Leading on from The Genome Analysis Centre's (TGAC) previous announcement of their new bread wheat genome assembly, the landmark resource is now publically available to download at the European Bioinformatics Institute's (EMBL-EBI) Ensembl database for full analysis.

The Ensembl Plants pre-site has issued the first release of the genome assembly of Triticum aestivum cv. Chinese Spring, generated by TGAC. This is the most complete and accurate bread wheat genome assembly to date with 91 per cent (98,974 genes) of the total genome annotated and assembled -- a total sequence length of 13.4GB.

Scientists are continually unearthing new facts about Homo sapiens from the mummified remains of Ötzi, the Copper Age man, who was discovered in a glacier in 1991.

Five years ago, after Ötzi's genome was completely deciphered, it seemed that the wellspring of spectacular discoveries about the past would soon dry up.

An international team of scientists have now succeeded in demonstrating the presence of Helicobacter pylori in Ötzi's stomach contents, a bacterium found in half of all humans today. The theory that humans were already infected with this stomach bacterium at the very beginning of their history could well be true. The scientists succeeded in decoding the complete genome of the bacterium.

Consider the engineering marvel that is your foot. Be it hairy or homely, without its solid support you'd be hard-pressed to walk or jump normally.

Now, researchers at the Stanford University School of Medicine and the HudsonAlpha Institute for Biotechnology in Huntsville, Alabama, have identified a change in gene expression between humans and primates that may have helped give us this edge when it comes to walking upright. And they did it by studying a tiny fish called the threespine stickleback that has evolved radically different skeletal structures to match environments around the world.

EUGENE, Ore. -- Jan. 7, 2016 -- All it took was one mutation more than 600 million years ago. With that random act, a new protein function was born that helped our single-celled ancestor transition into an organized multicellular organism.

That's the scenario -- done with some molecular time travel -- that emerged from basic research in the lab of University of Oregon biochemist Ken Prehoda.

The mutation and a change it brought in protein interactions are detailed in eLife, an open-access journal launched in 2012 with support of the Howard Hughes Medical Institute, the Max Planck Society and the Wellcome Trust.

A group of protein kinases have been found to play an important role in embryo development and may even be a potential cancer drug target, says research led by Queen Mary University of London (QMUL) and the Francis Crick Institute, UK.

The study, published in Cell Reports, is the first description of knockouts of a whole family of protein kinases (PKN1-3) in mice and reveals roles in congenital birth defects such as spina bifida.

The team knocked out a whole kinase family but, unusually, only one member (PKN2) appeared to be important in development and warrants renewed attention.

DURHAM, N.C. -- Duke University researchers have figured out how a developmental disease called microcephaly produces a much smaller brain than normal: Some cells are simply too slow as they proceed through the neuron production process.

Published online Jan. 7 in the journal Neuron, the findings provide not only a new mechanistic explanation for microcephaly, but they could also aid understanding of autism or other neurodevelopmental disorders that are thought to arise from disruptions in the proper balance of neurons in the brain.

If you are allergic, you might need to thank a Neanderthal. 

When modern humans began interbreeding with Neanderthals tens of thousands of years ago, the exchange left humans with gene variations that increased our ability to ward off infection and left some people more prone to allergies.

So if you like your immune system, you might need to thank a Neanderthal for that also.

Take any religion that claims to be about peace and it will have a violent history. And while Islam is the most violent religion claiming to be peaceful today, Christians commit plenty of hateful acts - and Buddhists have extremists in their ranks as well.

Forests can store as much as 45 percent of the world's terrestrial carbon, making them a critical part of the process of regulating climate change.

As global temperatures rise, though, the organic matter in forests appears to break down more quickly, accelerating the release of carbon into the atmosphere.

This surprising conclusion comes out of a long-term study that was intended to find means to mitigate global warming, not exacerbate it.

How more than 1,000 tree species may occur in a small area of forest in Amazonia or Borneo is an unsolved mystery. Their ability to co-exist may depend on how trees get along with their neighbors. A new study based, in part, on data from the Smithsonian's Forest Global Earth Observatory (ForestGEO) network shows that trees worldwide compete in some of the same ways, making simpler models of forest response to climate change possible.