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Sequencing technology is now advanced enough to decode individual human genomes. Will it prove to be better than existing methods for discovering the genetic basis of human phenotypic variation?
Researchers describe a method for protein identification and quantification based on electron-vibration-vibration two-dimensional infrared spectroscopy.
With increasing numbers of well-characterized stem cell lines and improved culture and differentiation technologies, more scientists are testing the waters of stem cell research.
New findings challenge the assumption that aggregate genotype data, in which the single-nucleotide polymorphism (SNP) profiles of many people are pooled, conceal the identity of the individuals within that pool.
The fourth anniversary of Nature Methods' arrival on the publishing scene and a change in leadership offer an opportunity for reflection and editorial fine-tuning.
Researchers at two Boston–based neuroscience centers are working to develop new imaging tools and technology with the hope of discovering the secrets behind how the brain functions.
Fluorescent proteins with new photoswitching properties allow multilabel imaging at a single detection wavelength and dual-color superresolution microscopy.