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Hagfish embryos show developmental features that contradict the idea that these jawless fish are the most primitive living vertebrates. The findings also help to trace the evolution of vertebrate cranial structure. See Article p.175
Malfunction of presenilin enzymes, which cleave proteins in cell membranes, can lead to Alzheimer's disease. A crystal structure of a microbial presenilin provides insights into the workings of this enzyme family. See Article p.56
Irrespective of an organism's size, the proportional sizes of its parts remain constant. An experimental model reveals size-dependent adjustment of segment formation and gene-expression oscillations in vertebrates. See Letter p.101
A thermal effect predicted more than 40 years ago was nearly forgotten, while a related phenomenon stole the limelight. Now experimentally verified, the effect could spur the development of heat-controlling devices. See Letter p.401
It is increasingly accepted that metabolic changes in cancer cells can drive tumour formation. The finding that the SIRT6 protein suppresses tumour formation by regulating metabolism adds weight to this view.
Tet proteins regulate gene expression by removing methyl groups from DNA bases. This activity may be a facilitating step in turning on the cell-division pathway that produces sperm and egg cells. See Letter p.443
A method has been developed to compute the precise quantum-mechanical properties of certain insulators. This approach avoids the uncertainties that are intrinsic to predictions made using existing approaches. See Article p.365
A sample of the hydroxyl radical has been cooled to a temperature of a few millikelvin. The result opens the door to observing phenomena such as Bose–Einstein condensation of molecules in their ground state. See Letter p.396
The RNA-binding protein FMR1 has a key role in the neurodevelopmental disorder fragile X syndrome, but the RNAs targeted by the protein were mostly unknown. An analysis reveals thousands of possible targets. See Article p.382
A class of fluorescent organic molecule has been designed that enables highly efficient light-emitting diodes to be made. The devices may turn out to be competitors to their conventional analogues. See Letter p.234
Constructing the history of star formation over cosmic time requires an understanding of how starlight is absorbed by dust in galaxies. It now seems that there is less universality in such absorption across galaxies than expected.
The discovery of a dramatic structural rearrangement that is stabilized by an RNA scaffold helps to explain how nascent proteins are delivered for export from the cell cytoplasm. See Letter p.271
The Convention on Biological Diversity has pledged to reduce species-extinction threats around the globe by 2020. Analysis shows that this goal is achievable but requires a significant increase in the current rate of investment.
The widest binary star systems pose a challenge to theory: true stellar twins could not form so far apart. Simulations suggest these twins are in fact triplets, two of which masquerade as one star and cast out the third. See Letter p.221
As the recipients of the 2012 science Nobel prizes gather in Stockholm to celebrate and be celebrated, News & Views shares some expert opinions on the achievements honoured.
As the recipients of the 2012 science Nobel prizes gather in Stockholm to celebrate and be celebrated, News & Views shares some expert opinions on the achievements honoured.