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The EMBO Journal

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The EMBO Journal has been EMBO's flagship publication for almost 30 years. With a scope that spans all areas of molecular biology, the journal has an international reputation for quality and originality. Published papers are amongst the best in their fields, providing novel insights into biological problems.

It is highly appreciated by scientists throughout the world. This is reflected not only in the approximately similar submission rates from Europe and non-European countries, but also by the fact that leading scientists throughout the world provide the editors with expert refereeing, ensuring high quality, trustworthy articles published in The EMBO Journal.

The following Subject categories structure current and archived content of The EMBO Journal, and ensure readers interested in particular areas of molecular biology will find relevant information easily.

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Publications

The EMBO Journal - Issue - nature.com science feeds
  • Rac1 gets fattier
    Rac1 gets fattierThe identification of Rac1 palmitoylation reveals how Rac1 changes subcellular localization to modulate its signalling function.
  • A structural road map to unveil basal body composition and assembly
    A structural road map to unveil basal body composition and assemblyThe Basal Body is the template for the axoneme, the internal scaffolding of cilia and flagella. Bettencourt-Dias and colleagues comment on an article by David Agard's group, in which they characterize the structure of the basal body by electron cryo-tomography and reveal new clues into its biogenesis and function.
  • RNA driving the epigenetic bus
    RNA driving the epigenetic busData on the biological significance of long non-coding RNAs remain scarce. Recent work functionally annotated long non-coding RNAs in both mice and humans with an emphasis on pluripotency and neural differentiation.
  • Mechanism of nucleotide sensing in group II chaperonins
    Mechanism of nucleotide sensing in group II chaperoninsGroup II chaperonins mediate ATP-dependent protein folding in eukaryotes and archaea. A series of crystal structures and functional studies of an archaeal chaperonin identify a nucleotide-sensing loop that is involved in the timing of the protein folding cycle.
  • Human long non-coding RNAs promote pluripotency and neuronal differentiation by association with chromatin modifiers and transcription factors
    Human long non-coding RNAs promote pluripotency and neuronal differentiation by association with chromatin modifiers and transcription factorsAn array-based approach identifies hESC-specific novel long non-coding RNAs (lncRNAs) that are essential for the maintenance of pluripotency and indispensable for neuronal differentiation. A number of these lncRNAs directly interact with the pluripotency regulators SOX2 and PRC2.

EDITORS & CONTACT

Chief Editor
Bernd Pulverer

Editors
 David Alamo
Isabel Arnold
Celine Carret
Karin Dumstrei
Stan Gorski 
Thomas Schwarz-Romond
Hartmut Vodermaier

Editorial Assistants
Jana Christopher
Fiona Panayi
Meryl Schneider
Gerlinde Schuster

website www.embojournal.org
contact @ embojournal.org