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Nature Research congratulates the awardees of the 2017 Nobel Prize in Chemistry - Jacques Dubochet, Joachim Frank and Richard Henderson. Their pioneering work on the use of cryo-electron microscopy to solve high-resolution structures of biomolecules has provided unprecedented insights into the complexity of life. Here, we present a Collection of Research, Methods, Reviews and Comment pieces from Nature Research to celebrate the award.
Using electron cryomicroscopy, the closed-state structure of rabbit RyR1 is determined at 4.8 Å resolution; analysis confirms that the RyR1 architecture consists of a six-transmembrane ion channel with a cytosolic α-solenoid scaffold, and suggests a mechanism for Ca2+-induced channel opening.
Functional analyses of the ABC-F protein YjjK (EttA) suggest that it acts as a sensor of cellular energy and controls entry into the translational elongation cycle. Using cryo-EM and single-molecule FRET, EttA is shown to bind the ribosomal E site and engage both the L1 stalk and P-site tRNA to restrain ribosomal dynamics.
Although ABC-F proteins represent a ubiquitously distributed type of ATP-binding cassette (ABC) family member across phyla, their biological functions remain poorly characterized. A new study now shows that the bacterial ABC-F protein YjjK (EttA) gates ribosome entry into the translational cycle in an energy-dependent manner.