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Gut microbial metabolites are known to impact many physiological processes of the host and play a critical role in immune-homeostasis. Here the authors review our current understanding and appreciation of the importance of microbially derived tryptophan catabolites during both health and disease.
Targeting DNA repair-deficient tumors is one of the most promising therapeutic strategies in cancer research; however, accurately predicting which tumors will respond can be a challenge. Here the authors present a review of the current state of knowledge in DNA repair deficiency across human cancers.
Inflammation is a component of many chronic inflammatory diseases and yet it is understudied in medicine. Here, the authors review novel insights in to inflammation and how impairment of its resolution can lead to diseases.
Eruptive styles at a single volcano may transition from explosive to effusive behaviour (or vice versa) at any given time. This review examines the underlying controls on eruptive styles such as magma viscosity, degassing and conduit geometry at volcanoes with silicic compositions.
Excitons, quasi-particles of tightly bound electron-hole pairs, dominate the optical response of atomically thin transition metal dichalcogenides. Here, the authors review strong light-matter coupling in two-dimensional semiconductors arising from confined excitons interacting with trapped photons or localized plasmons.
Metal dissolution from atmospheric aerosol deposition plays an important role in enhancing and inhibiting phytoplankton growth and community structure. Here, the authors review the impacts of trace metal leaching from natural and anthropogenic aerosols on marine microorganisms over short and long timescales.
Understudied in the Antarctic system are the subsurface interfaces between ice-sheet, ocean and geological substrate. Here, the authors review our understanding of these components and propose new avenues of holistic dynamic modeling to achieve a unified understanding of past, present and future polar climate.
Temporary association of metabolic enzymes is generally assumed to facilitate substrate channelling within the complex. In this review, Lee Sweetlove and Alisdair Fernie outline the nature and functional consequence of organising enzymes into assemblies, and discuss applications within the natural world and synthetic biology.
Rydberg molecules have been extensively studied both theoretically and experimentally. Here the authors review the recent developments in the study of various types of Rydberg molecules and their potential for future applications in spectroscopy, sensing and quantum information.
CRISPR has rapidly become an indispensable tool for biological research. Here Mazhar Adli reviews the current toolbox for editing and manipulating the genome and looks toward future developments in this fast moving field.
Condensation trails produced by jet aircraft contribute to anthropogenic climate change, yet the magnitude of their impact remains unclear. Here, the author reviews progress in understanding contrails since the last IPCC report (1999), assesses the remaining uncertainty, and identifies potential mitigating options and pathways forward.
Targeted delivery strategies based on nanocarriers have immense potential to change cancer care but current strategies have been shown only limited translation in the clinic. Here, the authors survey the challenge, progress and opportunities towards targeted delivery of cancer therapeutics.
The phase state of organic particles in the atmosphere has important consequences for the impact of aerosols on climate, visibility, air quality and health. Here, the authors review the evidence for the formation of amorphous glassy particles and the methods for determining aerosol particle viscosity.
Miniaturized spacecraft built from advanced nanomaterials are poised for unmanned space exploration. In this review, the authors examine the integration of nanotechnology in electric propulsion systems and propose the concept of self-healing and adaptive thrusters.
Inorganic compounds with multiple anions have added a new dimension to the discovery of materials. Here the authors review the recent progress in the development of mixed-anion compounds, focusing on the roles of multiple anions in synthesis, characterization and properties.
This review summarizes how predictive modeling, a method that uses brain features to predict individual differences in behavior, is used to understand developmental periods. Rosenberg et al focus specifically on adolescence and examples of characteristic adolescent behaviors such as risk-taking.
The current generation of adolescents grows up in a media-saturated world. Here, Crone and Konijn review the neural development in adolescence and show how neuroscience can provide a deeper understanding of developmental sensitivities related to adolescents’ media use.
Recall-by-Genotype (RbG) is an approach to recall participants from genetic studies based on their specific genotype for further, more extensive phenotyping. Here, the authors discuss examples of RbG as well as practical and ethical considerations and provide an online tool to aid in designing RbG studies.
Gene expression and behaviours are intimately related, and their interactions can play out over timescales from developmental to evolutionary. Here, the authors review how temporal aspects of gene expression mediate behavioural responses to the environment, a key question in behavioural genomics.