about
Adaptor protein Lnk inhibits c-Fms-mediated macrophage functionTranscriptional regulation of the vacuolar H(+)-ATPase B2 subunit gene in differentiating THP-1 cellsThe repertoire for pattern recognition of pathogens by the innate immune system is defined by cooperation between toll-like receptorsDectin-2 is a pattern recognition receptor for fungi that couples with the Fc receptor gamma chain to induce innate immune responsesCutting edge: functional interactions between toll-like receptor (TLR) 2 and TLR1 or TLR6 in response to phenol-soluble modulinMechanisms of phagocytosis in macrophagesOxidized mitochondrial DNA activates the NLRP3 inflammasome during apoptosisThe NOD/RIP2 pathway is essential for host defenses against Chlamydophila pneumoniae lung infection.Dectin-1 mediates macrophage recognition of Candida albicans yeast but not filaments.Leptospiral lipopolysaccharide activates cells through a TLR2-dependent mechanism.Toll-like receptors: key mediators of microbe detection.The mycobiota: interactions between commensal fungi and the host immune system.Toll-like receptors: networking for success.Characterization of Bacterial and Fungal Microbiome in Children with Hirschsprung Disease with and without a History of Enterocolitis: A Multicenter Study.Phagosomal degradation increases TLR access to bacterial ligands and enhances macrophage sensitivity to bacteria.Mycobiome: Approaches to analysis of intestinal fungi.Immune Interactions with Pathogenic and Commensal Fungi: A Two-Way StreetIntegration of Toll-like receptor and phagocytic signaling for tailored immunity.Phagosome maturation: steady as she goes.Poorly Cross-Linked Peptidoglycan in MRSA Due to mecA Induction Activates the Inflammasome and Exacerbates ImmunopathologyDectin-1-triggered recruitment of light chain 3 protein to phagosomes facilitates major histocompatibility complex class II presentation of fungal-derived antigens.Failure to induce IFN-β production during Staphylococcus aureus infection contributes to pathogenicity.CD4(+) T-cell survival in the GI tract requires dectin-1 during fungal infectionCollaborative induction of inflammatory responses by dectin-1 and Toll-like receptor 2.Dynamic interactions of macrophages with T cells during antigen presentation.Group B Streptococcus Evades Host Immunity by Degrading Hyaluronan.The many faces of ITAMs.Toll-like receptor-2 mediates mycobacteria-induced proinflammatory signaling in macrophages.Lymphoid-related CD11c+ CD8alpha+ dendritic cells are involved in enhancing herpes simplex virus type 1 latency.Collaboration between the innate immune receptors dectin-1, TLRs, and Nods.Fungal Recognition by TLR2 and Dectin-1.Current understanding of fungal microflora in inflammatory bowel disease pathogenesisStriking a balance: fungal commensalism versus pathogenesisA role for the JAK-STAT1 pathway in blocking replication of HSV-1 in dendritic cells and macrophagesDifferential use of CARD9 by dectin-1 in macrophages and dendritic cellsβ-Glucan signaling connects phagocytosis to autophagy.Beta-glucan recognition by the innate immune system.The mycobiome of the human urinary tract: potential roles for fungi in urologyMechanisms of Fc receptor and dectin-1 activation for phagocytosis.Information processing during phagocytosis.
P50
Q28285990-AFA4EA13-BB22-44D4-99C7-988E42F4164BQ28299378-9D0C7C33-9E26-46D3-AC92-9B3A2F1005EAQ28512624-377C4F9D-3475-4A41-B7BD-9EA7AE9AE976Q28513762-80A28C3A-7304-454C-ABD9-C1A15820BA0EQ28646120-69E08C29-83CF-4EE9-A0ED-0D4EB183C790Q29618100-762F2E3B-BCC6-475E-B837-742748344D9AQ29619852-6EB74EA5-186D-440D-B983-ACF45BAAB344Q33429029-9CD8AEBD-234F-41B6-B3D2-5385BDBF8E94Q33937171-8069A3BC-D5E7-4333-80E7-A5FF1525DF81Q33940165-814139D8-98CC-43F5-B8C4-556A9DFB85F9Q34493051-95E45794-437D-4B5F-94A6-7B491F3EA7B9Q35096262-EFA6E733-DC6C-447A-9DAE-6248AAFDA40CQ35156695-27D9CA38-4161-4A1D-B318-6297FD3494B7Q35535730-E583247C-1612-4674-BA44-11DBD6108BEAQ35566583-E3F22EAA-B91C-4C22-9423-32BDD160CFEDQ35609441-6E00AE5C-1937-46CE-8415-E158C4C62331Q35847333-F1F182F1-1455-4476-B781-635456CE62BBQ35982272-657789DE-6E4F-491A-9096-74FB9BAB7FC5Q36287061-FB78BF58-7936-4F62-8437-DCD9DFFE55A0Q36289191-8E2BC14F-0951-437D-8C67-BB835177BA9EQ36298354-99B073D9-DFDC-466D-B1A7-84D09F8E105CQ36339179-F2058AE8-23EF-4E84-B382-33DFAFD9C065Q36367511-B878E15F-DBE1-401B-9D8B-8FB89703945CQ36370968-056ABB05-7AE7-4704-B432-10FF5598B762Q36375607-FF53BC17-AD92-494D-B325-C71DB54CDF37Q36382419-D652D374-786D-41BA-993C-15C5485D8466Q36695974-1EC477EF-FB83-49D2-B26A-F48D88BE3B85Q36746122-C16F164C-76DF-4CFA-A9AF-D4D2342DCF6FQ36934005-9F0BF5D6-ADE8-4C93-B9B1-C3C4DDDB9EBAQ36938606-721AC82A-7DC0-4C4A-9330-A33302C49487Q37028828-D6BD991F-4466-4601-AFF1-993BB80D306EQ37089171-066E9C27-0446-42D3-82BC-EE8C7B5F3615Q37092848-D926F8C0-6691-4500-901B-7253E71B7733Q37202989-AA1A9307-FDF1-47FB-8F1F-14D7035E5690Q37283130-E6B3E69A-BBAA-4B92-A84D-DF19A80A1529Q37380404-6EF335E1-B83D-40CB-8AE6-5A019DD3F3BBQ37548627-507DAACD-AB9F-466C-B178-3FD17D1A138DQ37634456-8E19C132-1249-4DF2-9A5A-D30747543794Q38012817-62A6D2AE-D710-48EE-BB92-890756ED2A3EQ38018843-F9D865A1-34ED-44E7-87C6-55AC7B6CBBBF
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
David M Underhill
@ast
David M Underhill
@en
David M Underhill
@es
David M Underhill
@nl
David M Underhill
@sl
type
label
David M Underhill
@ast
David M Underhill
@en
David M Underhill
@es
David M Underhill
@nl
David M Underhill
@sl
prefLabel
David M Underhill
@ast
David M Underhill
@en
David M Underhill
@es
David M Underhill
@nl
David M Underhill
@sl
P106
P21
P31
P496
0000-0002-2989-658X