Single-cell multiomics reveals increased plasticity, resistant populations, and stem-cell–like blasts in <i>KMT2A</i>-rearranged leukemia

Changya Chen(Hunan University of Humanities, Science and Technology), Kai Tan(Children's Hospital of Philadelphia), Chia‐Hui Chen(Children's Hospital of Philadelphia), Qi Qiu(California Institute for Regenerative Medicine), Stephen P. Hunger(Children's Hospital of Philadelphia), Fatemeh Alikarami‬(Iran University of Medical Sciences), Wenbao Yu(Children's Hospital of Philadelphia), Alex Felmeister(Children's Hospital of Philadelphia), Qin Zhu(Guangzhou University of Chinese Medicine), Clara Libbrecht(CURE Childhood Cancer), David M. Barrett(Children's Hospital of Philadelphia), Yangyang Ding(Jiangnan University), Patrick A. Brown(Haemonetics (United States)), Erin Guest(Children's Mercy Hospital), Peng Gao(Medical University of South Carolina), Yasin Uzun(Children's Hospital of Philadelphia), Kathrin M. Bernt(Children's Hospital of Philadelphia), Kai Wang(Southwest University of Science and Technology), Fang Li(Gansu University of Traditional Chinese Medicine), Yuxuan Hu(Nanyang Technological University), Isaiah Rozich(California University of Pennsylvania), J. W. Davenport(CURE Childhood Cancer), Carolyn A. Felix(Children's Hospital of Philadelphia), Jennifer Flournoy(California Institute for Regenerative Medicine)
Blood
December 5, 2021
Cited by 113


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