JAZF1 heterozygous knockout mice show altered adipose development and metabolism
Jeong J, Jang S, Park S, Kwon W, Kim S, Jang S, Ko J, Park S, Lim S, Yoon D, Yi J, Lee S, Kim M, Choi S, Ryoo Z. JAZF1 heterozygous knockout mice show altered adipose development and metabolism. Cell & Bioscience 2021, 11: 161. PMID: 34407873, PMCID: PMC8375039, DOI: 10.1186/s13578-021-00625-1.Peer-Reviewed Original ResearchHigh-fat dietAdipocyte differentiationNormal dietMetabolic disordersType 2 diabetes mellitusAdipose developmentImpaired adipocyte differentiationImpaired glucose homeostasisBody fat massAdipose tissue massHeterozygous knockout miceRegulation of PPARγKnockout mice showDiabetes mellitusControl miceFat massMouse embryonic fibroblastsGlucose homeostasisKnockout miceConclusionOur findingsTissue massAdipose tissueMice showJAZF1 expressionVivo modelJazf1 acts as a regulator of insulin‐producing β‐cell differentiation in induced pluripotent stem cells and glucose homeostasis in mice
Park S, Kwon W, Park S, Jeong J, Kim D, Jang S, Kim S, Sung Y, Kim M, Choi S, Ryoo Z. Jazf1 acts as a regulator of insulin‐producing β‐cell differentiation in induced pluripotent stem cells and glucose homeostasis in mice. The FEBS Journal 2021, 288: 4412-4427. PMID: 33555104, DOI: 10.1111/febs.15751.Peer-Reviewed Original Research