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New glioblastoma models to study a devastating disease
From the Monnat Lab, University of Washington Departments of Laboratory Medicine and Pathology, Genome Sciences and the Cancer Consortium
Humanized mice and in vivo therapeutic production? This is not science fiction
From the Richard James Lab, Seattle Children’s Research Institute and the Cancer Consortium
Taming viral threats after lifesaving transplants
From the Boeckh Lab, Vaccine and Infectious Disease Division
Exposing viral vulnerabilities for targeted cancer vaccines
From the Boonyaratanakornkit, Phipps, Pancera, and McGuire Labs, Vaccine and Infectious Disease Division
Deep mutational scanning gives new insights into flu virus evolution
From the Bloom Lab, Basic Sciences Division
Histone H4 represses histone gene expression during the cell cycle
From the Henikoff Lab, Basic Sciences Division
Carrera contra reloj: Cronogramas más cortos mejoran las predicciones de la gripe
Del Laboratorio Bedford, Departamento de Vacunas y Enfermedades Infecciosas
Mapeo de la diversidad oculta de tumores cerebrales pediátricos
Del Laboratorio Holland, Departamento de Biología Humana
Screened, but not finished
From the Christopher Li research group, Public Health Sciences Division
Extramedullary disease shapes toxicity risk in BCMA CAR T therapy
From the Gauthier Group, Clinical Research Division
Giving CAR T a second life in osteosarcoma
From the Meshinchi Lab, Clinical Research Division and Translational Science and Therapeutics Division
Space Invaders: Extracellular bacterial occupation alters tumor fate
From the Bullman Lab, Human Biology Division
Understanding Parkinsonism after CAR T therapy
From Drs. John Sanderson, Kimmy Su, Anny Lin, and Yujie Wang, University of Washington Department of Neurology and Dr. Rahul Banerjee, Clinical Research Division
Dysregulated purine metabolism produces profound neurodevelopmental defects
From the Kollman and Wills Labs, University of Washington Biochemistry Department
MGRN1 and ATRN cooperate to regulate melanocortin signaling
From the Kong Lab, University of Washington Biochemistry Department
Mapping the hidden diversity of pediatric brain tumors
From the Holland Lab, Human Biology Division
RNA accumulation turns an essential embryonic gene against muscle
From the Tapscott Lab, Human Biology Division
Down to the wire: Shorter timelines make better flu predictions
From the Bedford Lab, Vaccine and Infectious Disease Division
Hidden reactivation, active immunity: Mapping the immune response to HSV-2
From the Lund Lab, Vaccine and Infectious Disease Division
Naturally killing thymus regeneration
From the Dudakov Lab, Translational Science and Therapeutics Division