicomplexan organelle.

2003

From an EM study of thin sections, the rod-like microneme organelles within conventionally glutaraldehyde fixed Cryptosporidium parvum sporozoites have been shown to undergo a shape change to a more spherical structure when the sporozoites age in vitro for a period of approximately 12 to 24 h. This correlates with the shape change of intact sporozoites, from motile hence viable thin banana-shaped cells to swollen pear-shaped cells, shown by differential interference contrast light microscopy of unstained unfixed and glutaraldehyde-fixed samples, as well as by thin section EM of fixed sporozoites. From negatively stained EM specimens of unfixed and fixed sporozoites the cellular shape change…

Cryptosporidium parvumOrganellesOsmosisCryoelectron MicroscopyOocystsGeneral Physics and AstronomyCell BiologyBiologybiology.organism_classificationCell FractionationNegative stainMicrobiologyCell biologyStainingMicronemeApicomplexaCryptosporidium parvumDifferential interference contrast microscopyStructural BiologyOrganelleUltrastructureAnimalsGeneral Materials ScienceCattlesense organsMicron (Oxford, England : 1993)
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Ultrastructure, fractionation and biochemical analysis of Cryptosporidium parvum sporozoites.

1999

Abstract Sporozoites of the apicomplexan parasite Cryptosporidium parvum were subjected to cell disruption and subcellular fractionation using a sucrose density step gradient. With this procedure, highly enriched preparations of the parasite membrane, the micronemes, dense granules and amylopectin granules were produced. No separate fraction containing rhoptries was obtained, however this organelle was found in defined fractions of the gradient, still associated with the apical tip of the sporozoites. Using negative staining, the internal structure of the micronemes was revealed by transmission electron microscopy. Micronemes and dense granules showed characteristic protein compositions by …

Cryptosporidium parvumOrganellesRhoptryProtozoan ProteinsCattle DiseasesCryptosporidiosisBiologybiology.organism_classificationCell FractionationNegative stainApicomplexaMicronemeMicroscopy ElectronInfectious DiseasesCryptosporidium parvumBiochemistryOrganelleUltrastructureCentrifugation Density GradientAnimalsParasitologyCattleElectrophoresis Polyacrylamide GelCell fractionationInternational journal for parasitology
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Laboratory Diagnosis of <i>Cryptosporidium parvum</i> Infection

2000

Cryptosporidium parvumbiologybusiness.industryMedicinebusinessbiology.organism_classificationVirologyMicrobiologySerology
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Differential expression of Cryptosporidium parvum genes encoding sporozoite surface antigens in infected HCT-8 host cells.

2006

Intracellular replication of Cryptosporidium parvum (Apicomplexa) involves the generation of several asexual and sexual forms of the parasite. During the stage conversions, complex mechanisms lead to differential structural and functional properties of the parasite. These require a well tuned gene transcription machinery. For the first time the gene expression of four surface proteins of C. parvum sporozoites, CP15, CP17, P23, and GP900 were analysed in parallel by reverse transcription polymerase chain reaction. In addition, CP17 and P23 antigens were detected in infected host cells by immunofluorescence using antisera raised against recombinant forms of the proteins. The results show that…

CytoplasmTime FactorsTranscription GeneticImmunologyGenes ProtozoanProtozoan ProteinsFluorescent Antibody TechniqueAntigens ProtozoanBiologyImmunofluorescenceMicrobiologyApicomplexaAntigenCell Line Tumorparasitic diseasesGene expressionmedicineAnimalsHumansRNA MessengerGeneCryptosporidium parvumMembrane Glycoproteinsmedicine.diagnostic_testReverse Transcriptase Polymerase Chain Reactionbiology.organism_classificationMolecular biologyAdaptation PhysiologicalReverse transcription polymerase chain reactionInfectious DiseasesReal-time polymerase chain reactionCryptosporidium parvumGene Expression RegulationAntigens SurfaceRNA ProtozoanMicrobes and infection
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Characterisation of a Cryptosporidium parvum-specific cDNA clone and detection of parasite DNA in mucosal scrapings of infected mice.

1998

A cDNA library was constructed using total RNA extracted from oocysts and sporozoites of the protozoan parasite Cryptosporidium parvum. The expression library was screened with an anti-C. parvum antiserum and a clone, Cp3.4, with a 2043 bp insert, was extracted. Southern blot analysis demonstrated a single copy gene that was located on a 1.6 Mb chromosome. The gene was found to be C. parvum specific as Cp3.4 did not cross-hybridise with chromosomal DNA from three other apicomplexan parasites. The cDNA encodes a polypeptide with a predicted membrane helix at its C-terminal end which is flanked by stretches of acidic amino acids. Overall, the polypeptide has a low isoelectric point (pI) of 3.…

DNA ComplementaryGenes ProtozoanMolecular Sequence DataProtozoan ProteinsCryptosporidiosisBiologyMolecular cloninglaw.inventionMicelawIleumComplementary DNAparasitic diseasesParasite hostingAnimalsAmino Acid SequenceRNA MessengerCloning MolecularIntestinal MucosaMolecular BiologyGenePolymerase chain reactionSouthern blotRepetitive Sequences Nucleic AcidCryptosporidium parvumcDNA libraryReverse Transcriptase Polymerase Chain ReactionChromosome MappingSequence Analysis DNADNA Protozoanbiology.organism_classificationMolecular biologyElectrophoresis Gel Pulsed-FieldBlotting SouthernCryptosporidium parvumParasitologyRNA ProtozoanMolecular and biochemical parasitology
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Immunodetection of the microvillous cytoskeleton molecules villin and ezrin in the parasitophorous vacuole wall of Cryptosporidium parvum (Protozoa: …

1999

Microvilli - actin - villin - ezrin - Cryptosporidium parvum The sporozoites and merozoites of the Apicomplexan protozoan Cryptosporidium parvum (C. parvum) invade the apical side of enterocytes and induce the formation of a parasitophorous vacuole which stays in the brush border area and disturbs the distribution of microvilli. The vacuole is separated from the apical cytoplasm of the cell by an electron-dense layer of undetermined composition. In order to characterize the enterocyte cytoskeleton changes that occur during C. parvum invasion and development, we used both confocal immunofluorescence and immunoelectron microscopy to examine at the C.parvum-enterocyte interface the distributio…

Feces/microbiologyIntestines/parasitologyMicrofilament Proteins/ analysisVacuoleddc:616.07Actins/analysisRats Sprague-DawleyFecesMiceEzrinCarrier Proteins/ analysisCryptosporidium/ chemistry/pathogenicity/ultrastructureCytoskeletonMicroscopy ImmunoelectronCytoskeletonMice Inbred BALB CMicroscopy ConfocalbiologyMicrovilliMicrofilament ProteinsCytoskeleton/ chemistryGeneral MedicineCell biologyIntestinesCryptosporidium parvumFemaleVillinHistologyImmunoelectron microscopyVacuoles/ultrastructurePhosphoproteins/ analysisCryptosporidiummacromolecular substancesPathology and Forensic Medicineparasitic diseasesAnimalsApical cytoplasmActinCell Biologybiology.organism_classificationPhosphoproteinsActinsRatsMicrovilli/ chemistryCytoskeletal ProteinsMicroscopy ElectronVacuolesbiology.proteinCarrier ProteinsEuropean journal of cell biology
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Descrizione di una tecnica per la ricerca di cisti di Giardia e di oocisti di Cryptosporidium in vegetali freschi contaminati sperimentalmente

2006

Giardia Cryptosporidium oocisti vegetali freschi
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Presenza di cisti di Giardia e oocisti di Cryptosporidium in piscine della provincia di Palermo.

2006

Giardia cryptosporidium piscine palermo.Settore MED/42 - Igiene Generale E Applicata
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Survey of the occurrence of Giardia duodenalis cysts and Cryptosporidium spp. oocysts in green leafy vegetables marketed in the city of Valencia (Spa…

2022

The role of vegetables usually consumed without prior culinary treatment is known to contribute to the prevalence of foodborne diseases. Cysts and oocysts can contaminate food, which can then be the source of infection in humans. The aim of the study was to assess the occurrence of Giardia duodenalis and Cryptosporidium spp. (oo) cysts in green leafy vegetables marketed in the city of Valencia (Spain) combining parasitological methods, two real-time qPCRs and light microscopy. An experimental field study was conducted on 129 vegetable samples, 64 from conventional farms and 65 from ecological (organic) farms. The samples were washed with water, and the resulting solution after removing the …

GiardiasisParàsitsGiardiaOocystsCryptosporidiosisCryptosporidiumWaterGeneral MedicineProductes vegetalsMicrobiologyAliments MicrobiologiaIntoxicació alimentàriaSpainVegetablesAnimalsHumansGiardia lambliaFood Science
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Amylopectin: a major component of the residual body inCryptosporidium parvumoocysts

2004

Amylopectin is used for carbohydrate storage in different life-stages of a number of apicomplexan parasites. We have performed an ultrastructural analysis of amylopectin granules from the oocyst residual body and sporozoites ofCryptosporidium parvum. Amylopectin granules were studiedin situand after isolation from ‘French’ press disrupted parasites, by conventional transmission electron microscopy (TEM) of sectioned oocysts and various negative staining and cryoelectron microscopy techniques. Within the membrane-enclosed oocyst residuum large amylopectin granules (0·1–0·3 μm) can be found besides a characteristic large lipid body and a crystalline protein inclusion. Smaller granules were de…

Glycoside HydrolasesAmylopectinResidual bodyBiologylaw.inventionchemistry.chemical_compoundCell WalllawAnimalsCryptosporidium parvumCryoelectron MicroscopyOocystsfood and beveragesbiology.organism_classificationNegative stainStainingcarbohydrates (lipids)Microscopy ElectronInfectious DiseasesCryptosporidium parvumBiochemistrychemistryAmylopectinUltrastructureCarbohydrate storageAnimal Science and ZoologyParasitologyElectron microscopeParasitology
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