First, Aravinda Chakravarti drew a map of how scientists might unravel the genetics of complex disease. Then he blazed the trail.
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Unwilling to accept the finality of terminal differentiation, Helen Blau has honed techniques that showcase the flexibility of cells to adopt different identities.
In exploring how embryos take shape, John Wallingford has identified a key pathway involved in vertebrate development—and human disease.
For Michael Dickinson, Drosophila are more than winged gene holders—they’re sophisticated systems for translating sensory information into flight instructions.
With persistence and pluck, Leslie Vosshall managed to snatch insect odorant receptors from the jaws of experimental defeat.
Inspired by Darwin, Mohamed Noor has uncovered the molecular dance by which a single species becomes two.
Rudolf Jaenisch enjoys climbing mountains, rafting rapids, and unraveling the secrets of pluripotency—knowledge that could someday lead to personalized regenerative medicine.
Her doctoral advisor told her to amuse herself, and Fiona Watt has done just that—probing individual stem cells and determining the genes and molecules that direct them to differentiate or cause them to contribute to cancer.
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