Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Our efforts to build complex synthetic biology circuits are impeded by limited knowledge of optimal combinations. In this review, the authors consider current combinatorial methods and look to emerging technologies.
The 2019 Nobel Prize in Chemistry has been awarded to a trio of pioneers of the modern lithium-ion battery. Here, Professor Arumugam Manthiram looks back at the evolution of cathode chemistry, discussing the three major categories of oxide cathode materials with an emphasis on the fundamental solid-state chemistry that has enabled these advances.
Multiplexed CRISPR technologies have recently emerged as powerful approaches for genetic editing and transcriptional regulation. Here the authors review this emerging technology and discuss challenges and considerations for future studies.
Mitochondrial metabolites contribute to more than biosynthesis, and it is clear that they influence multiple cellular functions in a variety of ways. Here, Martínez-Reyes and Chandel review key metabolites and describe their effects on processes involved in physiology and disease including chromatin dynamics, immunity, and hypoxia.
Lithium is in increasing demand for energy storage and is abundant in seawater, but its extraction is challenging due to coexistence with similar ions. Here the authors review recent advances in lithium separation strategies, focusing on the development of nanochannel and nanopore based membranes.
The recent collapses of ice shelves in Antarctica due to warming make it essential to understand past ice shelf conditions and mechanisms. Here Smith and colleagues review the latest progress in deciphering the geological imprint of Antarctic ice shelves via sediments, landforms and proxy indicators.
High entropy alloys are a departure from conventional alloy design. In this review, the authors examine how combinations of hetererogeneities specific to high entropy alloys can overcome the strength–ductility trade-off inherent to traditional alloys.
Perception of red and far-red light by photosensory phytochromes regulates plant development and adaptive responses to light. Here, Legris et al. review current models of phytochrome function connecting light-induced conformational changes to physiological outputs and highlight open questions for future research.
Swarms of crustaceans called krill dominate Antarctic ecosystems, yet their influence on biogeochemical cycles remains a mystery. Here Cavan and colleagues review the role of krill in the Southern Ocean, and the impact of the krill fishery on ocean fertilisation and the carbon sink.
The scar formation that occurs following spinal cord injury has properties that are distinct to scars seen in other areas of the CNS, and in other tissues. Here the authors discuss the components of the spinal cord injury scar and how it can have both detrimental and positive roles in relation to recovery.
In pancreatic cancer, the epigenomic landscape can strongly impact the disease phenotype. Here, the authors discuss recent advances in our understanding of pancreatic cancer epigenomics, and how this knowledge can integrate with precision medicine approaches in this lethal disease.
Ice sheets have long been overlooked as regulators of the global carbon cycle. In this Review, Wadham and colleagues show how the growth and retreat of ice sheets support the productivity of the oceans and variably store or release organic carbon–in effect, these frozen landscapes must be considered in future assessments of climate impacts on biogeochemical cycling.
Subseafloor microbial activities are central to global biogeochemical cycles, affecting Earth’s surface oxidation, ocean chemistry, and climate. Here the authors review present understanding of subseafloor microbes and their activities, identify research gaps, and recommend approaches to fill those gaps.
Memristor as the fourth basic element of electric circuits has drawn substantial attention for developing future computing technologies. Sun et al. report the progress and the challenges facing researchers on understanding memristive switching, and advocate continuous studies using a synergistic approach.
Glycomics is gaining momentum in basic, translational and clinical research. Here, the authors review current reporting standards and analysis tools for mass-spectrometry-based glycomics, and propose an e-infrastructure for standardized reporting and online deposition of glycomics data.
While natural gas and fossil fuels power human activities, increasing concerns over fuel reserves and environmental impacts require finding alternative, renewable resources. Here, authors review the fundamental science and progress on solar-powered conversion of carbon dioxide to methane.
The reciprocal interaction between genetic and cultural evolution is well recognised in humans. Here, Whitehead and colleagues review the growing body of evidence that culture is also a major driver of both neutral and adaptive genetic evolution in non-human animals.
Engineering microbial cell factories for the production of useful plant natural products (PNPs) is a resource-conserving and environmentally-friendly synthesis route. Here, the authors review recent developments that enable engineering of hosts, pathways, and enzymes to make PNPs and PNP derivatives.
Immune cells adapt distinct metabolic strategies to accommodate specific functions associated with cell types or differentiation stages. Here in this review the authors discuss the nutrients, sensors, and mediators of such a metabolic adaption in nutrient-limiting immune microenvironments such as tumors or infections.
Pure organic molecules displaying room-temperature phosphorescence (RTP) are a rapidly emerging class of luminophores. In this Review, the authors discuss the principles for their rational design and development, from the underlying photophysical mechanisms of organic RTP, to enhancement and processing strategies for their practical application.