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Generation of Human Fatty Livers Using Custom-Engineered Induced Pluripotent Stem Cells with Modifiable SIRT1 Metabolism Journal article
Collin de l'Hortet,Alexandra, Takeishi,Kazuki, Guzman-Lepe,J., Morita,Kazutoyo, Achreja,Abhinav, Popovic,Branimir, Wang,Yang, Handa,Kan, Mittal,Anjali, Meurs,Noah, Zhu,Z., Weinberg,F., Salomon,Michael, Fox,I. J., Deng,Chu Xia, Nagrath,Deepak, Soto-Gutierrez,Alejandro. Generation of Human Fatty Livers Using Custom-Engineered Induced Pluripotent Stem Cells with Modifiable SIRT1 Metabolism[J]. Cell Metabolism, 2019, 30(2), 385-401.e9.
Authors:  Collin de l'Hortet,Alexandra;  Takeishi,Kazuki;  Guzman-Lepe,J.;  Morita,Kazutoyo;  Achreja,Abhinav; et al.
Favorite | TC[WOS]:66 TC[Scopus]:78  IF:27.7/31.2 | Submit date:2020/09/16
Cellular Engineering  Hepatic Differentiation  Human Fatty Liver  Human Ipscs  Liver Metabolism  Nafld  Nash  Sirt1  
SIRT1 disruption in human fetal hepatocytes leads to increased accumulation of glucose and lipids Journal article
Tobita T., Guzman-Lepe J., Takeishi K., Nakao T., Wang Y., Meng F., Deng C.-X., De L'Hortet A.C., Soto-Gutierrez A.. SIRT1 disruption in human fetal hepatocytes leads to increased accumulation of glucose and lipids[J]. PLoS ONE, 2016, 11(2).
Authors:  Tobita T.;  Guzman-Lepe J.;  Takeishi K.;  Nakao T.;  Wang Y.; et al.
Favorite | TC[WOS]:40 TC[Scopus]:40  IF:2.9/3.3 | Submit date:2018/12/13