about
Interferon response factors 3 and 7 protect against Chikungunya virus hemorrhagic fever and shockLGP2 is a positive regulator of RIG-I- and MDA5-mediated antiviral responsesA Corynebacterium glutamicum rnhA recG double mutant showing lysozyme-sensitivity, temperature-sensitive growth, and UV-sensitivity.Functional characterization of protein domains common to animal viruses and mouse.Prediction of dinucleotide-specific RNA-binding sites in proteins.IκBζ is essential for natural killer cell activation in response to IL-12 and IL-18.A noncoding RNA produced by arthropod-borne flaviviruses inhibits the cellular exoribonuclease XRN1 and alters host mRNA stabilityA Parzen window-based approach for the detection of locally enriched transcription factor binding sites.Linking transcriptional changes over time in stimulated dendritic cells to identify gene networks activated during the innate immune response.Laser-targeted photofabrication of gold nanoparticles inside cells.Alveolar macrophage-derived type I interferons orchestrate innate immunity to RSV through recruitment of antiviral monocytesWest Nile virus noncoding subgenomic RNA contributes to viral evasion of the type I interferon-mediated antiviral response.Genome-wide map of RNA degradation kinetics patterns in dendritic cells after LPS stimulation facilitates identification of primary sequence and secondary structure motifs in mRNAs.Genetic analysis of capsular polysaccharide synthesis gene clusters from all serotypes of Streptococcus suis: potential mechanisms for generation of capsular variationTLR9 as a key receptor for the recognition of DNA.Pathogen recognition by innate receptors.Blockade of TLR3 protects mice from lethal radiation-induced gastrointestinal syndrome.Microarray and gene co-expression analysis reveals that melatonin attenuates immune responses and modulates actin rearrangement in macrophages.Microarray analysis of macrophage response to infection with Streptococcus oralis reveals the immunosuppressive effect of hydrogen peroxide.Analysis of changes in transcription start site distribution by a classification approach.Raman spectroscopy as a tool for label-free lymphocyte cell line discrimination.IL-1α modulates neutrophil recruitment in chronic inflammation induced by hydrocarbon oilPoly I:C-induced activation of NK cells by CD8 alpha+ dendritic cells via the IPS-1 and TRIF-dependent pathways.Microarray analysis identifies apoptosis regulatory gene expression in HCT116 cells infected with thermostable direct hemolysin-deletion mutant of Vibrio parahaemolyticus.NLRC5 deficiency does not influence cytokine induction by virus and bacteria infections.Double-stranded RNA of intestinal commensal but not pathogenic bacteria triggers production of protective interferon-β.Alveolar macrophages are the primary interferon-alpha producer in pulmonary infection with RNA viruses.Plasmacytoid dendritic cells delineate immunogenicity of influenza vaccine subtypes.Bone-protective Functions of Netrin 1 Protein.Intracellular Protein-Labeling Probes for Multicolor Single-Molecule Imaging of Immune Receptor-Adaptor Molecular Dynamics.Detection of pathogenic intestinal bacteria by Toll-like receptor 5 on intestinal CD11c+ lamina propria cells.Sequential control of Toll-like receptor-dependent responses by IRAK1 and IRAK2.Fluorescent phospholipid analogs as microscopic probes for detection of the mycolic acid-containing layer in Corynebacterium glutamicum: detecting alterations in the mycolic acid-containing layer following ethambutol treatment.Stochastic binary modeling of cells in continuous time as an alternative to biochemical reaction equations.Eosinophil depletion suppresses radiation-induced small intestinal fibrosis.Nociceptors Boost the Resolution of Fungal Osteoinflammation via the TRP Channel-CGRP-Jdp2 Axis.VP1686, a Vibrio type III secretion protein, induces toll-like receptor-independent apoptosis in macrophage through NF-kappaB inhibition.Estimation of diffusion constants from single molecular measurement without explicit tracking.Mind Bomb Proteins in the Antiviral ArsenalThe Jmjd3-Irf4 axis regulates M2 macrophage polarization and host responses against helminth infection
P50
Q24598171-73082E8F-A9CD-4567-9F31-6C43EE88A6C1Q24645870-1D428E74-4012-4BF6-A9BB-7ED68ED7538CQ33195475-4A4A2AD5-8FC3-4BE7-8EC7-85F134136B5FQ34174053-3CBE5B5F-E958-4309-ABAC-E4DCEB5F4FD2Q34176444-334C12C2-B638-46A9-BD92-C5860BA86D93Q34200032-E8FA997B-62F0-4377-92F3-D52052D29A2CQ34301595-400AFA28-998D-403F-ACB2-2B28C7133964Q34554234-7E6370EB-ED6C-45E4-B88F-7B86197FEC5CQ35045380-D55558B1-A918-45D9-A6CD-F43CB9D5D441Q35314939-6DA6A668-8144-4D93-80F6-3E79B33AC6FEQ35568416-B7FACD8F-5106-4290-91CA-0B0CB5B06796Q35943585-832C8C64-A5D0-4B2D-B418-3D8E5D8022E8Q36268817-F99BE719-10E4-46C5-BF11-FC913A7830FCQ36757246-E6CFD049-01A0-4278-9300-C6A36D9D6A40Q37080471-B8443840-133A-4D2C-9CDC-3C0D76C98D0CQ37214695-C1C2B703-ABD3-4C86-8648-35B3580C0606Q37646726-EAADE16E-6655-41B6-8342-754375AACB0DQ38289024-60795F6D-A7CE-4372-88EE-18BFCA7F2CDAQ38436907-81211E05-6C92-412B-BB81-0E6448BC0508Q38481333-01765CC0-F49A-4035-86A1-797312E75126Q38779178-9500A3B7-23A7-4A49-BAA7-4068C3381CD0Q39274974-9F4E48BA-3A1A-4A40-AD7B-E244A0C1EE2DQ39820103-12AEC2CC-FE5D-4037-A89E-F9E551622B4EQ40390662-AF538B38-FCA4-4DCC-9AA2-3669EBBC3779Q43897271-7D6C352D-3F58-4572-AD8C-B7E4A49661BCQ44787612-3D37BBA3-27A3-43AD-ACA5-039C361602DFQ45159348-2AE4DA29-D868-4D09-AC61-80CA9D0900EAQ45184856-AB1BF982-5BD9-4108-BAAC-DE02956033D5Q46265917-82CD945B-83D9-4612-94D7-75BF5DA0D712Q47366548-09E29981-BD96-4272-89ED-4283B67E8756Q50079058-8BEDCF7B-3095-4185-972F-CF79002E9A70Q50335834-01506C86-E963-45EE-8F1D-D42261BBA911Q50748684-044678C5-98D8-445B-B92C-7F1F3813EBC7Q51430807-4FE04D89-5E79-46D3-BD6B-C2B8774E5363Q52691604-A9678026-D599-4428-88DD-5F799BE3E33DQ52764296-36DE1CC3-7968-4454-BCA6-957BC62B4594Q53588544-83B67156-7537-4FCB-B6AD-F63C6591BA19Q55061996-92B5C8EF-0E2F-40F6-B923-32F94AD24A2BQ57062726-D3A96AA6-B8F7-44E0-98EA-D2153E5B8D52Q57062755-467F20EC-B469-438E-9117-8E486B63EB02
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Yutaro Kumagai
@ast
Yutaro Kumagai
@en
Yutaro Kumagai
@es
Yutaro Kumagai
@nl
Yutaro Kumagai
@sl
type
label
Yutaro Kumagai
@ast
Yutaro Kumagai
@en
Yutaro Kumagai
@es
Yutaro Kumagai
@nl
Yutaro Kumagai
@sl
prefLabel
Yutaro Kumagai
@ast
Yutaro Kumagai
@en
Yutaro Kumagai
@es
Yutaro Kumagai
@nl
Yutaro Kumagai
@sl
P1053
L-7732-2018
P106
P2456
P31
P3829
P496
0000-0002-5039-3979