Multiomic analysis reveals conservation of cancer-associated fibroblast phenotypes across species and tissue of origin
Deshka S. Foster, Michael Januszyk, Daniel Delitto, Kathryn E. Yost, Michelle Griffin, Jason Guo, Nicholas Guardino, Andrea E. Delitto, Malini Chinta, Austin Burcham, Alan Nguyen, Khristian E. Bauer-Rowe, Ashley L. Titan, Ankit Salhotra, Ruth Ellen Jones, Oscar da Silva, Hunter G. Lindsay, Charlotte E. Berry, Kellen Chen, Dominic Henn, Shamik Mascharak, Heather E. Talbott, Alexia Kim, Fatemeh Nosrati, Dharshan Sivaraj, Ryan C. Ransom, Michael R. Matthews, Anum Khan, Dhananjay Wagh, John A. Coller, Geoffrey C. Gurtner, Derrick C. Wan, Irene Wapnir, Howard Y. Chang, Jeffrey A. Norton, Michael T. Longaker
Topics & Concepts
TranscriptomeBiologyPhenotypeCancer-Associated FibroblastsPopulationTumor microenvironmentChromatinFibroblastCell biologyCancer researchComputational biologyCancerGeneticsCell cultureGene expressionGeneMedicineEnvironmental healthCancer Cells and MetastasisSingle-cell and spatial transcriptomicsImmune cells in cancer