Stressful job can increase risk of asthma

May 27, 2010 By Leave a Comment

London May 27 (IANS) Being part of a stressful job can increase a person’s risk of developing asthma by 40 percent, reveals a new study.

The research led by Heidelberg University in Germany tracked 5,000 men and women aged between 40 and 65 over eight years. They found that among those free of asthma at the start of the project, there was up to a 40 percent higher incidence of asthma eight years later if they suffered stress at work.

The signs were long working hours, demanding schedules and uncomfortable working conditions.

‘Our study suggests work stress and the inability to relax after work are associated with an increased risk of asthma,’ dailymail.co.uk quoted the report as saying.

Earlier studies have shown stress can lead to the release of chemicals that promote allergies and disrupt the way the body halts inflammation of the airways.

However, the team stressed that the absolute risk of someone developing asthma because they are overloaded at work is still very small.

The study appears in journal Allergy.

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New insights in genomics of the human nucleolus

March 27, 2010 By Leave a Comment

Washington, Mar 27 (ANI): Spanish and German scientists have offered insights into the 3-D genomics of the human nucleolus.

The research, conducted by researchers from the University of Regensburg and the Ludwig Maximilians University in Germany and the Centro de Investigación Príncipe Felipe in Spain, sheds new light on the functional organization of human genetic material.

Scientists have had difficulty to understand how the genome is organized inside the cell”s nucleus to fulfill the dynamics and regulation of DNA access to regulatory factors.

Previous studies on the nuclear architecture of the cell suggest that the three-dimensional structure of genomic information is non-random.

However, few discrete genomic loci have been analyzed for their spatial location, prompting the current study.

The researchers, led by Attila Nemeth and Gernot Langst, examined the DNA network of the nucleolus, the nucleus” largest sub-compartment, using sequencing, microarray analysis, and single-cell analysis.

The work resulted in a high-resolution sequence map of this nuclear structure, detailing the position of the several thousand genes and non-coding sequences that form the nucleolus within the three-dimensional space of the nucleus.

“The results help us understand how nuclear information is packaged into functional compartments of the nucleus,” say the authors.

The authors also emphasise that the research was confined to just two cell types, and that further studies are needed to address the conservation of these packaging mechanisms during evolution, and to monitor the developmental dynamics of three-dimensional genome organization.

The research has been published in the open-access journal PLoS Genetics. (ANI)

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Europe’s first farmers were migrants who settled about 7,500 years ago

September 4, 2009 By Leave a Comment

Washington, September 4 (ANI): The analysis of ancient DNA from skeletons suggests that Europe’s first farmers were not the descendants of Stone Age hunter-gatherers in the region, but were probably migrants who came into major areas of central and eastern Europe about 7,500 years ago, bringing domesticated plants and animals with them.

The research involved the analysis of DNA from hunter-gatherer and early farmer burials, and compared those to each other and to the DNA of modern Europeans.

They conclude that there is little evidence of a direct genetic link between the hunter-gatherers and the early farmers, and 82 percent of the types of mtDNA found in the hunter-gatherers are relatively rare in central Europeans today.

The team from Mainz University in Germany, together with researchers from UCL (University College London) and Cambridge, found that the first farmers in central and northern Europe could not have been the descendents of the hunter-gatherers that came before them.

Humans arrived in Europe 45,000 years ago and replaced the Neandertals. From that period on, European hunter-gatherers experienced lots of climatic changes, including the last Ice Age.

After the end of the Ice Age, some 11,000 years ago, the hunter-gatherer lifestyle survived for a couple of thousand years but was then gradually replaced by agriculture.

The question was whether this change in lifestyle from hunter-gatherer to farmer was brought to Europe by new people, or whether only the idea of farming spread.

The new results from the Mainz-led team seem to solve much of this long-standing debate.

“Our analysis shows that there is no direct continuity between hunter-gatherers and farmers in Central Europe,” said Prof Joachim Burger. “As the hunter-gatherers were there first, the farmers must have immigrated into the area,” he added.

The study identifies the Carpathian Basin as the origin for early Central European farmers.

“It seems that farmers of the Linearbandkeramik culture immigrated from what is modern day Hungary around 7,500 years ago into Central Europe, initially without mixing with local hunter gatherers,” said Barbara Bramanti, first author of the study.

The new study confirms what Joachim Burger’s team showed in 2005; that the first farmers were not the direct ancestors of modern European.

According to Burger, “We are still searching for those remaining components of modern European ancestry. European hunter-gatherers and early farmers alone are not enough. But new ancient DNA data from later periods in European prehistory may shed also light on this in the future.” (ANI)

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Women can’t resist men with ‘Travolta like moves’ on dance floor

July 10, 2009 By Leave a Comment

London, July 9 (ANI): Women cannot keep off of men who are able to pull off dance floor moves with the ease of John Travolta and found them to be more attractive and assertive, suggests a study.

The study, published in New Scientist magazine, found that men with stunning dance floor moves than those considered to have two left feet indicated to be physically stronger and bear the strength and ability to have strong kids.

Boffins taped video clips of 40 heterosexual male students, whose clothing, looks and body shape was disguised in overall white gear, shaking their legs to the song Let Me Entertain You by Robbie Williams.

Twenty-five members of the opposite sex then saw the video and rated the participants for attractiveness while another 25 marked their assertiveness.

Researchers found strong correlations between strength marks and both perceived attractiveness and assertiveness.

“We already know women use static cues such as facial and bodily characteristics in their assessments of men,” the Telegraph quoted Dr Bernhard Fink, an anthropologist of Gottingen University in Germany, as saying.

“This study shows dynamic cues such as dancing ability might also be used to assess male quality in terms of strength and dominance – traits which eventually signal status,” he added.

The study has also been published in Personality and Individual Differences. (ANI)

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Space and robotics technology used to improve forest planning and harvesting

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): Space and robotics technology have been combined to develop an advanced Precision Forestry Positioning System, which allows more efficient forest planning and harvesting.

Invented by researchers at the Institute of Man-Machine-Interaction at the RWTH Aachen University in Germany, the system has helped catalogue 240 million single trees in the German region of North Rhine-Westphalia. he system combines remote-sensing maps from airplanes with satellite navigation data to map each tree in a forest.

This information is then used to plan which trees are to be cut, and when.

Finally, the plan is used on harvesters to identify which trees to cut. This helps make the harvesting more efficient, optimises overall wood production and reduces costs.

The system won the North Rhine-Westphalia Region’s 2008 European Satellite Navigation Competition, which was supported by ESA’s Technology Transfer Programme Office.

“We already have one harvester in operation with our system onboard. As the prototype works well, we are fairly close to the stage where we can go into production. Another 6 to 12 months, and we should be there,” said Professor Dr Jurgen Rossmann from RWTH Aachen University, who developed the system together with Petra Krahwinkler, Arno Bucken and Dr Michael Schluse.

The objective of the Precision Forestry Positioning System is to automate and optimize all the work involved in foresting, from the early planning of the forest to the final cutting of single trees, in order to be competitive on the worldwide market, and to overcome efficiency problems related to the forest ownership structure of the region.

“Precision farming is important in today’s agriculture, where farmers can save money with the use of satellite navigation systems,” explained Arno Bucken.

“However, the accuracy of the GPS navigation system, which is of 20 to 30 m, is not enough to identify single trees in a forest. Much higher accuracy is needed,” he added.

“We found a solution to this problem, which increases the accuracy to 50 cm, by using GPS as the initial reference position, and then taking remote-sensing data to identify the single trees in the forest,” he explained.

To help the planning, a virtual computer-based forest has been developed with all trees being identified by their location, based on the GPS and remote-sensing data.
In addition, a fourth dimension, ‘time’, has been added, and is of the utmost importance for this system.

“All trees are not only known by their geo-coordinates, but they are also time-stamped, and all measurement data are archived.

This makes it possible to see ‘how trees grow’, as well as look back to learn from the past,” said Rossmann. (ANI)

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How diamonds are created in space

April 24, 2009 By Leave a Comment

Washington, April 24 (ANI): Astronomers have learned that creating diamonds in space requires very special conditions.

Loads of tiny diamonds, each measuring one micrometer are located in the material that surrounds some stars – their circumstellar disks.

Few stars have been identified which show clear evidence of diamonds in their disks.

Now, astronomers, using the Subaru Telescope, have learned that creating diamonds in space requires very special conditions.

When scientists look for diamonds in space, they are like detectives using fingerprints to trace a missing person.

The fingerprints of diamond crystals take the form of signature lines in the infrared wavelength, outside the range of visible light.

After more than fifteen years of puzzling over the reasons for these signature lines, astronomers have concluded that diamonds are the carriers of these emissions.

But, the question remains: Why are there so few diamond-studded stars?

An international team of astronomers from the Max Planck Institute for Astronomy (MPIA) in Germany, Hokkaido University in Japan, National Astronomical Observatory of Japan (NAOJ) in Hawaii, Jena University in Germany, and the University of Copenhagen in Denmark used observations from the Subaru Telescope to provide data for their interpretation of why only particular stars have diamonds.

One of their major findings was that the emissions of diamond-disk stars are more centrally located and densely concentrated in the disk than other kinds of emissions.

The scientists then related this finding to another intriguing feature of two of the three stars with diamonds: Large X-ray flares are observed near them.

For stars of intermediate mass, like Elias 1, it is rather uncommon to have a strong X-ray emission, let alone an X-ray flare.

Were these rare occurrences – diamonds and X-ray flares – linked together in some way?

Findings from previous laboratory experiments provided the astronomers with a possible answer. In 1996, physicists in Germany found that tiny diamond particles formed at the core of “carbon onions” when they fired high-energy electron beams into a vacuum.

Led by the MPIA, the scientific team drew parallels between the laboratory findings and what happens in interstellar space.

The X-ray flares seem to come from the lighter companions to the primary stars of the binary systems, where two stars are consistently associated with each other.

Particle acceleration always accompanies the X-ray flare, as these two come from the same energetic phenomena related to stellar magnetic activity.

These conditions could result in a carbon onion in space, with the necessary high pressure to create diamonds. (ANI)

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Women ‘handle stress better than men’

April 7, 2009 By Leave a Comment

Washington, Apr 7 (ANI): It might not come as a surprise to most wives, mothers and female workers, but a new study has found that women cope better under strain than men.

What’s more, people of either sex with certain genetic advantages handle stress nicely.

Some people appear to be resilient to difficult conditions, whereas others react adversely to such challenges, incurring a range of physical and mental disorders. Much research has shown that the way in which the brain and body adapt to acute and chronic stress are critical for physical and mental health.

It is generally believed that the genetic code plays a prominent role in different responses to stress. It has been estimated that the heredity factor determines by some 62 percent the level of the stress hormone (cortisol) in our bodies. However, not much research has been done in this context.

Now, in an effort to reveal a genetic basis for coping with stress, Hebrew University researchers devised a laboratory-based social stress test.

The trials were carried out on students at the Hebrew University Department of Psychology and at the Aaron Beare Research Laboratories at Herzog Hospital by Idan Shalev, a doctoral student of Hebrew University Psychology Prof.
ichard Ebstein, and in collaboration with Dr. Marsha Kaitz of the Department of Psychology. The results were published recently online in the journal Psychoneuroendocrinology.

In the test, the researchers examined the salivary cortisol response in 97 university students via the Trier Social Stress Test (TSST) devised at Trier University in Germany. The TSST measures changes in salivary cortisol to assess stress reactivity to challenging social situations.

The students were told that they would play the role of an interviewee for a job and had five minutes to convince the interviewers to hire them. The interview was carried out with a microphone and camera in front of a panel of three straight-faced judges. Additionally, in a second phase of the interview, subjects were tested in a mental arithmetic task in which they were asked to count backwards (out loud) from 1,687 in multiples of 13 as quickly and accurately as possible.

If the subject made a mistake he or she was asked to start the series again. In addition to testing the cortisol level, mouthwash samples were taken and subjects were genotyped for the brain-derived neurotrophic factor (BDNF) gene, which is involved in supporting the growth and differentiation of brain cells. Importantly, animal studies show that BDNF expression is reduced in chronic stress and restored by antidepressant treatment.

The BDNF gene is characterized by a variant that codes for either the valine (Val) or methionine (Met) amino acids. Individuals carry two copies of each gene, with the Val variant being more common. In the study, subjects carrying two copies of the VAL variant (Val/Val), were compared in their cortisol response to those carrying one copy of the Val and one of the Met (Val/Met).

When looking at the responses of the subjects in the stress testing, it was seen that the Val/Met men and women carriers had nearly equal cortisol levels. However, the men with the Val/Val variant had a higher cortisol response (and therefore a higher reaction to social stress) than the men carrying the Val/Met variant. For the women, surprisingly, the opposite was found: the Val/Val women had a lower cortisol response than the Val/Met women. Why the Val/Val variant produces opposite stress reactions (raising it for the males and lowering it for the females) remains an enigma.

Because of the predominance of the Val/Val type for both sexes, the males showed overall greater stress in the testing than the females.

In conclusion, say the researchers, the study specifically indicates that women with the BDNF Val/Met genotype and men with the Val/Val may be particularly vulnerable to social stress mediated by brain stress system activity. (ANI)

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Honeybees can count up to four

January 28, 2009 By Leave a Comment

Washington, January 28 (ANI): An international team of scientists has found that honeybees can tell the difference between different numbers at a glance.

Dr. Shaowu Zhang, Chief Investigator of The Vision Centre in Australia and Professor Hans Gross and Professor Juergen Tautz of Wurzburg University in Germany, have revealed that they carried out an exquisitely designed experiment that showed that bees could discriminate between patterns containing two and three dots, without having to count the dots.

Revealing their findings online in the journal PLoS ONE, the researchers said that with a bit of schooling, the bees could learn to tell the difference between three and four dots.

The team, however, found that bee maths seemed to run out at four.

According to the researchers, honeybees couldn’t reliably tell the difference between four dots and five or six.

During the study, the bees flew though an entry of a Y-maze marked with a pattern of either two or three dots, which were signposts to the reward.

The experimental bees then had to choose between two patterns by correctly matching the number of dots, to find where the reward was – a feat they then managed to repeat reliably once they had learned that two dots at the first entry meant they had to look for two dots at one of the second pair of patterns, where the reward was hidden.

Dr. Zhang said that careful control over the experimental environment showed the bees were not using colour, smell or other clues to find their way to the hidden sugar-water reward.

“My colleague Professor Srinivasan has demonstrated that bees can count up to four landmarks on their way from their hive to a food source. This new research shows they can tell the difference between different numbers – even when we change the pattern, shape or the colour of the dots!” the researcher said.

In their study report, the researchers have revealed that presenting blue and yellow dots, stars and lemons, or random patterns did not fool the clever insects, which continued to reliably navigate their way to the reward once they had figured out and memorised what the signs meant, based on number.

They say that the bees initially spent quite a bit of time scanning the dots, and, on later visits, zipped straight past them as they knew what they meant.

“Bees can definitely recognise the difference between two, three and four – although four a little less reliably. This is a process known as ‘subitizing’ – which means responding rapidly to a small number of items,” they say.

Dr. Zhang says: “We think the bees are using two memory systems. First is working memory, which they use to recall the number of dots that point to the reward. The second system is to use memory rules. We found this out by changing the pattern of the dots – but the bees still managed to locate the reward.”

Dr. Zhang believes that honeybees have perhaps developed this ability as they pass clumps of two trees or three trees on their way to the food source, or use similar patterns among flowers or other landmarks as they draw close to it.

“There has been a lot of evidence that vertebrates, such as pigeons, dolphins or monkeys, have some numerical competence – but we never expected to find such abilities in insects. Our feeling now is that – so far as these very basic skills go – there is probably no boundary between insects, animals and us,” the researcher says.

Shaowu and his colleagues next plan to determine whether bees can actually perform elementary arithmetic. (ANI)

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