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Volumn 119, Issue , 2015, Pages 78-83
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Mitochondrial reactive oxygen species modulate innate immune response to influenza A virus in human nasal epithelium
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Author keywords
Influenza A virus; Interferon stimulated genes; Mitochondria; Reactive oxygen species
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Indexed keywords
2',5' OLIGOADENYLATE SYNTHETASE;
CHEMOKINE;
GAMMA INTERFERON INDUCIBLE PROTEIN 10;
IFIT1 PROTEIN;
MESSENGER RNA;
MX1 PROTEIN;
REACTIVE OXYGEN METABOLITE;
STAT1 PROTEIN;
STAT2 PROTEIN;
UNCLASSIFIED DRUG;
VIRUS RNA;
CARRIER PROTEIN;
IFIT1 PROTEIN, HUMAN;
INTERFERON;
MX1 PROTEIN, HUMAN;
MYXOVIRUS RESISTANCE PROTEIN;
STAT1 PROTEIN, HUMAN;
STAT2 PROTEIN, HUMAN;
ARTICLE;
EPITHELIUM CELL;
HUMAN;
HUMAN CELL;
INFLUENZA A;
INFLUENZA VIRUS A;
INNATE IMMUNITY;
MITOCHONDRIAL RESPIRATION;
MITOCHONDRION;
NASAL EPITHELIAL CELL;
NOSE MUCOSA;
PRIORITY JOURNAL;
PROTEIN EXPRESSION;
PROTEIN PHOSPHORYLATION;
RESPIRATORY CHAIN;
VIROGENESIS;
CELL CULTURE;
GENETICS;
IMMUNOLOGY;
INFLUENZA A VIRUS (H1N1);
METABOLISM;
PATHOGENICITY;
PHOSPHORYLATION;
VIROLOGY;
VIRUS LOAD;
INFLUENZA A VIRUS;
CARRIER PROTEINS;
CELLS, CULTURED;
CHEMOKINE CXCL10;
HUMANS;
IMMUNITY, INNATE;
INFLUENZA A VIRUS, H1N1 SUBTYPE;
INTERFERONS;
MITOCHONDRIA;
MYXOVIRUS RESISTANCE PROTEINS;
NASAL MUCOSA;
PHOSPHORYLATION;
REACTIVE OXYGEN SPECIES;
STAT1 TRANSCRIPTION FACTOR;
STAT2 TRANSCRIPTION FACTOR;
VIRAL LOAD;
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EID: 84929162383
PISSN: 01663542
EISSN: 18729096
Source Type: Journal
DOI: 10.1016/j.antiviral.2015.04.011 Document Type: Article |
Times cited : (32)
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References (9)
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