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Development of an optical method to inactivate synaptic receptors in mice with temporal precision will enable a better understanding of their roles in cognition.
Heterogeneity in growth phenotypes and drug susceptibility in bacterial and mammalian cells are assayed at the single-cell level using multiplexed resonant mass sensors.
Protease-free expansion of organ-size tissue enables multiplexed super-resolution imaging of protein organization from the tissue-wide scale down through the nanoscale.
Analyzing and integrating a broad range of behavioral phenotypes enables prediction of underlying genetic mutations in mouse models of Huntington's disease.