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Switching Off to Survive: Unraveling KAT5’s Control of Glioblastoma Dormancy
From the Paddison Lab, Human Biology Division
Sleepy cells rely on Sir2 to remodel their DNA landscape
From the Tsukiyama Lab, Basic Sciences Division
Actively inactive: the regulation of RNA during quiescence in yeast cells
From the Tsukiyama Lab, Basic Sciences Division
Ssd1-2 RNA binding protein directs sporulation in response to stress
From the Breeden Lab, Basic Sciences Division
Geneticist and cell-cycle expert Dr. Linda Breeden retires
Revealed genetic underpinnings of cell cycle and cell dormancy
Chromatin fibers: oh what a tangled web we weave
From the Tsukiyama Lab, Basic Sciences Division
Rude Awakening: examining the cell’s rapid recovery from quiescence
From the Tsukiyama lab, Basic Sciences Division
For cells, keeping quiet is a cinch
Researchers show how dormant cells turn genes off by pulling DNA into loops
How cells put themselves to sleep
Discoveries about hibernating yeast could help us understand why some cancers resist chemo