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Ilustrações Científicas

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Figure_1_finalEventos da mitofagia em eosinófilos imaturos

 

BONJOUR, K. et al. (2022) Mitochondrial Population in Mouse Eosinophils: Ultrastructural Dynamics in Cell Differentiation and Inflammatory Diseasesopen acc iconFront Cell Dev Biol.

 

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Figure_1_finalEstágios do desenvolvimento de eosinófilos observados pela Microscopia Eletrônica de Transmissão

 

BONJOUR, K. et al. (2022) Mitochondrial Population in Mouse Eosinophils: Ultrastructural Dynamics in Cell Differentiation and Inflammatory Diseasesopen acc iconFront Cell Dev Biol.

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Figure_1_finalSucessão ecológica no granuloma hepático de Schistosoma mansoni

 

MALTA, K. K. et al. (2021) Changing our view of the Schistosoma granuloma to an ecological standpoint. Biol Rev.

 

 

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Graphical_abst

Distribuição da proteína galectina-10 em eosinófilos humanos

 

MELO, R. C. N. et al. (2020) Galectin‐10, the protein that forms Charcot‐Leyden crystals, is not stored in granules but resides in the peripheral cytoplasm of human eosinophilsJ Leukoc Biol.

 

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WSI_wm

Whole slide imaging de granulomas em uma secção de fígado infectado com Schistosoma mansoni

 

MELO, R. C. N. et al. (2020) Whole slide imaging and its applications to histopathological studies of liver disorders.open acc iconFront Med. 

 

 

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EoSVs_wm

Morfologia das vesículas secretoras de eosinófilos humanos (Eosinophil Sombrero Vesicles)

 

CARMO, L. A. S. et al. (2018) Single-Cell Analyses of Human Eosinophils at High Resolution to Understand Compartmentalization and Vesicular Trafficking of Interferon-Gamma.open acc iconFront Immunol.

 

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PrintEstágios de desenvolvimento do grânulo secretor de eosinófilos humanos

 

MELO, R. C. N.; WELLER, P. F. (2018). Contemporary understanding of the secretory granules in human eosinophilsJ Leukoc Biol.

 

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bacteria vesicleLiberação de vesículas de membrana eterna por bactérias de ecossistemas aquáticos

 

GAMALIER, J. P. et al. (2017). Increased production of outer membrane vesicles by cultured freshwater bacteria in response to ultraviolet radiation.open acc iconMicrobiol Res.

 

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Print

Liberação de micro vesículas por eosinófilo humano ativado por estímulos inflamatórios

 

AKUTHOTA, P. et al. (2016). Extracellular Microvesicle Production by Human Eosinophils Activated by “Inflammatory” Stimuli.open acc iconFront Cell Dev Biol.

 

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LB hijacking_wm

Um modelo que explica o papel dos corpúsculos lipídicos durante infecções com diferentes patógenos intracelulares

 

ROINGEARD, P.; MELO, R. C. N. (2016). Lipid droplet hijacking by intracellular pathogens.open acc iconCell Microbiol.

 

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Print

Corpúsculos lipídicos se acumulam no citoplasma da célula hospedeira em resposta à interação com parasitas protozoários e favorecem a sobrevivência do parasito

 

TOLEDO, D. A. et al. (2016). Host Lipid Bodies as Platforms for Intracellular Survival of Protozoan Parasites.open acc iconFront Immunol.

 

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LB_PLoS

Formação de corpúsculos lipídicos induzida por diversos patógenos

 

DIAS, F. F. et al. (2014). The Intriguing Ultrastructure of Lipid Body Organelles Within Activated MacrophagesMicrosc Microanal.

 

 

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Cell

 Aumento da expressão de PPARγ e acúmulo de lipídeos durante a infecção por M. bovis BCG

 

ALMEIDA, P. E. et. al. (2014). Differential TLR2 downstream signaling regulates lipid metabolism and 2 cytokine production triggered by Mycobacterium bovis BCG infection.open acc iconBiochimica et Biophysica Acta.

 

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PMD 7-18-12

Efeitos biológicos das citocinas derivadas do eosinófilo na saúde e na doença

 

MELO, R. C. N. et al. (2013). Eosinophil-derived cytokines in health and disease: unraveling novel mechanisms of selective secretion. Allergy. PMID 23347072

 

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Untitled-1

Arquitetura tridimensional (3D) de corpúsculos lipídicos em eosinófilos humanos

 

MELO, R. C. N. et al. (2013). The internal architecture of leukocyte lipid body organelles captured by three-dimensional electron microscopy tomography.open acc iconPlos One.

 

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figure 4

Corpúsculo lipídico, estrutura e composição

 

MELO, R. C. N; DVORAK, A. M. (2012). Lipid Body–Phagosome Interaction in Macrophages during Infectious Diseases: Host Defense or Pathogen Survival Strategy?open acc iconPLoS Pathog.

 

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LB1

Comparação entre a membrana do corpúsculo lipídico e da membrana plasmática

 

MELO, R. C. N. et al. (2011). Lipid bodies in inflammatory cells: structure, function, and current imaging techniques.open acc iconJ Histochem Cytochem.

 

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Ativação de macrófagos inflamatórios do coração durante a infecção aguda pelo Trypanosoma cruzi

 

MELO, R. C. N. (2009). Acute heart inflammation: ultrastructural and functional aspects of macrophages elicited by Trypanosoma cruzi infection.open acc iconJ Cell Mol Med.

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