GPR43 potentiates β-cell function in obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - Am Diabetes Assoc
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
[HTML][HTML] GPR43 Potentiates β-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - ncbi.nlm.nih.gov
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 Potentiates β-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - research.vu.nl
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 Potentiates β-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - …, 2015 - pubmed.ncbi.nlm.nih.gov
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 Potentiates beta-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R Kant… - DIABETES, 2015 - koasas.kaist.ac.kr
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short chain …
[PDF][PDF] GPR43 Potentiates b-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - sochob.cl
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 potentiates β-cell function in obesity.
JC McNelis, YS Lee, R Mayoral, R Kant, AMF Johnson… - 2015 - cabidigitallibrary.org
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 Potentiates β-Cell Function in Obesity.
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - escholarship.org
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
GPR43 Potentiates β-Cell Function in Obesity
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - cir.nii.ac.jp
抄録< jats: p> The intestinal microbiome can regulate host energy homeostasis and the
development of metabolic disease. Here we identify GPR43, a receptor for bacterially …
development of metabolic disease. Here we identify GPR43, a receptor for bacterially …
[HTML][HTML] GPR43 Potentiates β-Cell Function in Obesity.
JC McNelis, YS Lee, R Mayoral, R van der Kant… - Diabetes, 2015 - europepmc.org
The intestinal microbiome can regulate host energy homeostasis and the development of
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …
metabolic disease. Here we identify GPR43, a receptor for bacterially produced short-chain …