about
Guidelines for the use and interpretation of assays for monitoring autophagyNOD2 stimulation induces autophagy in dendritic cells influencing bacterial handling and antigen presentationAn integrative analysis of gene expression and molecular interaction data to identify dys-regulated sub-networks in inflammatory bowel disease.Elevation of intact and proteolytic fragments of acute phase proteins constitutes the earliest systemic antiviral response in HIV-1 infectionRNA and imidazoquinolines are sensed by distinct TLR7/8 ectodomain sites resulting in functionally disparate signaling events.The antiviral efficacy of HIV-specific CD8⁺ T-cells to a conserved epitope is heavily dependent on the infecting HIV-1 isolate.Prioritisation and network analysis of Crohn's disease susceptibility genes.Factors influencing success of clinical genome sequencing across a broad spectrum of disordersPattern recognition receptor mediated downregulation of microRNA-650 fine-tunes MxA expression in dendritic cells infected with influenza A virusA protein-truncating R179X variant in RNF186 confers protection against ulcerative colitis.Functional consequences of mutations in the autophagy genes in the pathogenesis of Crohn's disease.Intestinal stromal cells in mucosal immunity and homeostasis.Resistance of dynamin-related protein 1 oligomers to disassembly impairs mitophagy, resulting in myocardial inflammation and heart failure.Exploring the genetic architecture of inflammatory bowel disease by whole-genome sequencing identifies association at ADCY7.Genome-wide association study implicates immune activation of multiple integrin genes in inflammatory bowel disease.Snapin promotes HIV-1 transmission from dendritic cells by dampening TLR8 signaling.Corrigendum: CD90(+) Stromal Cells are Non-Professional Innate Immune Effectors of the Human Colonic Mucosa.CD90(+) Stromal Cells are Non-Professional Innate Immune Effectors of the Human Colonic Mucosa.The intracellular sensor NOD2 induces microRNA-29 expression in human dendritic cells to limit IL-23 release.Phase I clinical trial safety of DNA- and modified virus Ankara-vectored human immunodeficiency virus type 1 (HIV-1) vaccines administered alone and in a prime-boost regime to healthy HIV-1-uninfected volunteers.ICG-001 affects DRP1 activity and ER stress correlative with its anti-proliferative effect.Intracellular immunization against HIV infection with an intracellular antibody that mimics HIV integrase binding to the cellular LEDGF protein.Benzimidazoles Promote Anti-TNF Mediated Induction of Regulatory Macrophages and Enhance Therapeutic Efficacy in a Murine Model.A practical solution for preserving single cells for RNA sequencing.NOD2-mediated autophagy and Crohn disease.Innate immune receptors for cross-presentation: The expanding role of NLRs.Emerging Mechanisms of Innate Immunity and Their Translational Potential in Inflammatory Bowel Disease.Activation of the lectin DC-SIGN induces an immature dendritic cell phenotype triggering Rho-GTPase activity required for HIV-1 replicationStructural Remodeling of the Human Colonic Mesenchyme in Inflammatory Bowel DiseaseThe Impact of Vaccination and Prior Exposure on Stool Shedding of Salmonella Typhi and Salmonella Paratyphi in 6 Controlled Human Infection StudiesClonal analysis of Salmonella-specific effector T cells reveals serovar-specific and cross-reactive T cell responsesGenes, viruses and microbesInvasive Salmonella exploits divergent immune evasion strategies in infected and bystander dendritic cell subsetsPlasma Nuclear Magnetic Resonance Metabolomics Discriminates Between High and Low Endoscopic Activity and Predicts Progression in a Prospective Cohort of Patients With Ulcerative ColitisMicrobiome, pattern recognition receptor function in health and inflammationNOD2 and TLR2 Signal via TBK1 and PI31 to Direct Cross-Presentation and CD8 T Cell ResponsesR-spondin 3 promotes stem cell recovery and epithelial regeneration in the colonImmunotherapy-related hepatitis: real-world experience from a tertiary centreColonic epithelial cell diversity in health and inflammatory bowel diseaseSingle-Cell and Time-Resolved Profiling of Intracellular Salmonella Metabolism in Primary Human Cells
P50
Q21996341-4714736B-74A8-49E4-BBD2-876BDEF4B32CQ29615617-110B9FC6-9EB0-41ED-AE82-B11C966EB162Q31038236-4A426549-D8C9-4EAB-9DB6-08247E4DEB37Q33576664-10D6D21E-2A67-4EE2-8C97-40627A85E1D4Q33790424-7226B30A-5C63-451C-9E9A-7F9D2D2C82A0Q33904028-D5CF684C-05F0-4059-8C2D-D12D8E96107BQ35287033-223D0631-B18F-490E-85E5-7013C1365D22Q36147983-7082CE41-4DA8-416F-A997-FA66343BC2D7Q36536550-FFFFF848-D6C2-4F78-9ABD-0BCB0A03E2A3Q37166229-07B96B81-E0F2-44EC-9A52-2D07DECE7996Q37914793-0911148B-E27C-40D1-86C6-80D4C83971D5Q38067055-4BDD382D-ED4D-49F6-8F75-DA3166BF4479Q40565207-CEC52692-30F3-43F8-B2D5-9F9B67662DEDQ41951157-351887BB-ACC5-4BE2-9545-971301BD9533Q42324368-0FB060AD-BC8D-48D6-866E-3B3CF4C6C835Q42378072-808503B8-CD73-4112-83EA-108951DAEE93Q42409178-BD195D01-9EC7-4123-A3C3-0592A5B3FF9AQ42964011-5F463AD7-20EF-47BC-BC1B-49CE580E962CQ45050841-06D55FB0-ADFC-4B1D-B9AE-9C742AEDEE93Q45423782-DC352C6D-3A91-468B-B7FC-5E8E162E2D79Q47133947-546DA0BE-2D6F-4426-9AFA-04B50913EBDEQ47152351-D3EE8A61-BA1F-4867-9D69-3045C5C5F91EQ47898039-694EC8BE-1E60-43AF-90F9-834F6C8EE3FAQ48120456-84128C8D-06A8-4A1F-A2F2-6BA8DACAAE6FQ48279441-41039A6B-0624-4D4F-96BA-24111B22B38CQ49339022-AF20C48A-53C8-4822-B39B-28FE57364FD3Q55154729-23B896F8-BD78-4AAF-AB6F-53EC630081A6Q56795503-82170395-FE48-477D-82E3-A3DE8713C579Q57025321-6EAB530E-1CC1-4CC3-8E9D-801B6BF45A6BQ57311213-7A7BA502-D543-4391-B887-1D05FF9B7A82Q57395974-E21417CA-5D83-4DC8-9B4D-A49CCA13254BQ59031107-F9A05BAA-1FAF-4256-A64E-EE261F59B062Q59125236-D84C0401-CEAC-45B5-B1C5-15781FB67713Q60642683-09234A59-857F-4668-8ACD-B6F5355BBB1DQ60642687-5C1807A9-3136-474F-8674-C577CA302A54Q64078700-EEB9F4CA-8472-4ED4-B285-DD0B476D0DEAQ90288055-DE687CD7-7A4A-48EA-8729-51BF9BD783AAQ90963007-C48DF108-0F7E-4585-9509-8C72DB638827Q91987032-B5088313-F55B-42C3-A8FA-FAE0C0C70F51Q92220416-714E9FF1-B216-4B0F-A256-AA8D476A1A70
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alison Simmons
@ast
Alison Simmons
@en
Alison Simmons
@es
Alison Simmons
@nl
type
label
Alison Simmons
@ast
Alison Simmons
@en
Alison Simmons
@es
Alison Simmons
@nl
prefLabel
Alison Simmons
@ast
Alison Simmons
@en
Alison Simmons
@es
Alison Simmons
@nl
P106
P21
P31
P496
0000-0003-3454-0710
P569
2000-01-01T00:00:00Z