Structure of the Allochromatium vinosum LH1–RC complex.

High-resolution structure of a core bacterial light-harvesting complex

  • Kazutoshi Tani
  • Ryo Kanno
  • Zheng-Yu Wang-Otomo


  • magnifying glass

    We welcome early career researchers to act as peer reviewers for Communications Biology! If you you would like to be considered, please complete the Google form in the heading above.

  • Lidewij Schipper

    Dr. Lidewij Schipper is a principal scientist at Danone Nutricia Research (Utrecht, The Netherlands). In addition, she holds a position as guest-researcher at University of Groningen (The Netherlands). In her research, she focuses on the effects of maternal and early life nutrition on infant neurodevelopment and function.

  • virus titers

    Here, Day-Yu Chao discusses their study suggesting that the low Zika virus incidence in Southeast Asia could be partly explained by the high endemicity of JEV and DENV in the region, which induced cross-neutralizing antibody responses against Zika virus.

  • microbes floating

    For this collection, the editors at Nature Communications, Communications Biology, and Scientific Reports invite research that explore the various microbial interactions that occur in oceans.


  • Nanoparticle therapy continues to be an attractive avenue of targeted and personalised therapies. A molecular nano-conjugate developed by Zeng et al. effectively targets cancer cells and aids in their diagnosis, therapy, and also optimises innate immune responses.

    • Sharmistha Chatterjee
    Research HighlightOpen Access
  • Despite ample investigation on cis-regulatory alterations in evolution, the contribution of these effects to environmental adaptation is poorly understood. Ballinger and colleagues dissected the cis- and trans-regulatory impact on gene expression associated with the adaptation of house mice to temperate and tropical climates, highlighting potential mechanisms acting at a short evolutionary timescale.

    • Christina Paliou
    Research HighlightOpen Access
  • The physical properties of the cells and proteins surrounding a tumor play a crucial role in determining the spread of the cancer. How they change cancer cells to suppress the immune response against them is an interesting question addressed in a recent study from Liu et al., which describes how increased stiffness of the tissue around the tumor decreases the amount of a protein—cyclic GMP-AMP synthase—in cancer cells, ultimately blocking the immune response to cancer.

    • Joel P. Joseph
    Research HighlightOpen Access
  • As a monogamous species, the prairie vole is a common model for social neuroscience. Gustison and colleagues mapped a whole-brain histological atlas of the prairie vole and used this atlas to identify a neural network of pair-bonding behaviour. The study reveals coordinated neural networks in mated pairs and highlights the influence of social bonding on neural processing in the adult prairie vole brain.

    • Lindsey T. Thurston
    Research HighlightOpen Access
  • Nanopores have the potential to revolutionize the field of protein sequencing, but due to the biochemical complexity of polypeptide sequences, they have remained mostly theoretical. In recent work, Sauciuc et al. engineer the protein nanopore CytK to produce an electroosmotic force capable of translocating unfolded polypeptides regardless of their charge distributions, an important step toward single-file protein nanopore sequencing.

    • Jelle van der Hilst
    Research HighlightOpen Access
3D rendered illustration of T-cells of the immune system attacking growing cancer cells

Tumour microenvironment

This Collection welcomes submissions on the interplay between tumours and their microenvironment, as well as how these interactions impact on cancer therapy.
Open for submissions


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