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Issue no. 16, 2011
Published: May 04, 2011 |
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 Europe announces projects to connect researchers | | Scientists turn 'bad fat' into 'good fat' | | Solar power goes viral | | Telescope will track space junk | | Fleeting antimatter trapped for a quarter of an hour | | Rice crops 'have single origin' | | Scorpion venom - bad for bugs, good for pesticides |
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| Europe announces projects to connect researchers |
Three ambitious biological-sciences infrastructure projects costing a
total of EUR 700m were given the go-ahead in Europe this week. Research
facilities will be built to study ecosystems' responses to environmental
change, link systems biologists across Europe and improve access to key
research microbes. The projects are part of the updated European
Strategy Forum on Research Infrastructures (ESFRI) Roadmap - a wish list
of science facilities drawn up by a group of leading researchers.
The first of the projects aims to help microbiologists, who are often
unable to maintain the microbes they work on once their research is
complete. As a result, other researchers can't carry out confirmation or
follow-up studies because the original microbial material is gone, and
it is difficult to re-isolate similar strains. The EU Microbial Resource
Infrastructure project is set to ease this problem by updating and
linking the 70 existing centres that house microbe collections in
universities and research institutes across 26 EU countries.
France is leading a second project, which will create a network linking
Europe's key experimental, analytical and modelling facilities in
terrestrial ecosystem science. The third project will connect systems
biologists across Europe to improve access to existing experimental and
modelling facilities and create data repositories. |
| Nature
May 03, 2011 |
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| Scientists turn 'bad fat' into 'good fat' |
Scientists say they have found a way to turn body fat into a better type
of fat that burns off calories and weight. The US Johns Hopkins team
made the breakthrough in rats but believe the same could be done in
humans, offering the hope of a new way to treat obesity.
Brown fat is abundant in babies, which they use as a power source to
generate body heat, expending calories at the same time. But as we age
our brown fat largely disappears and gets replaced by 'bad' white fat,
which typically sits as a spare tyre around the waist. Experts have
reasoned that stimulating the body to make more brown fat rather than
white fat could be a helpful way to control weight and prevent obesity
and its related health problems like type 2 diabetes.
The Hopkins team designed an experiment to see if suppressing an
appetite-stimulating protein called NPY would decrease body weight in
rats. When they silenced NPY in the brains of the rodents they found
their appetite and food intake decreased. Even when the rats were fed a
very rich, high-fat diet they still managed to keep more weight off than
rats who had fully functioning NPY.
The scientists then checked the fat composition of the rats and found an
interesting change had occurred. In the rats with silenced NPY
expression, some of the bad white fat had been replaced with good brown
fat. The researchers are hopeful that it may be possible to achieve the
same effect in people by injecting brown fat stem cells under the skin
to burn white fat and stimulate weight loss. |
| BBC News
May 03, 2011 |
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| Solar power goes viral |
Researchers at MIT have found a way to make significant improvements to
the power-conversion efficiency of solar cells by enlisting the services
of viruses to perform detailed assembly work at the microscopic level.
The new research is based on findings that carbon nanotubes can enhance
the efficiency of electron collection from a solar cell's surface.
Previous attempts to use the nanotubes have been thwarted by two
problems. First, the making of carbon nanotubes generally produces a mix
of two types, some of which act as semiconductors (sometimes allowing an
electric current to flow, sometimes not) or metals (which act like
wires, allowing current to flow easily). The new research, for the first
time, showed that the effects of these two types tend to be different,
because the semiconducting nanotubes can enhance the performance of
solar cells, but the metallic ones have the opposite effect. Second,
nanotubes tend to clump together, which reduces their effectiveness.
And that is where viruses come to the rescue. The team found that a
genetically engineered version of a virus called M13, which normally
infects bacteria, can be used to control the arrangement of the
nanotubes on a surface, keeping the tubes separate so they cannot short
out the circuits, and keeping the tubes apart so they do not clump. In
tests, adding the virus-built structures enhanced the power conversion
efficiency to 10.6% from 8%-almost a one-third improvement. |
| R&D Magazine / Nature Nanotechnology
Apr 25, 2011 |
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| Telescope will track space junk |
A ground-based telescope that can scan the skies faster than any other
of its size could help to protect satellites from collisions with space
debris and each other. The Space Surveillance Telescope (SST), developed
by the US Defense Advanced Research Projects Agency (DARPA), is to be
used to protect US and international assets and commercial and
international satellites in orbit around Earth.
The telescope, which took nine years to build, has a wide field of view,
is very sensitive and can scan the sky several times in one night. It
can collect data faster for dimmer objects than existing telescopes in
the Space Surveillance Network. With the increased information that it
provides, officials will be able to better predict the path of debris
and warn satellite operators of potential collisions.
The telescope's superior data-collection capacity comes from its
3.5-meter aperture, which is more than three times the size of
ground-based telescopes already in use. It also has a three-mirror
system to bring images into sharp focus over a wide field. But the
engineering advances brought problems: whereas traditional two-mirrored
telescopes focus light onto a flat surface, the three-mirrored type
focuses onto a curved one, which makes it difficult to manufacture
matching detectors. |
| Nature
Apr 22, 2011 |
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| Fleeting antimatter trapped for a quarter of an hour |
The team working on the Antihydrogen Laser Physics Apparatus (ALPHA) at
the CERN particle physics laboratory near Geneva, Switzerland, have
stored atoms of antihydrogen for 1000 seconds - roughly 10,000 times
longer than before. This should help reveal if antimatter and matter are
true mirror images.
Antihydrogen atoms are annihilated by hydrogen. The ALPHA team want to
keep antimatter intact long enough to study it, so last year they worked
out how to hold a cloud of antihydrogen in a magnetic trap. Not for
long, though: collisions with trace gases would have either annihilated
the anti-atoms or given them the energy to escape, so the team opened
the trap after 170 milliseconds and observed the resulting
annihilations, verifying that antimatter had been made.
Now they have repeated the experiment, this time waiting much longer
before opening the trap. They also cooled the antiprotons used to create
the antihydrogen much further, which lowered the energy of the
antimatter, allowed more to be squeezed into the trap and raised the
chance that some would last longer. Antimatter's life extension will
permit experiments, such as checking whether antihydrogen occupies the
same energy levels as hydrogen. |
| New Scientist
May 03, 2011 |
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| Rice crops 'have single origin' |
Scientists have shed new light on the origins of rice, one of the most
important staple foods today. A study of the rice genome suggests that
the crop was domesticated only once, rather than at multiple times in
different places. The work published in PNAS journal proposes that rice
was first cultivated in China some 9,000 years ago.
Another theory proposes that the two major sub-species of rice - Oryza
sativa japonica and O. sativa indica - were domesticated separately and
in different parts of Asia. In the latest research, an international
team re-examined this evolutionary history, by using genetic data. Using
computer algorithms, the researchers came to the conclusion that
japonica and indica had a single origin because they had a closer
genetic relationship to one other than to any wild rice species found in
China or India.
They then used a so-called 'molecular clock' technique to put dates on
the evolutionary story of rice. Depending on how the researchers
calibrated their clock, the data point to an origin of domesticated rice
around 8,200 years ago. The study indicates that the japonica and indica
sub-species split apart from each other about 3,900 years ago.
The team says this is consistent with archaeological evidence for rice
domestication in China's Yangtze Valley about 8,000 to 9,000 years ago
and the domestication of rice in India's Ganges region about 4,000 years
ago. The single-origin model suggests that indica and japonica were both
domesticated from the wild rice O. rufipogon. |
| BBC News
May 03, 2011 |
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| Scorpion venom - bad for bugs, good for pesticides |
Fables have long cast scorpions as bad-natured killers of hapless
turtles that naively agree to ferry them across rivers. Michigan State
University scientists, however, see them in a different light. The team
studied the effects of scorpion venom with the hopes of finding new ways
to protect plants from bugs. The results have revealed new ways in which
the venom works.
Past research identified scorpion toxin's usefulness in the development
of insecticides. Its venom attacks various channels and receptors that
control their prey's nervous and muscular systems. One major target of
scorpion toxins is the voltage-gated sodium channel, a protein found in
nerve and muscle cells used for rapid electrical signalling.
The team were able to identify amino acid residues in insect sodium
channels that make the channels more vulnerable to the venom from the
Israeli desert scorpion. They also discovered that an important sodium
channel voltage sensor can influence the potency of the scorpion toxin.
Several classes of insecticides act on sodium channels, but insects
become resistant to them over time. The researchers are studying how
insects develop resistance and what alternatives can be created to
control resistant pests. |
| PhysOrg / Journal of Biological Chemistry
Apr 27, 2011 |
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