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Frogs help Fred Hutch find the shape of small things
Dr. Yasuhiro Arimura brings frogs back to Fred Hutch after a long absence to study the structure of DNA-linked molecular complexes that change during the cell cycle and malfunction in cancer and other diseases
X-scape artistry: CTCF insulates X-linked genes from silencing
From the Disteche Lab, University of Washington Department of Laboratory Medicine & Pathology and the Cancer Consortium program in Cancer Basic Biology
Las células cancerosas también valoran a sus redes de apoyo familiar
Del laboratorio Eisenman, División de Ciencias Básicas, y del laboratorio MacPherson, División de Biología Humana.
El interruptor molecular para el exceso y la carencia de nutrientes tiene un mismo regulador
Del Laboratorio Rajan, División de Ciencias Básicas
Sniffing out new discoveries
Epithelial cells in the head of a tiny worm play a critical role in protecting the structure and function of key nervous system cells
Actively inactive: the regulation of RNA during quiescence in yeast cells
From the Tsukiyama Lab, Basic Sciences Division
Identifying key players of nuclear envelope budding regulation in Drosophila
From the Parkhurst Lab, Basic Sciences Division
Delineating transcriptional regulatory processes in yeast
From the Hahn Lab, Basic Sciences Division
A little nervous system with big learning potential
From the Singhvi Lab, Basic Sciences Division
Outpacing evolution: synthetic protein design for biomedical application
From the Stoddard Lab, Fred Hutch Basic Sciences Division, and the Baker Lab, University of Washington
One gene, two functions in bacterial immunity
From the Stoddard Lab, Basic Sciences Division and the Kaiser Lab, Seattle University
Taking a closer look at DNA double-strand break hotspots
From the Smith Lab, Basic Sciences Division
Peeling back the layers of a cell’s epigenomic data
From the Henikoff and Setty labs, Basic Sciences and Public Health Sciences Divisions
The cell’s two-pronged approach to mitigating genetic errors
From the Bradley Lab, Public Health Sciences and Basic Sciences Divisions
Cellular choke artist: Aurora B doesn’t perform well under pressure
From the Biggins Lab, Basic Sciences Division
The evolving landscape of sarbecovirus ACE2 binding
From the Bloom lab, Basic Sciences and Public Health Sciences Divisions
Cbf1 plays transcriptional traffic cop to balance centromere function
From the Biggins lab, Basic Sciences Division
LinE proteins lead the way in DNA break hotspot determination
From the Smith Lab, Basic Sciences Division
Antibody, how do I escape thee? Let me count the ways.
From the Bloom Lab, Basic Sciences and Public Health Sciences Divisions