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London, June 20 (IANS) Scientists have discovered unexpectedly high number of giant exoplanets in a cluster of stars called Messier 67 that is about the same age as the Sun -- indicating that our solar system might have arisen in a similarly dense environment.
The team used several telescopes and instruments, including the High Accuracy Radial velocity Planet Searcher (HARPS) spectrograph at European Southern Observatory's La Silla centre in Chile, to collect high-precision measurements of 88 stars in Messier 67.
"We want to use an open star cluster as laboratory to explore the properties of exoplanets and theories of planet formation", said Roberto Saglia from the Max Planck Institutes in Germany who led the team.
"Here we have not only many stars possibly hosting planets, but also a dense environment, in which they must have formed," Saglia added.
The study, published in the journal Astronomy and Astrophysics, found that hot Jupiters were more common around stars in Messier 67 than is the case for stars outside of clusters.
A hot Jupiter is a giant exoplanet with a mass of more than about a third of Jupiter's mass. They are "hot" because they orbit close to their parent stars, as indicated by an orbital period (their "year") that is less than 10 days in duration.
"This is really a striking result," said Anna Brucalassi, who carried out the analysis.
"The new results mean that there are hot Jupiters around some 5 per cent of the Messier 67 stars studied -- far more than in comparable studies of stars not in clusters, where the rate is more like 1 per cent," Brucalassi added.
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Tokyo, June 20 (IANS) In a first, an international team of astronomers has found firm evidence of the presence of oxygen in the early universe -- only 700 million years after the Big Bang.
Using the Atacama Large Millimetre/submillimetre Array (ALMA) telescope in Chile, the team including scientists from Japan, Sweden, Britain and European Southern Observatory found light from ionised oxygen in the SXDF-NB1006-2 galaxy -- making it the most distant unambiguous detection of oxygen ever obtained.
SXDF-NB1006-2 lies at a redshift of 7.2, meaning that we see it only 700 million years after the Big Bang.
Oxygen in SXDF-NB1006-2 was found to be 10 times less abundant than it is in the Sun, according to the study published recently in the journal Science.
"The small abundance is expected because the universe was still young and had a short history of star formation at that time," said study co-author Naoki Yoshida from the University of Tokyo.
"Our simulation actually predicted an abundance 10 times smaller than the Sun. But we have another, unexpected, result: a very small amount of dust," he added.
The detection of ionised oxygen indicates that many very brilliant stars, several dozen times more massive than the Sun, have formed in the galaxy and are emitting the intense ultraviolet light needed to ionise the oxygen atoms.
In the time before objects formed in the universe, it was filled with electrically neutral gas. But when the first objects began to shine, a few hundred million years after the Big Bang, they emitted powerful radiation that started to break up those neutral atoms -- to ionise the gas.
During this phase -- known as cosmic reionisation -- the whole universe changed dramatically. But there is much debate about exactly what kind of objects caused the reionisation. Studying the conditions in very distant galaxies can help to answer this question.
"SXDF-NB1006-2 would be a prototype of the light sources responsible for the cosmic reionisation," said lead author Akio Inoue from Osaka Sangyo University in Japan
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New York, June 20 (IANS) Vocal cords are able to produce a wide range of sound frequencies because of the larynx's ability to stretch vocal cords and the cords' molecular composition, finds a new research.
The larynx's ability to stretch vocal cords and the cords' molecular composition, show how these two characteristics of various species' larynxes can closely predict the range of frequencies each species can produce.
The findings showed that larger animals had larger larynxes, and body size correlated well with the average frequency an animal could produce.
The mean pitch can be correlated with size with the amount of length change possible in the vocal cord, or how far it could stretch and a factor measuring the stiffness of the cord due to the fibre structures within, the study said.
At birth, vocal cords are composed of a uniform, gel-like material. As the vocal cords mature, fibres develop within the gel, eventually forming a multilayered, laminated string.
The muscles in the larynx further modulate the sound the cords produce, lengthening and shortening the cords to change the pitch.
For the study, published in PLOS Computational Biology, the team compiled measurements of larynx characteristics for 16 species, including humans and animals ranging from mice to elephants.
The results may help surgeons repair damaged vocal cords.
Because both cord stretchiness and stiffness factor into range, doctors may have more options to design treatments to restore much of a patient's range, said Ingo Titze, scientists at the University of Utah in the US.
The findings also have implications for vocal training, and suggest that singers can increase their ranges by either stretching their vocal cords or by engaging in exercises that affect fiber spacing and cord stiffness.
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London, June 20 (IANS) The same asteroid that killed the dinosaurs in the Cretaceous period 66 million years ago also wiped out over 90 per cent of mammal species, significantly more than previously thought, new research has found.
Following the asteroid hit, most of the plants and animals would have died, so the survivors probably fed on insects eating dead plants and animals.
With so little food, only small species survived. The biggest animals to survive on land would have been no larger than a cat, the study said.
For the study, the researchers reviewed all mammal species known from the end of the Cretaceous period in North America.
Their results showed that over 93 per cent became extinct across the Cretaceous-Paleogene (K-Pg) boundary, but that they also recovered far more quickly than previously thought.
The scientists analysed the published fossil record from western North America from two million years before the Cretaceous-Paleogene boundary, until 300,000 years after the asteroid hit.
They compared species diversity before and after this extinction event to estimate the severity of the event and how quickly the mammals recovered.
"The species that are most vulnerable to extinction are the rare ones, and because they are rare, their fossils are less likely to be found. The species that tend to survive are more common, so we tend to find them,” said one of the researchers Nick Longrich from Milner Centre for Evolution in University of Bath in England.
"The fossil record is biased in favour of the species that survived. As bad as things looked before, including more data shows the extinction was more severe than previously believed," Longrich noted.
The researchers said this explains why the severity of the extinction event was previously underestimated.
The study was published in the Journal of Evolutionary Biology.
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New York, June 18 (IANS) Scientists have identified a single gene pathway that can disrupt Zika and similar viruses from spreading in the body and also act as a potential drug target for such deadly diseases.
The findings showed that disabling SPCS1 -- in both human and insect cells -- reduces viral infection and does not negatively affect the cells themselves.
"We wanted to find out if we could identify genes present in the host cells that are absolutely required by the virus for infection," said Michael Diamond, Professor at Washington University.
While the absence of SPCS1 gene shut down the spread of flaviviruses, eliminating the gene had no detrimental effect on other types of viruses, including alphaviruses, bunyaviruses and rhabdoviruses, the researchers said.
"In these viruses, without SPCS1 gene the chain reaction doesn't happen and the virus can't spread. So this gene can act as a potential drug target because it disrupts the virus but not the host," Diamond added.
Viruses hijack host cells to replicate and spread, making them dependent upon the genetic material of the organisms they infect.
If a cell lacks a gene that the virus requires for infection, the virus will have to stop in its tracks and will enable the cells to survive. Thus the missing gene becomes vital to spread of the virus.
"Flaviviruses appear to be uniquely dependent particularly on SPCS1 gene to release the viral particle," Diamond noted.
For the study, published in the journal Nature, the team first conducted experiments on West Nile virus and then found that the same results held true for other Flaviviridae family members, including Zika, dengue, yellow fever, Japanese encephalitis and hepatitis C viruses.
Using gene-editing technology called CRISPR that is capable of selectively shutting down individual genes, the researchers identified only nine key genes that the virus relies on for infection or to spread.
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New York, June 19 (IANS) Consuming high-quality plant-based diet such as whole grains, fruits, vegetables, nuts, seeds and legumes, can substantially lower the risk of developing Type 2 diabetes, says a new study led by an Indian-origin scientist.
The findings showed that eating a healthy version of such diet was linked with a 34 per cent lower diabetes risk, while a less healthy version -- including foods such as refined grains, potatoes, and sugar-sweetened beverages -- was linked with a 16 per cent increased risk.
Such diets are high in fibre, antioxidants, unsaturated fatty acids, and micronutrients such as magnesium and are low in saturated fat.
"The study highlights that even moderate dietary changes in the direction of a healthful plant-based diet can play a significant role in the prevention of type 2 diabetes," said Ambika Satija, professor at the Harvard T.H. Chan School of Public Health in Boston.
Adherence to a plant-based diet was found low in animal foods, with a 20 per cent reduced risk of Type 2 diabetes.
Healthy plant foods may also be contributing to a healthy gut microbiome, the authors said.
"A shift to dietary pattern marking higher plant-based foods and lower in animal-based foods, especially red and processed meats, can confer substantial health benefits in reducing risk of type 2 diabetes," added Frank Hu, Professor at Harvard Chan School.
The study, published in an online journal named PLOS Medicine, was the first to make distinctions between healthy plant-based diets and less healthy ones that include things like sweetened foods and beverages, and some animal foods, which may be detrimental for health.
The researchers conducted a 20 years survey of more than 200,000 male and female health professionals, and questioned them on their diet, lifestyle, medical history, and new disease diagnoses.
The diets of the participants were evaluated using a plant-based diet index, in which they assigned plant-derived foods in higher scores than animal-derived foods.
"These findings provide further evidence to support current dietary recommendations for chronic disease prevention," Satija suggested.
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New York, June 19 (IANS) Researchers have found that a perfect storm of a rapidly warming climate and human activities killed giant Ice Age species including elephant-sized sloth and powerful sabre-toothed cats that once roamed the plains of Patagonia.
Human activity that gradually lead to the warming of climate caused the extinction of the megafauna around 12,300 years ago, said the researchers.
"The study shows that human colonisation didn't immediately result in extinctions, but only as long as it stayed cold," said lead researcher Alan Cooper, professor at the University of Adelaide in Australia.
Species such as the South American horse, giant jaguar and sabre-toothed cat, and the enormous one-tonne short-faced bear (the largest land-based mammalian carnivore) were found widely across the South American country of Patagonia, but seemed to disappear shortly after humans arrived.
The pattern of rapid human colonisation through the Americas, coinciding with contrasting temperature trends in each continent, allowed the researchers to disentangle the relative impact of human arrival and climate change.
"More than 1,000 years of human occupation passed before a rapid warming event occurred, and then the megafauna were extinct within a hundred years," Cooper added in the paper published in the journal Science Advances.
The only large species to survive were the ancestors of present day llama and alpaca, the researchers said.
"The ancient genetic data show that only the late arrival in Patagonia of a population of guanacos from the north saved the species, all other populations became extinct," explained Jessica Metcalf from the University of Colorado-Boulder, in the US.
"In 1936 Fell's cave, a small rock shelter in Patagonia, was the first site in the world to show that humans had hunted Ice Age megafauna. So it seems appropriate that we're now using the bones from the area to reveal the key role of climate warming, and humans, in the megafaunal extinctions," noted Fabiana Martin from University of Magallanes in Chile.
The team studied ancient DNA extracted from radiocarbon-dated bones and teeth found in caves across Patagonia, and Tierra del Fuego, to trace the genetic history of the populations.
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New York, June 19 (IANS) Diminishing a person's belief in free will can lead them feeling less like their true selves and drive them to depression, finds a new study.
The findings showed that feeling alienated from one's true self can increase anxiety, depression and decision dissatisfaction.
"Whether you agree that we have free will or that we are overpowered by social influence or other forms of determinism, the belief in free will has truly important consequences," said lead author Elizabeth Seto, Student at Texas A and M University in the US.
On the other hand, knowing one's true self positively influences self-esteem and one's sense of meaning in life.
In addition, lack of free will may prompt people to behave without a sense of morality, particularly when one has a goal to improve the quality of life for individuals and the society at large.
"When we experience or have low belief in free will and feel 'out of touch' with who we are, we may behave without a sense of morality," Seto added in the study which was published in Social Psychological and Personality Science.
Previous studies have shown that minimising belief in free will can increase cheating, aggression, and conformity and decrease feelings of gratitude.
"Our findings suggest that part of being who you are is experiencing a sense of agency and feeling like you are in control over the actions and outcomes in your life," Seto explained.
"If people are able to experience these feelings, they can become closer to their true or core self," Seto said.
To influence the feeling of free will, the team randomly separated nearly 300 participants into groups and then asked questions to evaluate their sense of self.
Those in the low free will group showed significantly greater feelings of self-alienation and lower self-awareness than those in the high free will group.
In a follow-up study, a similarly sized group of participants experienced the same free will manipulation and were then presented a choice: keeping money for themselves or donating to a charity.
After making their decision, researchers asked them how authentic they felt about their decision.
The participants in low free will belief group reported less authenticity during the decision making task than their high freewill counterparts.
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New York, June 18 (IANS) Still waiting to hear from aliens and getting excited about the UFO sightings? Well, according to astronomers, extra-terrestrials are not likely to call the Earth for the next 1,500 years.
The team from Cornell University made this assumption by deconstructing the Fermi paradox and paring it with the mediocrity principle into a fresh equation.
The Fermi paradox says billions of Earth-like planets exist in our galaxy yet no aliens have contacted or visited us.
Thus the paradox: the cosmos teems with possibility.
The mediocrity principle is the idea that because we are not in any special location in the universe, we should not be anything special in the universe, physics.org reported.
“We haven't heard from aliens yet, as space is a big place. But that doesn't mean no one is out there," said Cornell student Evan Solomonides who presented the study at the American Astronomical Society's meeting in San Diego, California, recently.
Hunting for extra-terrestrials means sending out signals like television broadcasts, for example.
As Earth's electronic ambassador, TV and radio signals are sent into space as a by-product of broadcast.
Earth's broadcast signals have reached every star within about 80 light years from the Sun - about 8,531 stars and 3,555 Earthlike planets as our Milky Way galaxy alone contains 200 billion stars.
"Even our mundane, typical spiral galaxy - not exceptionally large compared to other galaxies - is vast beyond imagination," Solomonides added.
"Those numbers are what make the Fermi Paradox so counterintuitive. We have reached so many stars and planets, surely we should have reached somebody by now, and in turn been reached … this demonstrates why we appear to be alone,” he added.
Combining the equations for the Fermi paradox and the mediocrity principle, the authors suggests Earth might hear from an alien civilisation when approximately half of the Milky Way Galaxy has been signalled in about 1,500 years.
Yervant Terzian, Cornell's Tisch Distinguished University Professor of Astronomy, is the co-author of the paper.
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Bangalore, June 18 (IANS) The cells that have led to the rise of the most complex life forms on earth, including multicellular organisms such as animals or plants, probably evolved as a result of growing initimacy belween their single-celled relatives , say researchers including one from Bangalore's National Centre for Biological Sciences.
The first living beings on earth were single-cell organisms. Those cells were quite simple, but during the course of evolution they gave way to a more complex cellular lineage - the eukaryotes, or cells with a nucleus.
The first eukaryote is thought to have arisen when prokaryotes - the kingdoms of archaea and bacteria - joined forces. Prokaryotes are single-celled organisms that have no cell nucleus.
But in an Opinion paper published in the journal Trends in Cell Biology, researchers have now proposed that the molecular machinery essential to eukaryotic life was probably borrowed, little by little over time, from those simpler ancestors.
"We are beginning to think of eukaryotic origins as a slow process of growing intimacy - the result of a long, slow dance between kingdoms, and not a quick tryst, which is the way it is portrayed in textbooks," said Mukund Thattai from National Centre for Biological Sciences.
The proposal is based on new genomic evidence derived from a deep-sea vent on the ocean floor.
The eukaryotic cells of plants, animals, and protists are markedly different from those of their single-celled, prokaryotic relatives, the archaea and bacteria.
Eukaryotic cells are much larger and have considerably more internal complexity, including many internal membrane-bound compartments.
Although scientists generally agree that eukaryotes can trace their ancestry to a merger between archaea and bacteria, there has been considerable disagreement about what the first eukaryote and its immediate ancestors must have looked like.
As Thattai and his colleagues Buzz Baum and Gautam Dey of University College London explained in their paper, that uncertainty has stemmed in large part from the lack of known intermediates that bridge the gap in size and complexity between prokaryotic precursors and eukaryotes.
As a result, they said, the origin of the first eukaryotic cell has remained "one of the most enduring mysteries in modern biology."
That began to change last year with the discovery of DNA sequences for an organism, that no one has ever actually seen, living near a deep-sea vent on the ocean floor.
The genome of the archaeon known as Lokiarchaeum ('Loki' for short) contains more "eukaryotic signature proteins" (ESPs) than any other prokaryote.
Importantly, among those eukaryotic signature proteins are proteins critical for eukaryotes' ability to direct traffic amongst all those intercellular compartments.
"The genome can be seen as 'primed' for eukaryogenesis. With the acquisition of a number of key genes and lipids from a bacterial symbiont, it would be possible for Loki-type cells to evolve a primitive membrane trafficking machinery and compartmentalisation," Baum said.
The researchers predict that, when Loki is finally isolated or cultured, "it will look more like an archaeon than a proto-eukaryote and will not have internal compartments or a vesicle-trafficking network."
But its morphology and/or cell cycle might have complexities more often associated with eukaryotes, they noted.