Introduction & Purpose
Knowledge update and Industry update at Skyline University College (SUC) is an online platform for communicating knowledge with SUC stakeholders, industry, and the outside world about the current trends of business development, technology, and social changes. The platform helps in branding SUC as a leading institution of updated knowledge base and in encouraging faculties, students, and others to create and contribute under different streams of domain and application. The platform also acts as a catalyst for learning and sharing knowledge in various areas.
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Lifestyle and Trends
New York, July 15 (IANS) Dietary restriction or limited food intake without malnutrition has beneficial effects on longevity in species, including humans, a new study has found.
The study published in the journal PLoS Genetics reveals understanding on how dietary restriction leads to increase in lifespan and impacts autophagy in the intestine.
Autophagy which plays a role in lifespan extension involves breaking down of the cell's parts -- its protein-making, power-generating and transport systems into small molecules.
"In this study, we used the small roundworm C. elegans as a model to show that autophagy in the intestine is critical for lifespan extension," said Malene Hansen, Associate Professor at Sanford Burnham Prebys Medical Discovery Institute.
The researchers found that the gut of dietary-restricted worms has a higher rate of autophagy, which appears to improve fitness in multiple ways like preserving intestinal integrity and maintaining the animal's ability to move around.
“We found that blocking autophagy in their intestines significantly shortened their lifespans, showing that autophagy in this organ is key for longevity,” said Sara Gelino, Researcher at Sanford Burnham Prebys Medical Discovery Institute.
While normal worms' gut barriers become leaky as they get older, those of eat-2 type of worms remain intact. Preventing autophagy indicated that a non-leaky intestine is an important factor for long life, suggested the study.
The research team also observed that turning off autophagy in the intestine made the slow-eating, long-lived worms move around less.
The decrease in physical activity indicates that autophagy in one organ can have a major impact on other organs, in this case probably muscle or motor neurons, suggested the study.
SUC Editing Team
Information Systems
New York, July 16 (IANS) The popular Pokemon GO that requires you to keep the screen on all the time may drive smartphone manufacturers to insert a large battery, making smartphones thicker.
SUC Editing Team
Information Systems
New York, July 15 (IANS) New York, July 15 (IANS) US tech giant IBM on Friday announced a new cloud service for organisations which require a secure environment for blockchain networks allowing clients to test and run projects that handle private data.
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From Different Corners
Toronto, July 15 (IANS) After analysing Kepler space telescope data, astronomers from the University of Toronto, Canada, have found a clear understanding yet of a class of exoplanets called 'Warm Jupiters', showing that many have unexpected planetary companions.
The analysis provides strong evidence of the existence of two distinct types of 'Warm Jupiters', each with their own formation and dynamical history.
The two types include those that have companions and thus, likely formed where we find them today and those with no companions that likely migrated to their current positions.
“Our findings suggest that a big fraction of 'Warm Jupiters' cannot have migrated to their current positions dynamically and that it would be a good idea to consider more seriously that they formed where we find them,” said Chelsea Huang, a Dunlap Fellow at the Dunlap Institute for Astronomy and Astrophysics, University of Toronto.
Warm Jupiters are large, gas-giant exoplanets -- planets found around stars other than the Sun.
They are comparable in size to the gas-giants in our solar system.
But unlike the Sun's family of giant planets, “Warm Jupiters” orbit their parent stars at roughly the same distance that Mercury, Venus and the Earth circle the Sun.
They take 10 to 200 days to complete a single orbit.
Because of their proximity to their parent stars, they are warmer than our system's cold gas giants -- though not as hot as “Hot Jupiters” which are typically closer to their parent stars than Mercury.
Instead of finding "lonely", companion-less “Warm Jupiters”, the team found that 11 of the 27 targets they studied have companions ranging in size from Earth-like to Neptune-like.
“The number of 'Warm Jupiters' with smaller neighbours may be even higher. We may find that more than half have companions,” Huang noted in a paper published in the Astrophysical Journal.
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From Different Corners
London, July 15 (IANS) Levels of global biodiversity loss are no longer within the safe limit and this may negatively impact the ecosystem function and the sustainability of human societies, a new study has revealed.
According to the study, levels of biodiversity loss are so high that if left unchecked, they could undermine efforts towards long-term sustainable development.
"We know biodiversity loss affects ecosystem function but how it does this is not entirely clear. What we do know is that in many parts of the world, we are approaching a situation where human intervention might be needed to sustain ecosystem function," said Tim Newbold of the University College of London.
The researchers found that grasslands, savannas and shrublands were most affected by biodiversity loss, followed closely by many of the world's forests and woodlands.
The ability of biodiversity in these areas to support key ecosystem functions such as growth of living organisms and nutrient cycling has become increasingly uncertain, suggested the study published in the journal Science.
For 58.1 per cent of the world's land surface which is home to 71.4 per cent of the global population, the level of biodiversity loss is substantial enough to question the ability of ecosystems to support human societies, revealed the study.
"It's worrying that land use has already pushed biodiversity below the level proposed as a safe limit," said Andy Purvis, Professor at the Imperial College, London.
The team used data from hundreds of scientists to analyse 2.38 million records for 39,123 species at 18,659 sites which were then applied to estimate how biodiversity in every square kilometre land has changed since before humans modified the habitat.
They found that biodiversity hotspots are facing threat, showing a decline. Other high biodiversity areas, such as Amazonia, which have seen no land use change have higher levels of biodiversity and more scope for proactive conservation.
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From Different Corners
New York, July 15 (IANS) By creating a virtual tissue model of diabetes in the eye, researchers have shown precisely how a small protein that can both damage or grow blood vessels in the eye causes vision loss and blindness in people with diabetes.
The study, reported in the journal PLOS Computational Biology, could also lead to better treatment for diabetic retinopathy, which currently requires multiple, invasive procedures that are not always effective in the long term.
A common cause of vision loss in people with diabetes, diabetic retinopathy is responsible for one percent of all blindness worldwide.
"With the current epidemic of diabetes in adults, the number of people with vision damage from diabetes will continue to rise," said lead author on the study Thomas Gast from Indiana University School of Optometry in the US.
"This paper establishes a step-by-step pathway from a diabetic's elevated blood sugars to the vascular complications in the eye. Therapeutically, understanding a disease can lead to improved treatments," Gast noted.
A major way diabetic retinopathy threatens vision is diabetic edema. In this condition, the smallest vessels supplying the retina with oxygen become leaky, causing fluid to swell the central retinal area and impairing the type of vision required for precise activities such as reading.
This happens because the loss of blood flow in a vessel causes the local oxygen level to drop, which stimulates local production of vascular endothelial growth factor, or VEGF, a protein which in most tissues causes the growth of new blood vessels to repair damage.
However, in a retina with elevated sugar levels, instead of repairing the damage, physicians observe a cascade of damage that propagates from the initial blocked vessel.
The rate and area of the damage's progression also vary greatly between patients in a seemingly unpredictable way.
The virtual retina model in the study provided strong evidence for why this pattern of disease progression was so variable, and predicted where damage would occur next.
It showed that the blockage of one vessel causes a local loss of oxygen in the retina, which triggers release of VEGF that spreads over a larger region, which, in turn increases the probability of blockage in the surrounding vessels, creating a "domino effect".
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From Different Corners
New York, July 16 (IANS) A malfunctioning immune system may be responsible for social deficits in neurological diseases such as autism-spectrum disorders and schizophrenia, suggests new research.
"Our findings contribute to a deeper understanding of social dysfunction in neurological disorders, such as autism and schizophrenia, and may open new avenues for therapeutic approaches," said Vladimir Litvak, Assistant Professor at the University of Massachusetts Medical School in the US.
The study was published in the journal Nature.
The researchers developed and employed a novel systems-biology approach to investigate the complex dialogue between immune signalling and brain function in health and disease.
Using this approach, the scientists found that immune system signalling can directly affect, and even change, social behaviour in mice and other model animals.
The researchers predicated an unexpected role for interferon gamma (IFN-?), an important substance secreted by immune cells, in promoting social brain functions.
In the course of the research, they found that blocking IFN-? in mice made mouse brains become hyperactive and caused atypical social behaviour.
Restoring of IFN-?-signalling in the brain normalised brain activity and social behaviour.
"The brain and the adaptive immune system were thought to be isolated from each other, and any immune activity in the brain was perceived as a sign of pathology,” said Jonathan Kipnis from the University of Virginia.
"And now, not only are we showing that they are closely interacting, but some of our behaviour traits might have evolved because of our immune response to pathogens," Kipnis explained.
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From Different Corners
New York, July 17 (IANS) Researchers have created a comprehensive molecular atlas of brain development in non-human primate that could shed crucial light on what makes human brain development distinct.
This analysis uncovered features of the genetic code underlying brain development in our close evolutionary relative, while revealing distinct features of human brain development by comparison.
"This is the most complete spatiotemporal map we have for any mammal's development, and we have it in a model system that provides directly meaningful insight into human brain development, structure, and function," said Ed Lein, investigator at Allen Institute for Brain Science, a US-based non-profit medical research organisation.
"This exceptional dataset is useful for exploring precisely where and when genes are active in relation to the events of brain development and the onset of brain disorders," Lein noted in an analysis of the atlas published in the journal Nature.
The study is based on the US National Institutes of Health (NIH) Blueprint Non-Human Primate (NHP) Atlas, a publicly available resource created by the Allen Institute and colleagues at the University of California, Davis and the California National Primate Research Centre.
The goal of the NHP atlas was to marry the techniques of modern transcriptomics with the rich history of anatomical developmental studies by measuring gene activity at a series of ten important stages in prenatal and postnatal brain development.
At each stage, a technique called laser microdissection was used to precisely isolate fine layers and nuclei of cortical and subcortical brain regions associated with human psychiatric disease, thereby creating a high resolution time series of the generation and maturation of these brain regions and their underlying cell types.
The authors collaborated with colleagues at the Baylor College of Medicine to use this molecular map to pinpoint when and where candidate genes for diseases like autism and schizophrenia become active.
"This tremendous resource is freely available to the research community and will guide important research into the etiology of many developmental disorders for years to come," Michelle Freund, programme officer at National Institute of Mental Health, noted.
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From Different Corners
Tokyo, July 17 (IANS) While it is widely accepted that an asteroid impact caused the mass extinction of dinosaurs and other life forms, researchers have been stumped by the process of how. In other words, they had figured out the killer, but not the murder weapon.
A new study has now said that when the asteroid hit the oil-rich region of Yucatan Peninsula in Mexico, a massive amount of soot was ejected which then spread globally, causing global cooling, drought and limited cessation of photosynthesis in oceans.
This could have been the process that led to the mass extinction of dinosaurs, said the research team from Tohoku University and the Japan Meteorological Agency's Research Institute.
The asteroid, also known as the Chicxulub impactor, hit Earth some 66 million years ago, causing a crater more than 180 km wide.
Professor Kunio Kaiho from Tohoku University and his team analysed sedimentary organic molecules from two places -- Haiti, which is near the impact site, and Spain, which is far.
They found that the impact layer of both areas have the same composition of combusted organic molecules showing high energy.
This, they believe, is the soot -- a strong, light-absorbing aerosol -- from the asteroid crash.
The results were significant because they could explain the pattern of extinction and survival.
Earlier theories had suggested that dust from the impact may have blocked the sun, or that sulphates may have contaminated the atmosphere.
But it was unlikely that either phenomenon could have lasted long enough to have driven the extinction, the researchers noted.
According to their study, when the asteroid hit the region, the massive amount of soot had caused a prolonged period of darkness which led to a drop in atmospheric temperature.
The soot aerosols caused colder climates at mid-high latitudes, and drought with milder cooling at low latitudes on land.
This in turn led to the cessation of photosynthesis in oceans in the first two years, followed by surface-water cooling in oceans in subsequent years.
This rapid climate change is believed to be behind the loss of land and marine creatures over several years, suggesting that rapid global climate change can and did play a major role in driving extinction.
The study was published in the journal Scientific Reports.
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From Different Corners
New York, July 16 (IANS) Turtles developed shells as a tool for burrowing underground to escape harsh climatic conditions, a study has found, contradicting the traditional belief that they used their shells for their protection.
The study was conducted on new fossil material, a 15 cm long specimen of the 260- million-year-old, partially shelled, proto turtle or stem turtle, Eunotosaurus Africanus from the Karoo Basin of South Africa, which indicated that the initiation of rib broadening was an adaptive response to fossoriality.
Numerous fossorial animal -- one that is adapted to digging and life underground such as the badger -- correlates are expressed throughout Eunotosaurus' skeleton.
These stem turtles indicate that the shell did not evolve for protection, rather adaptation related to digging was the initial impetus in the origin of the shell.
"The earliest beginnings of the turtle shell was not for protection but rather for digging underground to escape the harsh South African environment where these early proto turtles lived," said lead author Tyler Lyson, Paleontologist Denver Museum of Nature & Science in Colorado, US.
The adaptations related to fossoriality likely facilitated movement of stem turtles into aquatic environments early in the groups' evolutionary history, and this ecology may have played an important role in stem turtles surviving the Permian/Triassic extinction event that occurred about 252-million-years ago, said the paper published in the journal Current Biology.
Further, the developmental and fossil data showed that one of the first steps toward the shelled body plan was broadening of the ribs.
The distinctly broadened ribs -- that play a crucial role in ventilating the lungs and are used to support the body during locomotion -- has a serious impact on both breathing and speed in these quadrupedal animals.
These broadened ribs stiffen the torso, which shortens an animals stride length and slows it down, interfering with breathing.
"We knew from both the fossil record and observations how the turtle shell develops into modern turtles that one of the first major changes toward a shell was the broadening of the ribs," Lyson added.
The broad ribs of Eunotosaurus provide an intrinsically stable base on which to operate a powerful forelimb digging mechanism.
Most of these features are widely distributed along the turtle stem and into the crown clade, indicating the common ancestor of Eunotosaurus and modern turtles possessed a body plan significantly influenced by digging, the researchers concluded.