Multiomic analysis reveals conservation of cancer-associated fibroblast phenotypes across species and tissue of origin
Deshka S. Foster(Stanford Medicine), Michael Januszyk(Stanford University), Daniel Delitto(Stanford Medicine), Kathryn E. Yost(Stanford University), Michelle Griffin(Stanford University), Jason Guo(Stanford University), Nicholas Guardino(Stanford University), Andrea E. Delitto(Stanford Medicine), Malini Chinta(Stanford University), Austin Burcham(Stanford University), Alan Nguyen(Stanford University), Khristian E. Bauer-Rowe(Stanford University), Ashley L. Titan(Stanford Medicine), Ankit Salhotra(Stanford University), Ruth Ellen Jones(Stanford University), Oscar da Silva(Stanford University), Hunter G. Lindsay(Stanford University), Charlotte E. Berry(Stanford University), Kellen Chen(Stanford University), Dominic Henn(Stanford University), Shamik Mascharak(Stanford University), Heather E. Talbott(California Institute for Regenerative Medicine), Alexia Kim(Stanford University), Fatemeh Nosrati(Stanford University), Dharshan Sivaraj(Stanford University), Ryan C. Ransom(California Institute for Regenerative Medicine), Michael R. Matthews(Stanford University), Anum Khan(Stanford University), Dhananjay Wagh(Stanford University), John A. Coller(Stanford University), Geoffrey C. Gurtner(Stanford Medicine), Derrick C. Wan(Stanford Medicine), Irene Wapnir(Stanford University), Howard Y. Chang(Howard Hughes Medical Institute), Jeffrey A. Norton(Stanford Medicine), Michael T. Longaker(Stanford Medicine)
Cited by 209Open Access
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