Litcius/Paper detail

Single-cell multi-omics analysis of human pancreatic islets reveals novel cellular states in type 1 diabetes

Maria Fasolino, Gregory W. Schwartz, Abhijeet R. Patil, Aanchal Mongia, Maria L. Golson, Yue J. Wang, Ashleigh Morgan, Chengyang Liu, Jonathan Schug, Jinping Liu, Minghui Wu, Daniel Traum, Ayano Kondo, Catherine Lee May, Naomi Goldman, Wenliang Wang, Michael D. Feldman, Jason H. Moore, Alberto Sada Japp, Michael R. Betts, Maria Fasolino, Gregory W. Schwartz, Abhijeet R. Patil, Aanchal Mongia, Maria L. Golson, Yue J. Wang, Ashleigh Morgan, Chengyang Liu, Jonathan Schug, Jinping Liu, Minghui Wu, Daniel Traum, Ayano Kondo, Catherine Lee May, Naomi Goldman, Wenliang Wang, Michael D. Feldman, Jason H. Moore, Alberto Sada Japp, Michael R. Betts, Robert B. Faryabi, Ali Naji, Klaus H. Kaestner, Golnaz Vahedi, Robert B. Faryabi, Ali Naji, Klaus H. Kaestner, Golnaz Vahedi

2022Nature Metabolism205 citationsDOIOpen Access PDF

Topics & Concepts

Immune systemPancreatic isletsCell typeMass cytometryType 1 diabetesCellBiologyAutoimmunityIsletPancreasFlow cytometryAutoantibodyImmunologyMedicineInsulinDiabetes mellitusEndocrinologyAntibodyPhenotypeGeneticsGenePancreatic function and diabetesDiabetes and associated disordersDiabetes Management and Research