about
sameAs
The interactions of GW182 proteins with PABP and deadenylases are required for both translational repression and degradation of miRNA targetsFunctional high-throughput screening identifies the miR-15 microRNA family as cellular restriction factors for Salmonella infectionDeadenylation is a widespread effect of miRNA regulationA divergent Sm fold in EDC3 proteins mediates DCP1 binding and P-body targetingMicroRNAs in the interaction between host and bacterial pathogensThe C-terminal region of Ge-1 presents conserved structural features required for P-body localizationSimilar Modes of Interaction Enable Trailer Hitch and EDC3 To Associate with DCP1 and Me31B in Distinct Protein ComplexesStructural basis for the mutually exclusive anchoring of P body components EDC3 and Tral to the DEAD box protein DDX6/Me31BThe RRM domain in GW182 proteins contributes to miRNA-mediated gene silencingP bodies: at the crossroads of post-transcriptional pathwaysAnalysis of the host microRNA response to Salmonella uncovers the control of major cytokines by the let-7 familyAPRICOT: an integrated computational pipeline for the sequence-based identification and characterization of RNA-binding proteinsTarget-specific requirements for enhancers of decapping in miRNA-mediated gene silencing.A candidate approach implicates the secreted Salmonella effector protein SpvB in P-body disassembly.Functional screening identifies miRNAs inducing cardiac regeneration.MicroRNA Screening and the Quest for Biologically Relevant Targets.Analysis of host microRNA function uncovers a role for miR-29b-2-5p in Shigella capture by filopodia.Getting to the root of miRNA-mediated gene silencing.Two African swine fever virus proteins derived from a common precursor exhibit different nucleocytoplasmic transport activities.The GW182 protein family in animal cells: new insights into domains required for miRNA-mediated gene silencing.Chlamydia preserves the mitochondrial network necessary for replication via microRNA-dependent inhibition of fission.The mammalian microRNA response to bacterial infections.A systematic analysis of the RNA-targeting potential of secreted bacterial effector proteins.African swine fever virus p10 protein exhibits nuclear import capacity and accumulates in the nucleus during viral infection.African swine fever virus p37 structural protein is localized in nuclear foci containing the viral DNA at early post-infection times.A C-terminal silencing domain in GW182 is essential for miRNA function.Delving into the diversity of silencing pathways. Symposium on MicroRNAs and siRNAs: biological functions and mechanisms.P-body formation is a consequence, not the cause, of RNA-mediated gene silencing.Fluorescent probes for monitoring virus fusion kinetics: comparative evaluation of reliability.GW182 interaction with Argonaute is essential for miRNA-mediated translational repression and mRNA decay.Shedding light on microRNA function via microscopy-based screeningStress-induced host membrane remodeling protects from infection by non-motile bacterial pathogensFunctional screenings reveal different requirements for host microRNAs in Salmonella and Shigella infectionMultifaceted Roles of microRNAs in Host-Bacterial Pathogen InteractionMicroRNAs at the Host-Bacteria Interface: Host Defense or Bacterial Offense
P50
Q24304318-82299229-7485-46BF-B5FC-DF791120DB7AQ24490032-6C94A904-4997-4CE9-AD29-D8098327218CQ24655139-E859BBCC-8381-408B-A9AF-EF1674E740B4Q24680496-99FF913C-3873-418C-BFF2-970BCE1D14DAQ26828842-81ADF48A-058A-47B3-A2BA-813AAA5BB886Q27651848-A55F40E8-99E6-4B62-96CF-1F362BA0B0BAQ27651920-6CF5DD6B-FDBE-48DE-A1FA-95F6FC5C02A8Q27654110-3B29499C-9A0D-48C4-85C7-31B7E3DB9081Q27654194-8F19EF21-5495-4512-BA02-77835E866A28Q28280058-649B103F-AF15-417E-AF61-7FADAA42AC6AQ28308235-9E2310C4-917C-4108-873B-9C0DC2C1E279Q28871814-CA2143C9-03C9-4468-96BA-0DDBB0811081Q33300646-7B64EA7B-486D-45CE-A137-778245BFE7A7Q33842068-32567AF8-7646-4EEF-A35C-DCB80F4A9A10Q34504097-2CE11DE7-DD25-454D-BF0B-A0E118F2AD1BQ35590504-A4232E65-62FC-4EB9-9E6E-89C5502027B8Q36342251-48C3029C-671C-4F35-8429-66008DD796EBQ37055551-851603C0-CF6A-4243-AD52-BC6C10F65B5AQ37492673-F7A97058-A0B6-4354-BA9F-A77A080EBF39Q37522850-EB5A2F73-8E76-4DE3-8D84-E0F645F39A90Q37834629-22753DFD-6273-4C18-821F-EAE0B97D97B9Q38016093-4133655C-7F9A-4025-824B-50ED4B90DD3FQ40080289-254C3419-5D6D-4AC3-A361-0B7426EDAD5DQ40428106-9BFED188-180E-4613-B728-446D9565AC34Q40446753-A8292672-5E0C-481E-93DC-5F63E34EC265Q41908974-050AFCE0-2706-4762-9BB9-FC7D092FE49EQ42371140-A4B2A067-682E-4A4A-AC9B-F121C52AE7F9Q42738042-B05061CC-4C3F-44BA-948B-7FE9D2B6B2F9Q43978445-CF62AF8D-F15C-4982-9D96-63D54E95FA78Q46698175-419E4548-6669-4482-AD5C-A93D61C6890AQ57187441-BFC72B71-B737-4A09-AC45-2ED062F6586EQ58616115-71B83D31-4F49-4699-A9E6-A8ABE6ECD56EQ91621514-B68CFE7A-F786-461E-A748-81BF720BFABFQ92454178-B1974550-2367-4A3F-9973-2587D92DEFA0Q93379289-048CD276-8409-4A39-8D9C-415C4E24E9DD
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ana Eulalio
@ast
Ana Eulalio
@en
Ana Eulalio
@es
Ana Eulalio
@nl
Ana Eulalio
@sl
type
label
Ana Eulalio
@ast
Ana Eulalio
@en
Ana Eulalio
@es
Ana Eulalio
@nl
Ana Eulalio
@sl
prefLabel
Ana Eulalio
@ast
Ana Eulalio
@en
Ana Eulalio
@es
Ana Eulalio
@nl
Ana Eulalio
@sl
P1053
D-3083-2013
P106
P1153
22934396800
P21
P31
P3829
P496
0000-0002-7355-0674