about
The Viral Polymerase Inhibitor 7-Deaza-2'-C-Methyladenosine Is a Potent Inhibitor of In Vitro Zika Virus Replication and Delays Disease Progression in a Robust Mouse Infection ModelYaba monkey tumor virus encodes a functional inhibitor of interleukin-18SNP-specific array-based allele-specific expression analysisImmune Homeostasis in Epithelial Cells: Evidence and Role of Inflammasome Signaling ReviewedCurrent aspects of vitiligo geneticsCrystal Structure of Procaspase-1 Zymogen Domain Reveals Insight into Inflammatory Caspase AutoactivationInterleukin 18 and periodontal diseaseInnate immune recognition of Yersinia pseudotuberculosis type III secretion.The NLRP3 inflammasome activation in human or mouse cells, sensitivity causes puzzle.Effect of enterohaemorrhagic Escherichia coli O157:H7-specific enterohaemolysin on interleukin-1β production differs between human and mouse macrophages due to the different sensitivity of NLRP3 activation.Silybin attenuates LPS-induced lung injury in mice by inhibiting NF-κB signaling and NLRP3 activation.Th17 cells and activated dendritic cells are increased in vitiligo lesionsInteractions between glucocorticoid treatment and cis-regulatory polymorphisms contribute to cellular response phenotypes.Interferon-inducible p200-family proteins as novel sensors of cytoplasmic DNA: role in inflammation and autoimmunityEnalapril inhibits tubulointerstitial inflammation and NLRP3 inflammasome expression in BSA-overload nephropathy of rats.Inflammasomes in neuroinflammation and changes in brain function: a focused review.Apoptosis-associated speck-like protein (ASC) controls Legionella pneumophila infection in human monocytes.A common allosteric site and mechanism in caspasesToll-like receptor 2 and NLRP3 cooperate to recognize a functional bacterial amyloid, curliPlasma Proteome Biomarkers of Inflammation in School Aged Children in Nepal.Pathogenesis of Y. enterocolitica and Y. pseudotuberculosis in Human Yersiniosis.Reversible ubiquitination shapes NLRC5 function and modulates NF-κB activation switchMonarch-1/PYPAF7 and other CATERPILLER (CLR, NOD, NLR) proteins with negative regulatory functionsContribution of toxins to the pathogenesis of inhalational anthrax.IL-33: a sheep in wolf's clothing?Mycobacterium tuberculosis prevents inflammasome activationIs interleukin-1 a good or bad 'guy' in tumor immunobiology and immunotherapy?The inflammasome mediates hyperoxia-induced alveolar cell permeability.Approaches to determine expression of inflammatory cytokinesThe stressed host response to infection: the disruptive signals and rhythms of systemic inflammation.NOD-like receptors and inflammation.Bacterial triggering of inflammation by intracellular sensors.Pattern recognition receptor-dependent mechanisms of acute lung injury.Pattern recognition receptors: an update.The current status and future directions of myxoma virus, a master in immune evasion.Ragweed pollen extract intensifies lipopolysaccharide-induced priming of NLRP3 inflammasome in human macrophages.CD24 activates the NLRP3 inflammasome through c-Src kinase activity in a model of the lining epithelium of inflamed periodontal tissues.Bcl-2 is a negative regulator of interleukin-1beta secretion in murine macrophages in pharmacological-induced apoptosis.Identification of a 'genuine' mammalian homolog of nematodal CED-4: is the hunt over or do we need better guns?Bim-Bcl-2 homology 3 mimetic therapy is effective at suppressing inflammatory arthritis through the activation of myeloid cell apoptosis.
P2860
Q23309956-cf02ecfb-445a-ab78-5a71-e701fb3a31daQ24657195-18A3E467-81FC-47FE-BD4F-43DF6E500423Q24657565-B159791F-8228-4393-9285-E5E97B4DC651Q26781987-01F1BCA7-D42A-4FE7-88AB-8D97F29CC85BQ27003993-82DA0D77-CDD1-4468-859C-68764FC22EA0Q27653310-CD215AD2-8AC0-4758-8906-EA4F81E8F062Q28307337-9DDA8BF3-EDFB-4572-8ACB-DCD6928010A3Q30973404-CCA62508-B6FF-44A3-8FD6-9FD0C437BECCQ33356058-5CE9E0B7-A808-40B3-81CC-DF66830EAD6FQ33419740-1D6E4290-30C6-4C7E-B900-744A0CFCCA07Q33597982-79A9FEF6-6F7E-49BD-88E0-CF374C58C32DQ33889471-674EC9F3-117B-4B16-8FA2-FD0345ED1603Q33959230-54331F42-C93F-4D85-80BE-818DA4111877Q34163340-AF3B73C5-D038-41CB-A140-14DB05E0C7E6Q34295020-5E10FDA8-7DC5-4339-9B17-1CE8B44E5DC0Q34299338-6E359668-D011-4B49-9E9B-B3BE8B692F2EQ34536758-72431D26-2211-4779-8430-9C701CE0EFF3Q34595353-F5C95260-11A2-44E1-8C0C-A319698AEFD8Q34955574-9AEED9BC-215A-472D-AF1A-9231E6B29DC4Q35860923-A53DA9AD-6B61-4388-A97E-10972358A0B2Q35910491-11A2EC2D-EBF3-4C56-96CE-976824B6FD67Q36359420-45AE3868-A7F5-4BD3-813E-46D143DC5788Q36453716-E706F990-C18B-4621-83F1-EC13BB80F2F9Q36708397-B88CE1DE-6C87-431F-ABE3-5A77909EDF06Q36848052-526743B2-B314-4453-96B2-E02526D1E4A4Q36854168-2A8E22D5-19BB-48B6-A9B0-D63668162147Q37118170-9D96C981-059C-43E0-A030-D35750F6A784Q37191677-04EB2852-6BF8-4585-9F6B-596E4E98B3C9Q37231543-94A1B2AA-0D8C-495F-9E01-B5CD79313A0EQ37270943-D777EF0A-6BEB-4570-95B9-DE56794A673BQ37353179-2D9AD63D-FC32-4105-9F5C-DDDC1776AEE9Q37389538-64D40A63-6F2A-43ED-A5AC-76C0A6C32D82Q37447260-A46BFD19-2583-4F31-9A54-BBFD9A238319Q37755246-46346F4E-DB5B-40EE-9F77-BA8A2A6CD0B8Q37887080-B2DE4478-A355-4732-9472-8C2C85567895Q39218361-91DF2FF8-BBF4-4BCF-A0AD-D0DC88C16EBDQ39290554-FCF8768C-6193-4808-BD5A-9CDE6F48C13BQ39677382-05F296CC-FB75-4E25-88CE-7E12FB5F07AAQ39754898-5EF4CDF9-C283-4DFF-BEE6-E121B563344BQ39885694-E143F6F7-1863-4160-A0DE-671C2F269886
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
name
The inflammasome
@ast
The inflammasome
@en
The inflammasome
@en-gb
The inflammasome
@nl
type
label
The inflammasome
@ast
The inflammasome
@en
The inflammasome
@en-gb
The inflammasome
@nl
prefLabel
The inflammasome
@ast
The inflammasome
@en
The inflammasome
@en-gb
The inflammasome
@nl
P3181
P1433
P1476
The inflammasome
@en
P2093
Stéphanie Papin
Virginie Petrilli
P3181
P356
10.1016/J.CUB.2005.07.049
P407
P50
P577
2005-08-01T00:00:00Z