0000000000460876

AUTHOR

José De La Fuente

showing 9 related works from this author

A retrospective study of the characterization of Rickettsia species in ticks collected from humans

2017

Rickettsiae (family Rickettsiaceae, order Rickettsiales) are obligate intracellular bacteria transmitted by arthropod vectors. Several Rickettsia species causing vector-borne rickettsioses belong to the spotted fever group (SFG). Traditionally, Rickettsia conorii has been considered as the main etiologic agent of Mediterranean spotted fever. However, the molecular characterization of rickettsiae allowed identifying other species involved in spotted fever in the Mediterranean region. In this study, 42 ticks collected from humans were subjected to morphological identification and molecular characterization of Rickettsia species potentially involved in human rickettsiosis in Sicily. Fourteen t…

0301 basic medicineanimal structuresRhipicephalus sanguineusHyalomma marginatum030231 tropical medicine030106 microbiologyBacterial ProteinTickTicks rickettsia spotted fever group humans zoonosis molecular analysisMicrobiologyMicrobiology03 medical and health sciencesZoonosis0302 clinical medicineTicksBacterial ProteinsZoonosiRetrospective Studieparasitic diseasesmedicineAnimalsHumansRickettsiaSicilyRetrospective StudiesRickettsia massiliaebiologyMolecular analysiAnimalMolecular analysisRickettsia InfectionRickettsia Infectionsbiology.organism_classificationmedicine.diseasebacterial infections and mycosesSpotted feverRickettsiaRickettsiosisInfectious DiseasesInsect ScienceSpotted fever groupbacteriaParasitologyRickettsia conoriiHumanTick
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Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

2016

Seuls les 100 premiers auteurs dont les auteurs INRA ont été entrés dans la notice. La liste complète des auteurs et de leurs affiliations est accessible sur la publication.; International audience; In 2008 we published the first set of guidelines for standardizing research in autophagy. Since then, research on this topic has continued to accelerate, and many new scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Accordingly, it is important to update these guidelines for monitoring autophagy in different organisms. Various reviews have described the range of assays that have been used for this purpose. Nevertheless, there continues…

[SDV]Life Sciences [q-bio]autophagosomeReview Articleddc:616.07stressstreLC3MESH: AnimalsSettore MED/49 - Scienze Tecniche Dietetiche ApplicateSettore BIO/06 - Anatomia Comparata E Citologiachaperone-mediated autophagyComputingMilieux_MISCELLANEOUSSettore BIO/11Pharmacology. TherapySettore BIO/13standards [Biological Assay]autolysosomeMESH: Autophagy*/physiologylysosomemethods [Biological Assay]Biological AssaySettore BIO/17 - ISTOLOGIAErratumHumanBiochemistry & Molecular BiologySettore BIO/06physiology [Autophagy]Chaperonemediated autophagy[SDV.BC]Life Sciences [q-bio]/Cellular BiologyNOautophagy guidelines molecular biology ultrastructureautolysosome; autophagosome; chaperone-mediated autophagy; flux; LC3; lysosome; macroautophagy; phagophore; stress; vacuoleMESH: Biological Assay/methodsMESH: Computer Simulationddc:570Autolysosome Autophagosome Chaperonemediated autophagy Flux LC3 Lysosome Macroautophagy Phagophore Stress VacuoleAutophagyAnimalsHumansComputer SimulationSettore BIO/10ddc:612BiologyphagophoreMESH: HumansvacuoleAnimalLC3; autolysosome; autophagosome; chaperone-mediated autophagy; flux; lysosome; macroautophagy; phagophore; stress; vacuole; Animals; Biological Assay; Computer Simulation; Humans; Autophagy0601 Biochemistry And Cell BiologyfluxmacroautophagyMESH: Biological Assay/standards*Human medicineLC3; autolysosome; autophagosome; chaperone-mediated autophagy; flux; lysosome; macroautophagy; phagophore; stress; vacuole
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Immune response to tick-borne hemoparasites: Host adaptive immune response mechanisms as potential targets for therapies and vaccines

2020

This article belongs to the Section Molecular Immunology.

0301 basic medicineChemokine030106 microbiologyReviewAdaptive ImmunityBiologyCatalysisEpitopeInorganic Chemistry03 medical and health sciencesImmune systemAntigenmedicineAnimalsHumansCytotoxic T cellPhysical and Theoretical ChemistryAntigensMolecular BiologySpectroscopyVaccinesHost Microbial InteractionsEffectorOrganic ChemistryGeneral MedicineT helper cellAcquired immune systemTick-borne hemoparasitesComputer Science Applications030104 developmental biologymedicine.anatomical_structureAdaptive immune response Antigens Tick-borne hemoparasitesTick-Borne DiseasesImmunologybiology.proteinAdaptive immune response
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Recent Advances on the Innate Immune Response to Coxiella burnetii.

2021

Coxiella burnetii is an obligate intracellular Gram-negative bacterium and the causative agent of a worldwide zoonosis known as Q fever. The pathogen invades monocytes and macrophages, replicating within acidic phagolysosomes and evading host defenses through different immune evasion strategies that are mainly associated with the structure of its lipopolysaccharide. The main transmission routes are aerosols and ingestion of fomites from infected animals. The innate immune system provides the first host defense against the microorganism, and it is crucial to direct the infection towards a self-limiting respiratory disease or the chronic form. This review reports the advances in understanding…

Microbiology (medical)LipopolysaccharidesImmunologyexperimental modelcytokine—immunological termsQ feverimmunotherapeuticReviewMicrobiologyMicrobiologyImmune systemCellular and Infection MicrobiologyToll-like receptorinflammasomeautophagiamedicineAnimalsHumansPathogeninnate immunityInnate immune systemObligatebiologyTransmission (medicine)MacrophagesInflammasomeCoxiella burnetiibiology.organism_classificationmedicine.diseasebacterial infections and mycosesImmunity InnateQR1-502Toll-like receptorsimmunotherapeuticsInfectious DiseasesCoxiella burnetiibacteriaQ Fevercytokine—immunological termmedicine.drug
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Development and validation of two PCR tests for the detection of and differentiation between Anaplasma ovis and Anaplasma marginale

2012

Anaplasma ovis and Anaplasma marginale are tick-transmitted bacteria that cause anaplasmosis in domestic and wild animals. Recent results show that some domestic and wild animals and ticks are susceptible to both A. ovis and A. marginale, thus supporting the need to differentiate between these species in hosts and ticks diagnosed with Anaplasma infection. However, although anaplasmosis is one of the most common diseases of grazing animals worldwide, rapid and effective tests are not available for the detection of and discrimination between these 2 Anaplasma species. The objective of this research was to develop an easy and reliable method to identify and discriminate between the closely rel…

DNA BacterialVeterinary MedicineAnaplasmosisAnaplasmaSequence analysisMolecular Sequence DataMicrobiologySensitivity and SpecificityBacterial geneticslaw.inventionMajor surface protein 4Bacterial Proteinslawparasitic diseasesAnaplasma Diagnostics major surface protein 4 Polymerase Chain ReactionmedicineAnimalsAnaplasmaPathogenOvisDiagnosticsPolymerase chain reactionDNA PrimersBacteriological TechniquesbiologyAnaplasma ovisAnaplasma ovisSequence Analysis DNAbiology.organism_classificationmedicine.diseaseVirologyPolymerase chain reactionAnaplasma marginaleInfectious DiseasesMolecular Diagnostic TechniquesInsect ScienceParasitologyAnaplasmosis
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Guidelines for the Direct Detection ofAnaplasmaspp. in Diagnosis and Epidemiological Studies

2017

The genus Anaplasma (Rickettsiales: Anaplasmataceae) comprises obligate intracellular Gram-negative bacteria that are mainly transmitted by ticks, and currently includes six species: Anaplasma bovis, Anaplasma centrale, Anaplasma marginale, Anaplasma phagocytophilum, Anaplasma platys, and Anaplasma ovis. These have long been known as etiological agents of veterinary diseases that affect domestic and wild animals worldwide. A zoonotic role has been recognized for A. phagocytophilum, but other species can also be pathogenic for humans. Anaplasma infections are usually challenging to diagnose, clinically presenting with nonspecific symptoms that vary greatly depending on the agent involved, th…

10078 Institute of ParasitologyDirect diagnosis0301 basic medicineAnaplasma platysAnaplasmosisAnaplasmaAnaplasma bovisanimal diseases030231 tropical medicine610 Medicine & healthMicrobiology03 medical and health sciencesTicks0302 clinical medicine600 TechnologyZoonosesVirologyparasitic diseasesmedicineAnimalsHumansAnaplasmaInfecções Sistémicas e ZoonosesMicroscopybiologyIn vitro isolationAnaplasma ovis2404 Microbiology2725 Infectious DiseasesAnaplasma spp.bacterial infections and mycosesbiology.organism_classificationmedicine.diseaseVirologyAnaplasma phagocytophilumAnaplasmataceaePCR030104 developmental biologyInfectious DiseasesVertebrate hosts2406 Virology570 Life sciences; biologybacteriaAnaplasmosisRickettsialesVector-Borne and Zoonotic Diseases
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Erratum

2016

Author(s): Klionsky, DJ; Abdelmohsen, K; Abe, A; Abedin, MJ; Abeliovich, H; Arozena, AA; Adachi, H; Adams, CM; Adams, PD; Adeli, K; Adhihetty, PJ; Adler, SG; Agam, G; Agarwal, R; Aghi, MK; Agnello, M; Agostinis, P; Aguilar, PV; Aguirre-Ghiso, J; Airoldi, EM; Ait-Si-Ali, S; Akematsu, T; Akporiaye, ET; Al-Rubeai, M; Albaiceta, GM; Albanese, C; Albani, D; Albert, ML; Aldudo, J; Algul, H; Alirezaei, M; Alloza, I; Almasan, A; Almonte-Beceril, M; Alnemri, ES; Alonso, C; Altan-Bonnet, N; Altieri, DC; Alvarez, S; Alvarez-Erviti, L; Alves, S; Amadoro, G; Amano, A; Amantini, C; Ambrosio, S; Amelio, I; Amer, AO; Amessou, M; Amon, A; An, Z; Anania, FA; Andersen, SU; Andley, UP; Andreadi, CK; Andrieu-Ab…

0301 basic medicineSettore BIO/06biologyCell Biology[SDV.BC]Life Sciences [q-bio]/Cellular Biologybiology.organism_classificationCell biologyInterpretation (model theory)03 medical and health sciencesArama030104 developmental biologyMolecular BiologyHumanitiesComputingMilieux_MISCELLANEOUS
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Innate immune response to tick-borne pathogens: Cellular and molecular mechanisms induced in the hosts

2020

This article belongs to the Special Issue Inflammasome.

0301 basic medicineInnate immune responseHost Defense MechanismReviewInflammasomelcsh:ChemistryTicksTheileriaTick borne pathogensRickettsialcsh:QH301-705.5SpectroscopyGene ontology analysisgene ontology analysisInflammasomeGeneral MedicineAcquired immune systemComputer Science ApplicationsTick-Borne DiseasesTumor necrosis factor alphamedicine.drugAnaplasma030106 microbiologyEhrlichiaBabesiaBiologyCatalysisMicrobiologyInorganic Chemistry03 medical and health sciencesAntigeninflammasomeparasitic diseasesmedicineAnimalsHumansPhysical and Theoretical ChemistryMolecular BiologyInnate immune systemOrganic Chemistrygene ontology analysibiology.organism_classificationImmunity InnateComplement systemInsect Vectors030104 developmental biologyRickettsialcsh:Biology (General)lcsh:QD1-999innate immune responsetick borne pathogens
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Rickettsia conorii Indian Tick Typhus Strain and R. slovaca in Humans, Sicily

2012

Letter to the Editor.-- et al.

Microbiology (medical)LetterSettore MED/17 - Malattie Infettivevector-borne infectionslcsh:MedicineBacteremiaBiologyTickBoutonneuse FeverMicrobiologylcsh:Infectious and parasitic diseasesBacterial proteinBacterial ProteinsSequence Homology Nucleic AcidmedicineHumanslcsh:RC109-216Letters to the EditorSicilyCiencias VeterinariasStrain (biology)RICKETTSIOSIS SICILY TICKlcsh:RMediterranean spotted feverMediterranean spotted fever (Boutonneuse fever)zoonosisIndian tick typhus strainmedicine.diseasebiology.organism_classificationVirologyrickettsiatickRickettsia slovacaBoutonneuse feverRickettsia conoriiInfectious DiseasesCIENCIAS AGRÍCOLASRickettsia slovacaepidemiology//purl.org/becyt/ford/4.3 [https]Rickettsia conorii//purl.org/becyt/ford/4 [https]TyphusMultilocus Sequence TypingEmerging Infectious Diseases
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