Volume 28

  • No. 9 September 2021

    Targeting a SARS-CoV-2 pseudoknot

    A cryo-EM structure of the pseudoknot-forming SARS-CoV-2 frameshift stimulation element guides development of antisense oligonucleotides that impair virus replication.

    SeeZhang et al.

  • No. 8 August 2021

    Tracking SMC complex collisions

    Hi-C analyses of engineered Bacillus subtilis strains with defined genomic SMC-loading sites reveal a variety of chromosome folding patterns that require SMC complexes to bypass each other.

    See Article by Brandão, Ren et al.

  • No. 7 July 2021

    TRP channels feel the heat

    Cryo-EM structures of the sensory ion channels TRPV1 and TRPV3 at different temperatures reveal mechanistic principles of heat-dependent gating.

    See Kwon et al. and Nadezhdin, Neuberger et al.

  • No. 6 June 2021

    Retinoids induce 2CLC reprogramming

    Retinoic acid signaling regulates the 2-cell-stage program and is essential for zygotic genome activation and developmental progression of mammalian embryos.

    See Iturbide et al.

  • No. 5 May 2021

    PDB 50th anniversary: celebrating the future of structural biology

    In honour of the 50th anniversary of the Protein Data Bank, we and our colleagues at Nature Methodspresent a special online Collection that celebrates the past and future of structural biology.

    See Editorial

  • No. 4 April 2021

    Targeted inhibition of AAA proteins

    AAA proteins can be specifically targeted using a newly designed small-molecule inhibitor that covalently binds to a genetically introduced cysteine.

    See Technical Report by Cupido, Jones et al.

  • No. 3 March 2021

    A bottleneck in sphingolipid synthesis

    Cryo-EM structures of serine palmitoyltransferase, a large enzyme complex that catalyzes the rate-limiting step in sphingolipid biosynthesis, reveal principles of its regulation and substrate selectivity.

    See Article by Li, Xie, Liu et al. and Article by Wang et al.

  • No. 2 February 2021

    Proteome imbalance in cataract formation

    Analyses of eye lenses from mouse strains that develop cataract due to mutations in α-, β-, or γ-crystallin proteins reveal that the mutant protein levels are largely reduced, whereas other crystallin proteins, including α-crystallins, precipitate.

    See Article Schmid et al.

  • No. 1 January 2021

    Architecture of the ciliary radial spoke

    Structural work reveals the architecture of the radial spoke in unprecedented detail and provides insights into the mechanoregulation of motile cilia.

    See Article by Grossman-Haham et al. and Article by Gui et al.