about
Mammalian prenylcysteine carboxyl methyltransferase is in the endoplasmic reticulumTopological and mutational analysis of Saccharomyces cerevisiae Ste14p, founding member of the isoprenylcysteine carboxyl methyltransferase familyHost Organelle Hijackers: a similar modus operandi for Toxoplasma gondii and Chlamydia trachomatis: co-infection model as a tool to investigate pathogenesisFundamental Roles of the Golgi-Associated Toxoplasma Aspartyl Protease, ASP5, at the Host-Parasite InterfaceA novel co-infection model with Toxoplasma and Chlamydia trachomatis highlights the importance of host cell manipulation for nutrient scavengingPseudomonas-Saccharomyces interactions: influence of fungal metabolism on bacterial physiology and survivalCharacterization of the ATG8-conjugation system in 2 Plasmodium species with special focus on the liver stage: possible linkage between the apicoplastic and autophagic systems?Introduction of caveolae structural proteins into the protozoan Toxoplasma results in the formation of heterologous caveolae but not caveolar endocytosisDynamics of the major histocompatibility complex class I processing and presentation pathway in the course of malaria parasite development in human hepatocytes: implications for vaccine development.Neospora caninum Recruits Host Cell Structures to Its Parasitophorous Vacuole and Salvages Lipids from Organelles.Host lipid droplets: An important source of lipids salvaged by the intracellular parasite Toxoplasma gondii.A Lipolytic Lecithin:Cholesterol Acyltransferase Secreted by Toxoplasma Facilitates Parasite Replication and EgressFierce competition between Toxoplasma and Chlamydia for host cell structures in dually infected cells.New host nuclear functions are not required for the modifications of the parasitophorous vacuole of Toxoplasma.Cellular interactions of Plasmodium liver stage with its host mammalian cell.The parasite Toxoplasma sequesters diverse Rab host vesicles within an intravacuolar network.Hostile intruder: Toxoplasma holds host organelles captive.Modelling Toxoplasma gondii infection in a 3D cell culture system In Vitro: Comparison with infection in 2D cell monolayersNovel Approaches To Kill Toxoplasma gondii by Exploiting the Uncontrolled Uptake of Unsaturated Fatty Acids and Vulnerability to Lipid Storage Inhibition of the Parasite
P50
Q24321665-D048D673-11C4-4320-B744-9429DC0CBBADQ24555709-EAB9515D-9BCB-4A7E-8EF3-966A264B738DQ26825487-B725A2DA-DB02-4F01-86AF-BB9903787B60Q27316912-2EDE937A-4F82-4252-A0DE-CA3907472223Q30538838-404FDD43-F88F-425A-AA76-A877DA67EB00Q31142449-2C64EFF8-2776-4432-8F4D-F41225570973Q33577594-B10BB8D2-0844-41C1-868D-F93CC279DC31Q34525661-2AAFBE7A-31F8-481A-B34F-37D01AEBC09FQ35005560-355227F3-2E16-4489-87C4-5C9434D53E4AQ35573325-CD7B7E14-4A9E-4842-9EC7-52CEEB22E979Q36389644-8D1A0F50-BA13-4120-8D58-C8A9343D91ECQ36594635-5ED28607-233F-45EB-959F-F608C8B7D7C5Q36606877-70B901D7-F520-4DC7-A086-F18617BD11E6Q40059981-025C94A1-E0E2-40E4-9E74-5D2662F85804Q40126287-4D27B9A5-CD83-4F5B-BB83-4C0C7C7D41E6Q47603479-96C525E7-CC50-4D5A-919D-D30A55BFF496Q54968611-6F57AB66-9515-4576-A837-7C4A4BF6FEFDQ60046348-EC5167D6-9330-4119-8655-9FF0BAB54D04Q90645370-FC59E621-D5BF-47BE-884C-8E0E3F4C46FE
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Julia D Romano
@ast
Julia D Romano
@en
Julia D Romano
@es
Julia D Romano
@nl
type
label
Julia D Romano
@ast
Julia D Romano
@en
Julia D Romano
@es
Julia D Romano
@nl
prefLabel
Julia D Romano
@ast
Julia D Romano
@en
Julia D Romano
@es
Julia D Romano
@nl
P106
P21
P31
P496
0000-0001-8956-7377