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.
Super User
From Different Corners
London, Sep 19 (IANS) Have you ever wondered why we sometimes 'freeze' when we are frightened or under strong emotional stress? This may be because the response to anxiety may include not only the parts of the brain which deal with emotions, as has been long understood, but also movement control centres in the brain.
"This (study) is the first hard proof that strong emotions produce a response in brain areas concerned with movement," said lead researcher Laura Muzzarelli from Vita-Salute San Raffaele University in Milan, Italy.
The findings give us "a possible explanation for some motor inhibition associated with emotional stress", she added.
For the study, a group of Italian and Canadian researchers followed a selection of socially anxious and control group children from childhood to adolescence.
The researchers tested 150 children who were between ages of eight to nine, for signs of social inhibition.
Some of these were shown to have early signs of social anxiety, and showed an increased tendency to withdraw from social situations.
They also had more difficulty in recognising emotions, and particularly angry faces.
The anxious children, plus controls, were then followed into adolescence. At the ages of 14-15 they were tested again to see if signs of social anxiety had developed.
The researchers also used functional MRI brain scans to test how the teenage brains responded to angry facial expressions.
"We found that when presented with an angry face the brain of socially anxious adolescents showed increased activity in the amygdala, which is the brain area concerned with emotions, memory and how we respond to threats," Muzzarelli said.
"Surprisingly, we also found this produced inhibition of some motor areas of the brain, the premotor cortex. This is an area which 'prepares the body for action', and for specific movements," she noted.
The findings were presented at the ongoing European College of Neuropsychopharmacology (ECNP) conference in Vienna, Austria.
SUC Editing Team
International Business
New York, Sep 18 (IANS) The world's largest Viking ship docked on Saturday in New York, the latest destination in a voyage that began in Norway and has included port stops in Iceland, Greenland, Canada and US cities of the Great Lakes region.
SUC Editing Team
Travel and Tourism
Riyadh, Sep 18 (IANS) Saudi Arabia has agreed to form a company to develop and increase the capacity of the holy sites in Makkah and Medina, local Al Eqtisadiya news website reported on Saturday.
The proposed company, which will be owned by the government, was approved days after the kingdom announced the success of the Haj season that brought together more than 1.8 pilgrims.
The company will be in charge of enhancing the efficiency of utilities and services such as electricity, water, air-conditioning and cleanness. It will work to separate the routes of pedestrians and vehicles.
To generate money, the company will invest in the holy sites to be tourist attractions throughout the year, especially the religious archaeological sites.
The company is expected to generate thousands of job opportunities for local manpower.
The company is part of many initiatives the country are adopting to get ready for post-oil era by implementing various economic and investment projects.
SUC Editing Team
International Business
Panaji, Sep 16 (IANS) The Environment Ministers of BRICS nations on Friday agreed on a Memorandum of Understanding (MoU) and announced the setting up of a joint working group to institutionalise their mutual cooperation on environment-related issues.
Super User
From Different Corners
Washington, Sep 16 (IANS) The 2016 Arctic sea ice cover tied with 2007 for the second lowest yearly minimum on record, according to a new report.
Arctic sea ice appeared to have reached its annual lowest extent on September 10, NASA and the NASA-supported National Snow and Ice Data Center (NSIDC) at the University of Colorado at Boulder reported on Thursday.
At 4.14 million square kilometres, the 2016 Arctic sea ice minimum extent is effectively tied with 2007 for the second lowest yearly minimum in the satellite record.
"The record makes it clear that the ice is not rebounding to where it used to be, even in the midst of the winter," said Claire Parkinson, main author of the study and a senior climate scientist at NASA's Goddard Space Flight Center in Greenbelt, Maryland
The lowest sea ice extent recorded was on September 17, 2012, when it fell to just 3.39 million square kilometres, CNN reported.
The sea ice cover of the Arctic ocean and surrounding seas helps regulate the planet's temperature, influences the circulation of the atmosphere and ocean, and impacts Arctic communities and ecosystems.
Arctic sea ice shrinks every year during the spring and summer until it reaches its minimum yearly extent.
Sea ice regrows during the frigid fall and winter months, when the sun is below the horizon in the Arctic.
This summer, the melt of Arctic sea ice surprised scientists by changing pace several times.
The melt season began with a record low yearly maximum extent in March and a rapid ice loss through May.
But in June and July, low atmospheric pressures and cloudy skies slowed down the melt.
Then, after two large storms went across the Arctic basin in August, sea ice melt picked up speed through early September, the report said.
"It's pretty remarkable that this year's sea ice minimum extent ended up the second lowest, after how the melt progressed in June and July," Walt Meier, a sea ice scientist with NASA's Goddard Space Flight Center said.
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From Different Corners
New York, Sep 16 (IANS) In a first study of its magnitude, researchers in the US aim to infuse an antibody into human immunodeficiency virus (HIV)-negative men and transgender individuals to determine whether it will prevent the infection from developing.
The Antibody Meditated Prevention (AMP) study -- led by an Indian-origin scientist -- aims to recruit a combined 2,700 HIV-negative men and transgender individuals whose sexual partners are men -- the highest-risk demographic for HIV infection -- to test the efficacy of antibody VRC01 in the large clinical trial.
"It is the first study of this magnitude to see whether an antibody infusion can help prevent new HIV infections. If it proves effective, it could potentially pave a way for developing a vaccine for HIV infection," said Shobha Swaminathan, an infectious disease specialist from Rutgers University in New Jersey, US.
The VRC01 antibody was initially detected in an individual who was able to successfully control HIV infection without taking any medications for HIV.
Further, in laboratory tests, VRC01 antibody has shown to be effective against 90 per cent of HIV-1 isolates that were tested, the researchers said.
Those enrolled will either be given intravenous infusions of VRC01 or a placebo every eight weeks for a total of 10 infusions.
Participants will be closely monitored for approximately 22 months for safety and also to determine whether they have remained HIV-negative.
HIV continues to be a major global public health issue, though the rate of infection has fallen significantly in recent years.
In 2014, gay and bisexual men accounted for an estimated 83 per cent of all new HIV infections among men in the US, according to the Centers for Disease Control (CDC).
Though the number of new HIV diagnoses fell 19 per cent from 2005 to 2014, certain demographic groups showed increases in the infection, CDC noted.
"According to CDC estimates, only about 25 per cent of people who are HIV-positive have it under control," says Swaminathan.
Super User
From Different Corners
New York, Sep 16 (IANS) Researchers at Harvard Medical School have found how certain tumours develop a taste for fat over sugar and that one way to kill them could be starving them of their life-sustaining fuel.
The findings showed how a mechanism that normally keeps fat burning in check goes awry in some cancers, revving up fat consumption and fuelling tumour growth.
"This really represents a new frontier in looking at the metabolism of cancer," said senior author of the study Marcia Haigis, Associate Professor of Cell Biology.
"Understanding the molecular handle of this pathway is the first step toward translating the basic work into therapy," Haigis said.
Specifically, the study, published in the journal Molecular Cell, found that a protein called prolyl hydroxylase 3 (PHD3) appears to be a key regulator of the delicate balance inside cells that dampens fat burning.
That protein, the research showed, is abnormally low in certain forms of cancer - a finding that can help lay the ground for development of therapies that work by starving tumours of their fuel.
Two forms of cancer -- acute myeloid leukemia and prostate cancer -- had by far the lowest PHD3 levels, the analysis showed.
To test their hypothesis that these particular cancers needed fats to survive and that PHD3 was a key regulator in the fat-burning process fuelling tumour growth, the researchers restored to normal the levels of PHD3 in a line of cancer cells and in mice.
The tumours not only stopped growing, they died.
"That was really exciting," Haigis said.
"We've altered a lot of metabolic pathways in cancer, and this is one of the few pathways we've modulated where we really see the tumours die. They are so dependent on fat oxidation that they die," Haigis noted.
Before this discovery can move ahead to the clinic, she said, more basic research needs to be done, both in animal models and in cancer cells taken from patients, to understand why certain tumours depend on fat.
Super User
From Different Corners
New York, Sep 16 (IANS) A team of researchers in the US has developed a new inverter that -- despite being smaller and lighter -- improves the fuel-efficiency and range of hybrid and electric vehicles.
Electric and hybrid vehicles rely on inverter components, which are made of the semiconductor material silicon, to ensure that enough electricity is conveyed from the battery to the motor during vehicle operation.
Now researchers at the Future Renewable Electric Energy Distribution and Management (FREEDM) Systems Centre at North Carolina State University have developed an inverter using components made of the wide-bandgap semiconductor material silicon carbide (SiC).
"Our silicon carbide prototype inverter can transfer 99 per cent of energy to the motor, which is about two per cent higher than the best silicon-based inverters under normal conditions," said Iqbal Husain, ABB Distinguished Professor of Electrical and Computer Engineering.
The new SiC-based inverter is able to convey 12.1 kilowatts of power per liter (kW/L) -- close to the US Department of Energy's goal of developing inverters that can achieve 13.4 kW/L by 2020. By way of comparison, a 2010 electric vehicle could achieve only 4.1 kW/L.
"Conventional, silicon-based inverters have likely improved since 2010 but they are still nowhere near 12.1 kW/L," Husain noted in a statement provided by the university.
According to the researchers, they can make an air-cooled inverter up to 35 kW using the new module, for use in motorcycles, hybrid vehicles and scooters.
"The silicon carbide inverters can be smaller and lighter than their silicon counterparts, further improving the range of electric vehicles. And new advances we have made in inverter components should allow us to make the inverters even smaller still," added Husain, who is also the director of the FREEDM Centre.
The current SiC inverter prototype was designed to go up to 55 kW -- the sort of power you would see in a hybrid vehicle.
The researchers are now in the process of scaling it up to 100 kW -- akin to what would see in a fully electric vehicle -- using off-the-shelf components, the research paper, to be presented at the IEEE Energy Conversion Congress and Exposition (ECCE), being held from September 18-22 in Milwaukee, US said.
Super User
From Different Corners
New York, Sep 16 (IANS) It is an immediate, intrinsic response of the hepatitis A virus (HAV)-infected cell that results in liver inflammation, researchers at University of North Carolina at Chapel Hill have discovered.
HAV does not cause chronic liver disease like hepatitis B and C viruses. But in rare cases, it can cause acute liver failure, which is often fatal.
The new findings, published in the journal Science, could lead to new response to control the infection as hepatitis researchers earlier thought that immune cells sent by the body to attack virus-infected cells in the liver cause the acute liver injury.
"The virus evokes a response in the infected cell that activates a pre-programmed cell death pathway," said one of the study authors Stanley Lemon, Professor of Medicine.
"In effect, the cell commits suicide, sacrificing itself along with the virus in an effort to save the host. This results in inflammation within the liver that we recognise as hepatitis," Lemon explained.
Hepatitis A virus is a vaccine preventable form of infectious hepatitis. HAV is found worldwide and is transmitted through ingestion of food and water that is contaminated with the feces of an infected person.
Symptoms of hepatitis A include nausea, stomach pain, fever, sore throat, headache and diarrhea.
People infected with HAV may not experience any symptoms, but shed the virus for two to four weeks. During this period, an infected person can pass the virus to others.
Super User
From Different Corners
London, Sep 17 (IANS) The memory of a heart attack gets stored in genes through epigenetic changes -- chemical modifications of DNA that turns our genes on or off, a study has found.
Cardiovascular diseases (CVDs) which are the leading causes of death worldwide are influenced by both heredity and environmental factors.
CVD includes all the diseases of the heart and circulation including coronary heart disease, angina, heart attack, congenital heart disease and stroke.
The study examined epigenetic changes -- that can lead to the development of various diseases -- in people who have had a previous heart attack.
"During a heart attack the body signals by activating certain genes. This mechanism protects the tissue during the acute phase of the disease, and restores the body after the heart attack. It is therefore likely that epigenetic changes are also associated a heart attack", said Asa Johansson, researcher at the Uppsala University in Sweden.
The results of the study showed that there are many epigenetic changes in individuals who had experienced a heart attack.
Several of these changes are in genes that are linked to cardiovascular disease.
However, it was not possible to determine whether these differences had contributed to the development of the disease, or if they live on as a memory of gene activation associated with the heart attack, the researchers said.
"We hope that our new results should contribute to increasing the knowledge of the importance of epigenetic in the clinical picture of a heart attack, which in the long run could lead to better drugs and treatments", Johansson added.
For the study, the team took blood samples from the northern Sweden population health study. Individuals with a history of a CVD were identified in the cohort. It included individuals with hypertension, myocardial infarction, stroke, thrombosis and cardiac arrhythmia.
The results were published in the journal Human Molecular Genetics.