Far infrared radiation induces changes in gut microbiota and activates GPCRs in mice - ScienceDirect
PDF) An extract from the Atlantic brown algae Saccorhiza polyschides counteracts diet-induced obesity in mice via a gut related multifactorial mechanisms
PDF) Far infrared radiation induces changes in gut microbiota and activates host's GPCRs in mice
Low-dose radiation exaggerates HFD-induced metabolic dysfunction by gut microbiota through PA-PYCR1 axis
Identification of gut microbial species linked with disease variability in a widely used mouse model of colitis
Brown adipose tissue-derived metabolites and their role in regulating metabolism - Metabolism - Clinical and Experimental
Low-dose radiation exaggerates HFD-induced metabolic dysfunction by gut microbiota through PA-PYCR1 axis
Epithelial sensing of microbiota-derived signals
Far infrared irradiation suppresses experimental arthritis in rats by down-regulation of genes involved inflammatory response and autoimmunity - ScienceDirect
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JCM November 2020 - Browse Articles
Catechol-O-Methyltransferase Loss Drives Cell-Specific Nociceptive Signaling via the Enteric Catechol-O-Methyltransferase/microRNA-155/Tumor Necrosis Factor α Axis - Gastroenterology