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Can science thrive during an economic downturn? In a series of seven Commentaries, introduced on page 957, specialists in policy-making, history, economics and innovation offer advice that might help. For more online extras see www.nature.com/recessionwatch [Cover illustration: Daniel Mackie.]
The global economic downturn brings both predicament and promise. How will science fare and what role should scientists play on the long road back to recovery and growth? Ten of the world's leading thinkers and practitioners provide analysis, experience and advice.
Nobel prizewinner Paul Krugman's updated analysis of past economic crises teaches us that recovery now will require more than a new set of rules, explains Bill Emmott.
Communicating the ideas of evolution is as much a challenge now as it was 150 years ago. In the wake of his recent BBC television programme, Charles Darwin and the Tree of Life, naturalist and broadcaster David Attenborough tackles those who challenge evolution head on.
Apparently pristine African tropical forests are increasing in tree biomass, making them net absorbers of carbon dioxide. Is this a sign of atmospheric change, or of recovery from past trauma?
Neurodegeneration often has disease connotations. However, it is also a developmental process for fine sculpting of the nervous system. One signalling cascade might mediate the process in both circumstances.
An innovative approach for exciting and detecting signals in magnetic resonance imaging not only improves image quality but also enables radical changes in scanner design by freeing up space around the patient.
Striking instances of larval metamorphosis, and of adult sexual dimorphism, are not uncommon in the animal world. But especially dramatic examples of these phenomena have emerged from the deep sea.
The known world of RNA is expanding faster than that of any other cellular building block. The latest additions are types of long and short non-coding RNAs formed by bidirectional transcription and unusual processing.
The Leo ring is a massive, 200-kpc-wide structure orbiting the galaxies M105 and NGC3384 with a 4-Gyr period. This paper reports ultraviolet light originating from gaseous substructures, which is attributed to recent massive star formation. If structures like the Leo ring were common in the early Universe, they may have produced a large, yet undetected population of faint, metal-poor, halo-lacking dwarf galaxies.
Magnetic resonance imaging is widely used in the sciences and medicine, with the same basic underlying detection principle: the need for intimate coupling between nuclear magnetization in the sample under investigation and the detector. This study now shows a new detection principle, where the nuclear magnetization signal can be excited (and detected) via a long-range interaction utilizing travelling radiofrequency waves in a suitably modified MRI system. This approach offers more uniform coverage of larger samples.
Assembling complex structures out of simple colloidal building blocks can produce materials with important practical properties and enables enhanced understanding of the self-assembly processes on several length scales. This paper shows self-assembly of a multi-component colloidal mixture of magnetic and nonmagnetic particles driven by magnetic interactions.
This study reports data from a network of long-term monitoring plots across African tropical forests, which finds that above-ground carbon storage in live trees increased by 0.63 Mg C ha−1 yr−1 between 1968 and 2007. The data is extrapolated to unmeasured forest components, and by scaling to the continent, a total increase in carbon storage in African tropical forest trees of 0.34 Pg C yr−1 is estimated. These results provide evidence that increasing carbon storage in old-growth forests is a pan-tropical phenomenon.
In vertebrates and other deuterostomes, the molecular pathway that leads to asymmetry utilizes the signalling molecule Nodal, a member of the TGF-β superfamily. But no orthologues of Nodal have been found in the other two great groups of bilaterians. This paper finds orthologues of nodal and one of its targets, Pitx, in two species of snail, and show that loss of nodal disrupts shell coiling.
This report introduces a computational model based on internet search queries for real-time surveillance of influenza-like illness (ILI), which reproduces the patterns observed in ILI data from the Centers for Disease Control and Prevention.
Neurons can perform mathematical operations such as additions, with their firing rate (the output) representing the sum of their synaptic conductances (the input). Multiplication, in turn, can result from changes in the slope (or gain) of such input–output relationship. Such changes in a neuron's sensitivity result from neuromodulation and are key to numerous higher brain computations. A study using rat cerebellum demonstrates that short-term synaptic plasticity brings the fundamental non-linearity, allowing neuromodulatory inhibition to act multiplicatively instead of additively.
This study presents the crystal structure of a Fas-FADD complex, a central feature of the so-called death inducing signalling complex. The structure reveals a new mode of death domain interactions that allows four FADD and four Fas proteins in one complex.
Nuclear pore complexes (NPCs) serve as gateways between the nucleus and cytoplasm and allow only the transport of selected macromolecules across the nuclear envelope. NPCs are comprised of a scaffold that anchors proteins called FG-nucleoporins, which contain disordered regions that line the inner surface of the pore and extend into the lumen. This study reports the design of an artificial membrane that functions as a selective filter in allowing efficient passage of transport factors and transport factor carrying cargo that specifically bind to FG-nucleoporins.
The transcriptomes of eukaryotic cells are unexpectedly complex, with virtually the entire non-repeat portions of many genomes being transcribed. Using deep sequencing, this study reveals that a remarkable breadth of RNA species that come from both within annotated genes and from unannotated intergenic regions in human cells. Many of these small RNAs possess cap structures and seem to be processed from mature mRNAs resulting in populations of long and short RNAs with capped 5' ends that coincide.
One of two papers in this issue that reveal the prevalence of cryptic or hidden transcription in the yeast genome. Cryptic unstable transcripts (CUTs) are a major class of RNA polymerase II transcripts in budding yeast and are degraded immediately after being synthesized. In these papers, high-resolution genome analyses reveal that CUTs arise predominantly from promoter regions and in an antisense direction. There is therefore a widespread occurrence of inherently bidirectional promoters in yeast.
One of two papers in this issue that reveal the prevalence of cryptic or hidden transcription in the yeast genome. Cryptic unstable transcripts (CUTs) are a major class of RNA polymerase II transcripts in budding yeast and are degraded immediately after being synthesized. In these papers, high-resolution genome analyses reveal that CUTs arise predominantly from promoter regions and in an antisense direction. There is therefore a widespread occurrence of inherently bidirectional promoters in yeast.