2024
Bacterial Organelles in Iron Physiology
Ferrara K, Gupta K, Pi H. Bacterial Organelles in Iron Physiology. Molecular Microbiology 2024, 122: 914-928. PMID: 39545931, PMCID: PMC11659020, DOI: 10.1111/mmi.15330.Peer-Reviewed Original ResearchMembrane-bound organellesBacterial organellesFerritin-like proteinsEukaryotic organellesProtein-lipid monolayersEukaryotic cellsProteinaceous shellSpecies-specificBacterial cellsOrganellesProtecting cellsLife formsBiochemical reactionsPhysiological functionsDiverse arrayIron physiologyEnvironmental conditionsLipid bilayerBacteriaEssential micronutrientCellsSpecial structureBiogenesisGeneticsProtein
2021
Nodal modulator (NOMO) is required to sustain endoplasmic reticulum morphology
Amaya C, Cameron C, Devarkar SC, Seager S, Gerstein MB, Xiong Y, Schlieker C. Nodal modulator (NOMO) is required to sustain endoplasmic reticulum morphology. Journal Of Biological Chemistry 2021, 297: 100937. PMID: 34224731, PMCID: PMC8327139, DOI: 10.1016/j.jbc.2021.100937.Peer-Reviewed Original ResearchConceptsEndoplasmic reticulumER structural integrityGenetic epistasis analysisMembrane-bound organellesP62/sequestosome 1Endoplasmic reticulum morphologyImmunoglobulin-like domainsProtein light chain 3Light chain 3Epistasis analysisIdentical orthologsProteomic screenER morphologyHuman genomeMolecular playersNOMO1Protein foldingSequestosome 1Unknown functionER networkChain 3Lipid synthesisProper functionProtein 1Orthologs
2019
Meeting report – Cell dynamics: organelle–cytoskeleton interface
Mogessie B, Zenner H, Renkawitz J. Meeting report – Cell dynamics: organelle–cytoskeleton interface. Journal Of Cell Science 2019, 132: jcs236679. PMID: 31416851, DOI: 10.1242/jcs.236679.Peer-Reviewed Original Research
2014
AMPylation Is Critical for Rab1 Localization to Vacuoles Containing Legionella pneumophila
Hardiman CA, Roy CR. AMPylation Is Critical for Rab1 Localization to Vacuoles Containing Legionella pneumophila. MBio 2014, 5: 10.1128/mbio.01035-13. PMID: 24520063, PMCID: PMC3950522, DOI: 10.1128/mbio.01035-13.Peer-Reviewed Original ResearchConceptsLCV membraneEffector proteinsGEF activityEndoplasmic reticulumIntracellular pathogen Legionella pneumophilaLegionella effector proteinsType IV secretion systemExchange factor domainLegionella pneumophilaMembrane-bound compartmentsMembrane-bound organellesPathogen Legionella pneumophilaAccumulation of GTPHost cell functionsAMPylation activityDrrA proteinRab1 proteinRab1 recruitmentLegionella effectorsNucleotidyltransferase domainAMPylationSecretion systemPosttranslational modificationsRab1GTPase
2004
Linking Albinism and Immunity: The Secrets of Secretory Lysosomes
Stinchcombe J, Bossi G, Griffiths G. Linking Albinism and Immunity: The Secrets of Secretory Lysosomes. Science 2004, 305: 55-59. PMID: 15232098, DOI: 10.1126/science.1095291.Peer-Reviewed Original ResearchMeSH KeywordsAlbinismAnimalsExocytosisHumansImmune SystemImmunologic Deficiency SyndromesLysosomesMelaninsMelanocytesMelanosomesMembrane GlycoproteinsMicrotubule-Organizing CenterMutationNeuronsPerforinPore Forming Cytotoxic ProteinsProteinsrab GTP-Binding Proteinsrab27 GTP-Binding ProteinsSyndromeT-Lymphocytes, CytotoxicConceptsLysosome-related organellesMembrane-bound organellesCell typesSecretory lysosomesSecretory proteinsMammalian cellsLysosomal secretionSecrete melaninLysosomesOrganellesProteinSecretory mechanismCellsEffector functionsImmune systemAlbinismExocytosisSecretionHydrolaseEffectorExternal stimuliMembrane degradationMelanosomesLipaseImmunity
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