Reprogramming endogenous NK circuits by highly efficient nonviral genome editing
Rih‐Sheng Huang(University of Minnesota), Martin Felices(University of Minnesota), David H. McKenna(University of Minnesota), Melissa Khaw(University of Minnesota), Shee Kwan Phung(University of Minnesota), Young Vue(University of Minnesota Medical Center), Philippa R. Kennedy(University of Minnesota Medical Center), Laura Bendzick(University of Minnesota Medical Center), Anna J. Weis(University of Minnesota Medical Center), Quinlan M. Kile(University of Minnesota), Jeffrey S. Miller(University of Minnesota Medical Center), Darin Sumstad(University of Minnesota Medical Center)
Cited by 0
Related Papers
Mesenchymal stem or stromal cells: a review of clinical applications and manufacturing practices
|Transfusion|2013|446
Harnessing features of adaptive NK cells to generate iPSC-derived NK cells for enhanced immunotherapy
|Cell stem cell|2021|153
Potent Cytolytic Activity and Specific IL15 Delivery in a Second-Generation Trispecific Killer Engager
|Cancer Immunology Research|2020|71
Metabolic programs drive function of therapeutic NK cells in hypoxic tumor environments
|Science Advances|2024|45
iPSC-derived natural killer cells expressing the FcγR fusion CD64/16A can be armed with antibodies for multitumor antigen targeting
|Journal for ImmunoTherapy of Cancer|2023|21