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How protective antibodies get in malaria’s way
Fred Hutch researchers’ structural insights help reveal weak spot in parasite’s mode of attack, could guide vaccine design
Jennifer Doudna: ‘Curiosity-driven, fundamental science’ underpins Nobel Prize-winning work
CRISPR pioneer spoke at inaugural Fred Hutch President’s Seminar, outlined goals for gene-editing technology
Searching beyond the streetlight to uncover functional protein domains
From the Paddison Lab, Human Biology Division
Dr. Melody Campbell named Pew Scholar
Structural biologist explores how cells interact with their surroundings
Stabilization or degradation? A long-standing Myc model amended
From the Clurman Lab, Human Biology & Clinical Research Divisions
Improving computational protein design for real-world applications
From the Stoddard Lab, Basic Sciences Division, and the Bradley Lab, Public Health Sciences Division
'Blobology' no more
Cryo-EM microscopy opens up biology at atomic scales
Telling friend from foe in the bacterial immune system
From the Stoddard lab, Basic Sciences Division
Taking the long way ‘round: the circuitous molecular route to DNA repair
From the Smith Lab, Basic Sciences Division
Self-assembling, donut-shaped nanoparticles form novel platform for development of new biomolecules
Scientist-designed protein scaffolds offer several advantages over molecular backbone currently used in research and clinical applications
Decoding your immune system’s memories
Hutch researchers take a step toward reading the genetic record left by a lifetime of fighting disease
Transcriptional activators derive order from chaos
From the Hahn Lab, Basic Sciences Division