2023
Clostridioides difficile ferrosome organelles combat nutritional immunity
Pi H, Sun R, McBride J, Kruse A, Gibson-Corley K, Krystofiak E, Nicholson M, Spraggins J, Zhou Q, Skaar E. Clostridioides difficile ferrosome organelles combat nutritional immunity. Nature 2023, 623: 1009-1016. PMID: 37968387, PMCID: PMC10822667, DOI: 10.1038/s41586-023-06719-9.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBacterial ProteinsCell MembraneClostridioides difficileClostridium InfectionsCryoelectron MicroscopyDisease Models, AnimalElectron Microscope TomographyFerric CompoundsHomeostasisHost Microbial InteractionsInflammationIntestinesIronLeukocyte L1 Antigen ComplexMiceMicrobial ViabilityOrganellesConceptsFerric uptake regulator FurCryo-electron tomographyRegulator FurGram-negative bacteriaMembrane proteinsNutritional immunityIron uptakeCellular membranesDetoxification strategiesIron homeostasisForms of lifeStore ironBacterial pathogensIron sequestrationBiomineralization processPhosphate biomineralsRecent studiesImportant roleBacterial colonizationOrganellesInflamed gutMouse modelProteinTransportersHomeostasis
2022
An RNA-binding protein acts as a major post-transcriptional modulator in Bacillus anthracis
Pi H, Weiss A, Laut C, Grunenwald C, Lin H, Yi X, Stauff D, Skaar E. An RNA-binding protein acts as a major post-transcriptional modulator in Bacillus anthracis. Nature Communications 2022, 13: 1491. PMID: 35314695, PMCID: PMC8938561, DOI: 10.1038/s41467-022-29209-4.Peer-Reviewed Original ResearchConceptsHuman pathogen Bacillus anthracisRNA-binding proteinPost-transcriptional modulatorsPathogen Bacillus anthracisDetectable nuclease activityTwo-component systemBacillus anthracisGenetic competenceRNA turnoverDNA repairMRNA stabilityCellular metabolismNuclease activityEnvelope damageRNAProteinMultiple processesAnthracisHITRSporulationGenesMRNAExpressionMetabolismTurnover