about
Characterization of yeast extracellular vesicles: evidence for the participation of different pathways of cellular traffic in vesicle biogenesisHistoplasma capsulatum heat-shock 60 orchestrates the adaptation of the fungus to temperature stressCapsules from pathogenic and non-pathogenic Cryptococcus spp. manifest significant differences in structure and ability to protect against phagocytic cellsA role for LHC1 in higher order structure and complement binding of the Cryptococcus neoformans capsuleCapsule growth in Cryptococcus neoformans is coordinated with cell cycle progression.Cryptococcus neoformans responds to mannitol by increasing capsule size in vitro and in vivo.Bacillus anthracis produces membrane-derived vesicles containing biologically active toxins.Evidence for branching in cryptococcal capsular polysaccharides and consequences on its biological activity.A Paracoccidioides brasiliensis glycan shares serologic and functional properties with cryptococcal glucuronoxylomannan.Chronological aging is associated with biophysical and chemical changes in the capsule of Cryptococcus neoformansA Monoclonal Antibody to Cryptococcus neoformans Glucuronoxylomannan Manifests Hydrolytic Activity for Both Peptides and Polysaccharides.Fungal polysaccharides: biological activity beyond the usual structural properties.Biogenesis of extracellular vesicles in yeast: Many questions with few answers.N-acetylglucosamine affects Cryptococcus neoformans cell-wall composition and melanin architecture.The benefits of scientific mobility and international collaboration.The Capsule of Cryptococcus neoformans.Titan cells formation in Cryptococcus neoformans is finely tuned by environmental conditions and modulated by positive and negative genetic regulators.The Buoyancy of Is Affected by Capsule SizeDemonstration of Antibiofilm and Antifungal Efficacy of Chitosan against Candidal Biofilms, Using an In Vivo Central Venous Catheter ModelMelanin for space travel radioprotectionCell-wall dyes interfere with Cryptococcus neoformans melanin depositionMelanization in Cryptococcus neoformans Requires Complex RegulationImpact of Yeast Pigmentation on Heat Capture and Latitudinal DistributionFunctions of fungal melanin beyond virulenceThe structural unit of melanin in the cell wall of the fungal pathogen Cryptococcus neoformansMelanin deposition in two Cryptococcus species depends on cell-wall composition and flexibilitySodium butyrate inhibits pathogenic yeast growth and enhances the functions of macrophages
P50
Q28474369-4B2B5FC1-83F3-4F9D-9547-949749B8F461Q28477126-B5C51EFC-7D3E-4298-936E-86AF6556E13DQ28478860-3D72F2F7-FFAA-4734-8272-52E6CCA5623AQ28538344-118C6C47-CAE7-46B7-A2F0-C90BDA581F90Q33751817-39D50368-954D-4DF0-AC14-4ACB8F1F01C3Q33939999-9E1F63F3-E1C5-484F-8A99-6C18BBE56541Q34279040-06DF3763-AD01-46D0-8E04-57CCCAE7E38BQ34561087-475E678D-CB12-4FB9-AA38-19C08851B95CQ34907746-949A6A36-8D6D-42BD-A5AB-BD3FC654B703Q35598044-DE06EA73-FE88-4227-AF95-F94782117703Q38290090-BFB7602E-7450-4444-992A-D41F195980A2Q42025211-646613CD-F786-443F-BFEA-7D47505A3328Q42598074-64601ED3-24B4-4812-88F0-5A90C7EDF46BQ48523776-9B2F01DF-0B14-4637-AF40-2C1B8E11C4C9Q48755649-39C23701-D1C4-4F3E-894D-4A97CF9B7ED5Q50046707-3279B936-F97F-446D-B22E-2B3E6F053E07Q55032452-443F74FB-F9D0-43C2-9149-0A1392CAF653Q58599419-F7407549-4F0C-43C3-8DE9-39B7D1737069Q62736134-D7C365F1-E55F-4016-909F-E3F919BC3AB1Q87857127-1DABDE92-D2C8-4378-9933-07C585B0CC40Q89231378-0EE4A506-7899-48DA-A307-CE3AF1B3C3EBQ89531355-622D881E-842E-446C-8A3A-DB9E5640A5D9Q90760705-1F52C538-36B2-46A3-9ECA-AF2EBB7936C3Q90931619-394D1860-0D83-4D1A-8D15-BFA3DE556690Q92225544-261B8D58-1CFE-4CBF-899A-AFD59BD816F5Q92379386-8F1C48D5-861F-4DB0-B32E-429D7E997EF8Q95380657-5E16986D-0ABB-4CD8-95AD-7E12B196A182
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Radames J B Cordero
@en
Radames J B Cordero
@nl
type
label
Radames J B Cordero
@en
Radames J B Cordero
@nl
prefLabel
Radames J B Cordero
@en
Radames J B Cordero
@nl
P31
P496
0000-0002-3026-7094