Grim weather up in North linked to prostate cancer risk

April 21, 2010 By Leave a Comment

London, April 21 (ANI): A new research by scientists at Idaho State University has suggested that grim weather up in North may be making men more prone to prostate cancer.

Dr Sophie St-Hilaire, from Idaho State University, and colleagues believe that a combination of cold temperatures and lack of sun could help explain higher rates of the disease in northerly parts of the world.

It has been claimed that poor exposure to the sun””s rays can lead to vitamin D deficiency, which may increase prostate cancer risk.

Meanwhile, cold weather might help to slow the degradation of cancer-triggering industrial pollutants, say US researchers.

Cold temperatures were also believed to help the chemicals precipitate out of the atmosphere and fall to the ground.

“We found that colder weather, and low rainfall, were strongly correlated with prostate cancer,” the Daily Express quoted St-Hilaire as saying.

“Although we can””t say exactly why this correlation exists, the trends are consistent with what we would expect given the effects of climate on the deposition, absorption, and degradation of persistent organic pollutants including pesticides,” St-Hilaire added.

The research has been published online in the International Journal of Health Geographics. (ANI)

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Catalyst simulations for fuel cells may make clean cars a reality

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): University of Wisconsin-Madison researchers are working towards developing better catalyst for fuel cells in a bid to make clean cars a reality.

If successful, the researchers could make a car that runs on hydrogen from solar power, and produces water instead of carbon emissions.

Materials science and engineering assistant professor Dane Morgan and Ph.D. student Edward (Ted) Holby have developed a computational model that could optimise an important component of fuel cells, making it possible for the technology to have a more widespread use.

The researchers investigated how particle size is related to the overall stability of a material, and showed with their model that increasing the particle size of a fuel cell catalyst decreases degradation and therefore increases the useful lifetime of a fuel cell.

Fuel cells are electrochemical devices that facilitate a reaction between hydrogen and oxygen, producing electrical power and forming water.

In the type of fuel cells Morgan is researching, called proton exchange membrane fuel cells (PEMFCs), hydrogen is split into a proton and electron at one side of the fuel cell (the anode).

The proton moves through the device while the electron is forced to travel in an external circuit, where it can perform useful work, while at the other side of the fuel cell (the cathode), the protons, electrons and oxygen combine to form water, which is the only waste product.

One of the many hurdles to producing efficient fuel cells for widespread use is the catalyst added to aid the reaction between protons, electrons and oxygen at the cathode.

Current fuel cells use platinum and platinum alloys as a catalyst. While platinum can withstand the corrosive fuel cell environment, it is expensive and not very abundant.

Thus, to maximize platinum use, researchers use catalysts made with platinum particles as small as two nanometers, which are approximately 10 atoms across.

These tiny structures have a large surface area on which the fuel cell reaction occurs.

However, platinum catalysts this small degrade very quickly, which means that the fuel cell doesn’t last long.

The researchers have found a possible solution to the rapid degradation problem-when it comes to catalyst particle size, sometimes smaller isn’t better.

In their modelling work, they showed that if the particle size of a platinum catalyst is increased to four or five nanometers, which is approximately 20 atoms across, the level of degradation significantly decreases.

This means the catalyst and the fuel cell as a whole can continue to function for much longer than if the particle size was only two or three nanometers.

“Fuel cells are just one of many energy technologies – solar, battery, etc. – with enormous potential to reduce our dependence on oil and our carbon emissions. Computer simulation offers a powerful tool to understand and develop new materials at the heart of these energy technologies,” said Morgan. (ANI)

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Stem cell transplantation may correct rare genetic disorder in kids

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): Scripps Research Institute scientists have offered new hope for parents whose children suffer from the rare genetic disorder ‘cystinosis’ by showing through an experiment on mice that stem cell transplantation can successfully correct the defect.

“After meeting the children who suffer from this disease, like an 18-year-old who has already had three kidney transplants, and the families who are desperately searching for help, our team is committed to moving toward a cure for cystinosis, a lysosomal storage disorder. This study is an important step toward that goal,” said principal investigator Stephanie Cherqui.

In the study, the researchers used bone marrow stem cell transplantation to address symptoms of cystinosis in a mouse model.

The procedure virtually halted the cystine accumulation responsible for the disease, and the cascade of cell death that follows.

Cystine is a by-product of the break down of cellular components the body no longer needs in the cell’s “housekeeping” organelles, called lysosomes.

Normally, cystine is shunted out of cells, but in cystinosis a gene defect of the lysosomal cystine transporter causes it to build up, forming crystals that are especially damaging to the kidneys and eyes.

Cystinosis is a rare but devastating disease affecting children as young as six months, who begin to suffer renal dysfunction, which grows progressively worse with time. Other symptoms include diabetes, muscular disease, neurological dysfunction, and retinopathy.

The only available drug to treat cystinosis, cysteamine, while slowing the progression of kidney degradation, does not prevent it, and end-stage kidney failure is inevitable.

In the new study, the researchers found that transplanted bone marrow stem cells carrying the normal lysosomal cystine transporter gene abundantly engrafted into every tissue of the experimental mice.

This led to an average drop in cystine levels of about 80 percent in every organ.

Not only it prevented kidney dysfunction, there was less deposition of cystine crystals in the cornea, less bone demineralization, and an improvement in motor function.

“The results really surprised and encouraged us. Because the defect is present in every cell of the body, we did not expect a bone marrow stem cell transplant to be so widespread and effective,” says Cherqui.

Cherqui said that adult bone marrow stem cell therapy is particularly well suited as a potential treatment for cystinosis because these cells target all types of tissues.

In addition, stem cells reside in the bone marrow for the duration of a patient’s life, becoming active as needed, a particular benefit for a progressive disease like cystinosis.

The study has been published in the journal Blood. (ANI)

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World’s last remaining “pristine” forest under threat

August 26, 2009 By Leave a Comment

Adelaide, August 26 (ANI): A team of international researchers has found that the world’s last remaining “pristine” forest, namely the boreal forest across large stretches of Russia, Canada and other northern countries, is under increasing threat.

The researchers were from the University of Adelaide in Australia, Memorial University of Newfoundland in Canada and the National University of Singapore.

They have called for the urgent preservation of existing boreal forests in order to secure biodiversity and prevent the loss of this major global carbon sink.

The boreal forest comprises about one-third of the world’s forested area and one-third of the world’s stored carbon, covering a large proportion of Russia, Canada, Alaska and Scandinavia.

To date, it has remained largely intact because of the typically sparse human populations in boreal regions.

That is now changing, according to researchers and co-authors Associate Professor Corey Bradshaw, University of Adelaide, Associate Professor Ian Warkentin, Memorial University, and Professor Navjot Sodhi, National University of Singapore.

“Much world attention has focused on the loss and degradation of tropical forests over the past three decades, but now the boreal forest is poised to become the next Amazon,” said Associate Professor Bradshaw, from the University of Adelaide’s Environment Institute.

“Historically, fire and insects have driven the natural dynamics of boreal ecosystems,” said Associate Professor Warkentin.

“But with rising demand for resources, human disturbances caused by logging, mining and urban development have increased in these forests during recent years, with extensive forest loss for some regions and others facing heavy fragmentation and exploitation,” he added.

According to the findings, few countries are reporting an overall change in the coverage by boreal forest, but the degree of fragmentation is increasing with only about 40 percent of the total forested area remaining “intact”.

Russian boreal forest is the most degraded and least “intact” and has suffered the greatest decline in the last few decades.

Countries with boreal forest are protecting less than 10 percent of their forests from timber exploitation, except for Sweden where the figure is about 20 percent. (ANI)

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Synthetic protein-like molecule may protect against HIV infection

August 18, 2009 By Leave a Comment

Washington, Aug 18 (ANI): Researchers have used the human immunodeficiency virus (HIV) and molecular engineering to design synthetic protein-like molecule, which may be able to put a stop to unwanted biological interactions between the cells.

The pioneering study may protect cells against HIV infection.

In a bid to control protein shape, Samuel Gellman, a chemistry professor and his University of Wisconsin-Madison research team, created a set of peptide-like molecules that were successful in blocking HIV infection of human cells in the laboratory.

Adjusting molecular blueprints, Gellman and his colleagues made small structural changes to the backbones of their synthetic molecules to improve stability while retaining the three-dimensional shape necessary to recognize and interact with the HIV gp41 protein.

The resulting molecules, named “foldamers”, are hybrids of natural and unnatural amino acid building blocks, a combination that allows the scientists to control shape, structure and stability with much greater precision than is currently possible with natural amino acids.

The team found that the interaction of synthetic molecules with a piece of HIV protein gp41 physically obstructs the virus from infecting host cells.

The findings have appeared online in the August 17 issue of the Proceedings of the National Academy of Sciences.

Interactions between proteins are not only fundamental to many biological processes, but also to infections like HIV and tumours.

“There’s a lot of information transfer that occurs when proteins come together, and one would often like to block that information flow,” said Gellman.

These synthetic molecules not only interrupt protein-protein interaction, but are also highly resistant to degradation by naturally occurring enzymes, which do not recognize their unusual structure. This means even a low dose of these molecules can remain effective for a longer time.

“We want to find an alternate language, an alternate way to express the information that the proteins express so that we can interfere with a conversation that one protein is having with another,” Gellman explains.

Gellman said the results of their study show that this type of approach could be very useful in designing molecules for antiviral therapies and other biomedical applications.

He said: “You don’t have to limit yourself to the building blocks that nature uses,” Gellman says.

“There’s a huge potential here because the strategy we use is different from what the pharmaceutical and biotech industries now employ.” (ANI)

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Illegal constructions making Darjeeling vulnerable to landslides

July 10, 2009 By Leave a Comment

Darjeeling, July 9 (ANI): The massive construction of buildings, a majority of them illegal, has led to degradation of soil texture in the Darjeeling Hills area of West Bengal and making the place vulnerable to landslides.

A series of landslides hit Darjeeling and its surrounding areas in May, triggered by overnight torrents.

Local builders, however, have ignored the threat of landslides or public concern.

Geologists say that the construction of unauthorised buildings coupled with improper drainage systems has led to recent landslides.

“For the Since last 100 years, Darjeeling is witnessing an rapid increase in population. This migration of population has led to an increase in unauthorised constructions. This coupled with the lack of a proper drainage system in the Darjeeling Hills culminated in the recent catastrophic landslides,” said Subhir Sarkar, a geologist.

When asked about the problem, the State Minister for Urban Development and Municipal Affairs, Ashok Narayan Bhattacharya, said the state Government has asked the local civic body to take active measures against it.

“We would be organising a seminar in Kalimpong to ascertain the crisis, and whatever the meteorologists say is very much justified and the municipality must look into the matter,” said Bhattacharya.

Situated at a height of 2,134 meters, Darjeeling is also famous for its 125-year-old railway, a UNESCO world heritage site where the century old miniature steam engine still chugs.

During the late 50s of the 19th century, Darjeeling was developed as a hill station for Britishers, who wanted to escape the heat of the plains.

As time passed, Darjeeling emerged as a tourists destination. By Taruk Sarkar (ANI)

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New nanotechnology technique may boost longevity of dental fillings

July 2, 2009 By Leave a Comment

Washington, July 2 (ANI): A novel nanotechnology technique can boost the longevity of dental fillings, claims a Medical College of Georgia (MCG) researcher.

The tooth-coloured fillings are usually more attractive than silver ones, but the bonds between the white filling and the tooth quickly age and degrade.

“Dentin adhesives bond well initially, but then the hybrid layer between the adhesive and the dentin begins to break down in as little as one year. When that happens, the restoration will eventually fail and come off the tooth,” said Dr. Franklin Tay, associate professor of endodontics in the MCG School of Dentistry.

He added: “Our adhesives are not as good as we thought they were, and that causes problems for the bonds.”

To make a bond, a dentist etches away some of the dentin’s minerals with phosphoric acid to expose a network of collagen, known as the hybrid layer.

Acid-etching prepares the tooth for application of an adhesive to the hybrid layer so that the resin can latch on to the collagen network, but the imperfect adhesives leave spaces inside the collagen that are not properly infiltrated with resin, leading to the bonds’ failure.

Thus, in order to prevent the aging and degradation of resin-dentin bonding by feeding minerals back into the collagen network, Tay is investigating guided tissue remineralisation.

Guided tissue remineralisation is a new nanotechnology process of growing extremely small, mineral-rich crystals and guiding them into the demineralised gaps between collagen fibres.

Tay got the idea of the technique by examining how crystals form in nature.

“Eggshells and abalone [sea snail] shells are very strong and intriguing. We’re trying to mimic nature, and we’re learning a lot from observing how small animals make their shells,” said Tay.

The crystals, called hydroxyapatite, bond when proteins and minerals interact.

Tay will use calcium phosphate, a mineral that’s the primary component of dentin, enamel and bone, and two protein analogs also found in dentin so he can mimic nature while controlling the size of each crystal.

“When crystals are formed, they don’t have a definite shape, so they are easily guided into the nooks and crannies of the collagen matrix,” he said.

In theory, the crystals should lock the minerals into the hybrid layer, and prevent it from degrading.

If the concept of guided tissue remineralisation works, Tay will create a delivery system to apply the crystals to the hybrid layer after the acid-etching process.

The study has been published in the Journal of the American Dental Association. (ANI)

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Fire destroys large forest cover in Kashmir

June 27, 2009 By Leave a Comment

Manjakote (J-K), June 25 (ANI): A massive fire has engulfed a large forest area in Jammu and Kashmir, destroying trees and posing threat to nomadic tribes living near the forest.

The fire, which has been raging for past two days in Rajouri areas, has caused damage to the region’s ecology.

The forest authorities have sought the help of in Army personnel to douse the fire, which they cite is due to a prolonged dry spell and high temperature in the region.

“The temperature is very high especially in Jammu region and in Kanjuri, Kalakot and Pandi ranges there have been many incidents of fire. We have deployed all our staff in controlling these fires,” said Gulzar Hussain, District Forest Officer (DFO), Rajouri.

The fire officials are trying their level best to control the fire and stop it from spreading further, but have not been successful.

Scarcity of water is a major handicap in controlling the fire. The fire has also led to a rise in the temperature of the region around the forest cover.

Forest fires are a major cause of degradation of forest cover in India and around 90 percent of the fires are caused due to human carelessness. (ANI)

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World’s corals face danger as global warming whips up powerful storms

June 26, 2009 By Leave a Comment

Washington, June 24 (ANI): A new scientific study has found that as global warming whips up more powerful and frequent hurricanes and storms, the world’s coral reefs face increased disruption to their ability to breed and recover from damage.

“We have found clear evidence that coral recruitment – the regrowth of young corals – drops sharply in the wake of a major bleaching event or a hurricane,” said lead study author Dr Jennie Mallela of the ARC Centre of Excellence for Coral Reef Studies and Australian National University.

Using the island of Tobago in the Caribbean as their laboratory, Dr Mallela and colleague Professor James Crabbe of the University of Bedfordshire, UK, backtracked to 1980 to see what had happened to the corals in the wake of nine hurricanes, tropical storms and bleaching events.

“In every case, there was a sharp drop in coral recruitment following the event – often by as much as two thirds to three quarters. Not only were fewer new coral colonies formed, but also far fewer of the major reef building coral species recruited successfully,” Jennie said.

“This finding mirrors our modelling studies on the fringing reefs of Jamaica, and on the Meso-American Barrier reef off the coast of Belize,” said Professor Crabbe.

Tobago lies outside the main Caribbean hurricane belt and therefore is more typical of the circumstances of most coral reefs around the world.

Nevertheless, its corals are disrupted by a major storm or bleaching every three or four years – and the frequency of this may be growing.

“Climate researchers are seeing increasing evidence for a direct relationship between global warming and rising hurricane intensity as well as frequency,” Jennie explained.

“Global warming produces significant increases in the frequency of high sea surface temperatures (SSTs), and hurricane winds are strengthened by warm surface waters,” she said.

The high temperatures cause bleaching, while the storms inflict physical destruction on the corals as well as eroding the rocky platforms they need to grow on, or burying them in sand.

“Maintaining coral reef populations in the face of large-scale degradation depends critically on recruitment – the ability of the corals to breed successfully and settle on the reef to form new colonies. Our research suggests this process is severely disrupted after one of these major events,” said Jennie.

According to Jennie, the concern is that if major storms and bleaching become more frequent as the climate warms, the ability of individual reefs to renew themselves may break down completely. (ANI)

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India to host International workshop on ‘Green Customs Initiatives’

May 25, 2009 By Leave a Comment

New Delhi, May 25 (ANI): India will host a five-day international workshop starting from today on ‘Green Customs Initiatives’ to bring awareness about environment protection and the role of customs officers in enforcing environmental laws on the borders.

The National Academy of Customs, Excise and Narcotics (NACEN), the training arm of the Central Board of Excise and Customs (CBEC), will host the event under the aegis of the World Customs Organisation (WCO) at NACEN in Faridabad.

Protection of the environment is a primary concern of the international community today to ensure that the earth does not become the victim of environmental degradation with its catastrophic consequences for life on earth. The role of Customs Departments of the International Community is important specially in view of the fact that national and international Crime Syndicates are indulging in environmental crimes for pecuniary gains.

The Workshop is aimed at bringing about awareness of the importance of environment protection and the role of Customs Officers in this task in the Asia Pacific, Central Asia and Australasia Regions.

The participants of the Workshop are expected to go back to their respective countries duly enriched on this aspect and take forward the “Green Customs Initiatives” which has been launched by the Secretariats of the Multilateral Environment Agreements (MEAs) such as, Basel Convention, Rotterdam Convention, Stockholm Convention, Montreal Protocol, Chemical Weapons Convention etc. in cooperation with UNEP and the WCO.

The Workshop will be attended by participants from 21 countries of the Central Asia, Asia Pacific and Australasia Regions and Experts from the United Nations Environment Programme (UNEP), the World Customs Organisation (WCO) and the Secretariats of the Multilateral Environment Agreements (MEAs) (to which India is a party). (ANI)

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Dual nutrient strategy vital to improve aquatic ecosystems

May 19, 2009 By Leave a Comment

Washington, May 19 (ANI): A scientist has stressed on the need for a dual nutrient strategy to improve aquatic ecosystems.

Excess phosphorus and nitrogen produced by human activities on neighboring land is making its way into coastal waters and degrading both water quality and aquatic life.

Although historically the priority has been to control phosphorus, Professor Hans Paerl, from the University of North Carolina in the US, argues that nitrogen imbalance is equally damaging.

According to Professor Paerl, a dual nutrient strategy, which tackles both phosphorus and nitrogen surplus, is necessary to manage effectively this nutrient over-enrichment and resulting habitat degradation of coastal waters in the long-term.

The combination of human population growth, urbanization, and agricultural and industrial expansion is causing unprecedented and alarming rates of nutrient over-enrichment and accelerated plant growth in receiving waters worldwide.

The increasing levels of nitrogen and phosphorus are of particular concern because an excess of these two nutrients promotes accelerated production of plant-based organic matter (or eutrophication) to the extent that excessive production, including harmful algal blooms, contributes to the expansion of marine ‘dead zones’ and leads to the destruction of fisheries habitat.

The negative consequences of eutrophication have been apparent in freshwater habitats for a long time and phosphorus has been identified as the key nutrient responsible.

While freshwater lakes have, over the past few decades, received continual doses of phosphorus, many coastal systems have experienced ever-increasing nitrogen loads from rapidly growing human sources, with severe negative impacts on ecosystem structure and function.

This has led to the need for nitrogen control measures.

Professor Paerl shows that the argument for reducing surplus phosphorus alone, to control eutrophication, is idealized and conceptually and technically inapplicable to many freshwater and marine ecosystems.

He added that focusing on phosphorus alone ignores the fact that natural and human influences that affect upstream waters have significant adverse consequences on downstream waters.

Therefore, it is essential to look at nutrient control measures and their effects across the entire freshwater to marine continuum, not each one in isolation.

According to Professor Paerl, “The dual nutrient approach represents an evolutionary step in arresting eutrophication, with consideration of the larger scale freshwater-marine continuum being the driving force.” (ANI)

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River Ganga continues to face pollution

May 4, 2009 By Leave a Comment

Varanasi, May 4 (ANI): River Ganga remains highly polluted even after being declared the ‘National River’ by the Central Government.

The Ganga was declared the ‘National River’ to facilitate the clean up operations.

A Ganga River Basin Authority was also set up in order to check pollution in the river and its degradation.

But the problems for the River Ganga are far from over. It remains immensely polluted. Filled with chemical wastes, sewage and even the remains of human and animal corpses, it poses major health risks to around 400 million people living by its side and all others who benefit from it.

Ganga also suffers from another major problem called silting which results into chocking of its flow.

Some people also believe that constructing dams on the Ganga could be the cause of low water level in the river.

Acharya Jitendra, president, Ganga Mahasabha, a voluntary organisation working for saving the Ganga said, “Nearly 243 dams are slated to be constructed on the tributaries of the Ganga in Uttarakhand. This will obstruct the flow of water into the main river. So obviously, there will be sand dunes and the water level will be low. If the tributaries don’t release water into the river, how will there be water in the Ganga.”

The residents say that even after being declared the ‘National River’, no steps have been taken to improve the condition of the Ganga.

“The condition of the Ganga is deteriorating by the day. There is more sand in it. Though it is declared a ‘National River’, no efforts are being made to clean it. If water is resleased from the dam, then only the water level will increase in the river,” said Rajesh Kumar Singh, a resident.

Efforts have always been made to clean up the Ganga since a long time but none have been proved successful.

The Rajiv Gandhi Government launched the Ganga Action Plan in 1984, but yielded little result. The river is said to be directly affecting the lives of around 400 million people who live by its side. By Girish Kumar Dubey (ANI)

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‘Super reefs’ near East Africa can fend off climate change

April 24, 2009 By Leave a Comment

Washington, April 24 (ANI): A new study has suggested that some coral reefs off East Africa are unusually resilient to climate change, and can be termed as ‘super reefs’.

The study, conducted by researchers at the Wildlife Conservation Society (WCS), showed that the reefs have become super tough due to improved fisheries management and a combination of geophysical factors.

The study found that Tanzania’s corals recovered rapidly from the 1998 bleaching event that had wiped out up to 45 percent of the region’s corals.

The researchers attribute the recovery of Tanzania’s coral reefs due in part to direct management measures, including closures to commercial fishing.

Areas with fishery closures contained an abundance of fish that feed on algae that can otherwise smother corals, while the few sites without any specific management measures remain degraded.

The findings also showed that the structure of the reefs played a major factor in their resiliency.

Tanzania’s reefs are particularly complex and experience unusual variations in current and water temperature.

These factors allow for greater survivorship of a higher diversity of coral species, including those that can quickly re-colonize after bleaching.

“Northern Tanzania’s reefs have exhibited considerable resilience and in some cases improvements in reef conditions despite heavy pressure from climate change impacts and overfishing,” noted Wildlife Conservation Society scientist Dr. Tim McClanahan, the study’s lead author.

“This gives cause for considerably more optimism that developing countries, such as Tanzania, can effectively manage their reefs in the face of climate change,” he added.

According to the researchers, reefs in Tanzania and elsewhere that exhibit similar environmental conditions have the ability to recover from large-scale climatic and human disturbances.

They may, therefore, be a priority for conservation under predicted climate change scenarios where many reefs are expected to suffer further degradation.

The study provides additional evidence that globally important “super reefs” exist in the triangle from Northern Madagascar across to northern Mozambique to southern Kenya and, thus, should be a high priority for future conservation action. (ANI)

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Berries may help keep wrinkles at bay

April 22, 2009 By Leave a Comment

Washington, Apr 22 (ANI): The latest beauty cream that can be added in a woman’s skin care regimen can be found in berries. A new study has found that an antioxidant present in the fruit could help fight skin damage due to ultraviolet (UV) rays.

Using a topical application of the antioxidant ellagic acid, researchers at Hallym University in the Republic of Korea markedly prevented collagen destruction and inflammatory response – major causes of wrinkles – in both human skin cells and the sensitive skin of hairless mice following continuing exposure to UV-B, the sun’s skin-damaging ultraviolet radioactive rays.

Ji-Young Bae, a graduate student in the laboratory of Dr. Young-Hee Kang, presented results of the two-part study on April 21, at the Experimental Biology 2009 meeting in New Orleans. The presentation was part of the scientific program of the American Society for Nutrition.

Ellagic acid is an antioxidant found in numerous fruits, vegetables and nuts, especially raspberries, strawberries, cranberries and pomegranates. Earlier studies have suggested it has a photoprotective effect.

The Kang laboratory found that, in human skin cells, ellagic acid worked to protect against UV damage by blocking production of MMP (matrix metalloproteinase enzymes that break down collagen in damaged skin cells) and by reducing the expression of ICAM (a molecule involved in inflammation).

The scientists then turned to young (four weeks), male, hairless mice – genetically bred types of mice often used in dermatology studies because of the physiological similarities of their skin to that of humans. For eight weeks, the 12 mice were exposed to increasing ultraviolet radiation, such as that found in sunlight, three times a week, beginning at a level sufficient to cause redness or sunburn and increasing to a level that would have definitely caused minor skin damage to human skin.

During these eight weeks, half of the exposed mice were given daily 10 microM topical applications of ellagic acid on their skin surface, even on the days in which they did not receive UV exposure. The other mice, also exposed to UV light, did not receive ellagic acid.

Following the analyses, the mice exposed to UV radiation without the ellagic acid treatment developed wrinkles and thickening of the skin, the researchers found.

Second, as hypothesized, the exposed mice that received topical application of ellagic acid showed reduced wrinkle formation.

Third, as suggested in the study of human cells, the ellagic acid reduced inflammatory response and MMP secretion due to protection from the degradation of collagen. The ellagic acid also helped prevent an increase of epidermal thickness.

The researchers say the results demonstrate that ellagic acid works to prevent wrinkle formation and photo-aging caused by UV destruction of collagen and inflammatory response. (ANI)

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Protein controls ‘bad’ cholesterol levels outside cells

April 17, 2009 By Leave a Comment

Washington, Apr 17 (ANI): A protein called PCSK9, which regulates ‘bad’ cholesterol in the blood, has been found to work almost exclusively outside cells, according to researchers at UT Southwestern Medical Centre.

The finding could provide clues for the development of therapies to block the protein’s disruptive actions.

“The fact that it works mostly extracellularly provides more opportunities to develop different kinds of therapies,” said Dr. Jay Horton, professor of internal medicine and molecular genetics and co-author of the study.

PCSK9 disrupts the activity of a key molecule called the low-density lipoprotein receptor, or LDLR, which is made and secreted in the liver.

Horton said that the new findings show that PCSK9 principally acts as a secreted protein to cause the degradation of LDL receptors by latching on to it.

“Therefore, approaches to block the protein’s activity in the blood should be successful in reducing plasma cholesterol levels,” he said.

In order to know if PCSK9 works inside or outside the cell, the researchers designed peptides to jam the interaction between PCSK9 and the LDL receptor.

They then added the peptides to a cultured cell medium to see if they could block the activities of PCSK9.

It was found that the peptides prevented the secreted PCSK9 from binding to the surface of the LDL receptors.

Thus Horton said that PCSK9 is likely to perform its destructive duties outside cells, in order to provide more opportunities for drug development.

“It’s much easier to design inhibitors of PCSK9 function to work outside a cell than to develop a small molecule that works inside a cell,” he said.

The study has been published in the online edition of the Journal of Biological Chemistry. (ANI)

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China to maintain relaxed monetary policy: cbank

April 14, 2009 By Leave a Comment

BEIJING (Reuters) – China will continue to implement a relaxed monetary policy and keep sufficient liquidity in the banking system, the People’s Bank of China said on Sunday.

The statement appeared to be the central bank’s response to new data released on Saturday, which showed new yuan loans and money supply growth both surged to record highs in March.

“We must continue with macro-economic controls set by the central party committee and state council, implement a moderately relaxed monetary policy, maintain continuity and stability of monetary policy,” the bank said in a statement after a routine meeting to review economic performance in first quarter.

“We must maintain liquidity in the banking system, and ensure that monetary supply is sufficient to meet the needs of economic development.

Banks extended 1.89 trillion yuan ($276.6 billion) in local currency-denominated loans in March, bringing the total for the first quarter to 4.58 trillion yuan — nearing the government’s full-year target of at least 5 trillion yuan.

That helped lift annual growth in the broad M2 measure of money supply to a record 25.5 percent in March, up from 20.5 percent in February and easily exceeding economists’ expectations of a 21.

“Give more support to the agricultural sector, small and medium enterprises and other weak links, concretely resolve some financing difficulties faced by companies, strictly control lending to high-polluting, high-energy consuming industries and to those with over-capacity,” the bank added.

Smaller and private firms struggled after the Chinese authorities clamped down on lending well over a year ago. They have not benefited much from the recent relaxation since banks view them as more risky, given the global financial crisis.

Critics fear that China’s stimulus measures to combat the crisis have given a boost to local pet projects, which in the long run could contribute to China’s industrial overcapacity and environmental degradation.

(Reporting by Lucy Hornby and Zhou Xin; Editing by Kazunori Takada)

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Gearbox failure caused N.Sea helicopter crash-probe

April 11, 2009 By Leave a Comment

LONDON, April 10 (Reuters) – The North Sea helicopter crash that killed 16 people last week was caused by a “catastrophic failure” that led to the aircraft’s main rotor breaking away, British air accident investigators said on Friday.

In an initial report, the Air Accidents Investigation Branch (AAIB) said the failure occurred in part of the helicopter’s main gearbox.

The rotor then broke off, hitting and severing the aircraft’s tail boom, the AAIB said, adding there was also a rupture in the helicopter’s right-hand engine casing.

The 14 passengers and two crew were returning from a BP oil platform when the Super Puma helicopter crashed in the sea in fine weather on April 1.

The AAIB said the Puma’s manufacturer Eurocopter should instruct all operators to increase main rotor gearbox inspections.

It also said Eurocopter should “improve the gearbox monitoring and warning systems on the (Puma) helicopter so as to identify degradation and provide adequate alerts”.

It was the second Super Puma crash in the North Sea in six weeks. In February, all 18 on board a Super Puma travelling to a BP oil rig were rescued after it went down into the sea after hitting a fog bank.

Both aircraft were operated by Bond Offshore Helicopters, which runs a fleet of Super Puma twin-engined helicopters to supply sea-based oil rigs. (Reporting by Frank Prenesti; Editing by Alison Williams)

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Replacing nature with technology may spawn major psychological problems

April 2, 2009 By 1 Comment

Washington, April 2 (ANI): University of Washington experts have warned that the way modern technology has been breaking people’s connections with the natural world may give rise to a major psychological problem.

“We are a technological species, but we also need a deep connection with nature in our lives,” said Peter Kahn, a UW developmental psychologist.

Kahn and two of his UW graduate students, Rachel Severson and Jolina Ruckert, explored how humans connect with nature and technological nature.

Writing in the current issue of the journal Current Directions in Psychological Science, the researchere revealed that they looked at the psychological effects of interacting with various forms of technological nature and explore humanity’s growing estrangement from nature.

They even cited an earlier experiment that showed that people recovered better from low-level stress by looking at an actual view of nature rather than seeing the same real-time high-definition television scene displayed on a plasma window.

“What do we compare technology to? If we compare it to no nature, technological nature works pretty well. But if we compare it to actual nature, it doesn’t seem to provide as many psychological benefits,” Kahn said.

They have also talked about a study that showed that compared to interacting with a real dog, children’s interactions with robots were not as social or deep.

“Robot and virtual pets are beginning to replace children’s interactions with biologically live pets. The larger concern is that technological nature will shift the baseline of what people perceive as the full human experience of nature, and that it will contribute to what we call environmental generational amnesia,” Ruckert said.

Kahn added: “Poor air quality is a good example of physical degradation. We can choke on the air, and some people suffer asthma, but we tend to think that’s a pretty normal part of the human condition.

He likened the situation to the effort to convince people that climate change is a serious challenge.

“People might think that if technological nature is partly good that that’s good enough. But it’s not. Because across generations what will happen is that the good enough will become the good. If we don’t change course, it will impoverish us as a species,” he said. (ANI)

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Assam College offers post-graduate course in eco-restoration

March 29, 2009 By Leave a Comment

Guwahati, March 29 (ANI): Youngsters drawn to the idea of doing something useful for the environment can now educate themselves about it in a better way by attempting a post graduation in eco restoration from an Assam college here.

Assam’s Dimoria College is claimed to be the first college of South East Asia offering such a course.

Located about 30 kilometres from Guwahati city, the Dimoria College of Higher Education, offers a post-graduate course in eco-restoration, which is sponsored by the University Grants Commission.

“Eco-restoration is a new concept under innovative scheme sponsored by the University Grant Commission of India. The subject has potential for (job) placement. It is a general need of this modern world because deforestation and degradation of the ecology is a great concern of the human beings,” said R.C Bharali, the college principal.

“There is a very good prospect in this field. Eco-restoration, generally while you say, means going to the field and restoring the degraded eco-system especially wetlands and forestlands. So, there is a huge scope in this subject. Public participation is also very important,” said Chander Sharma, a lecturer at the college.

It is the only college in the country offering the course, and students from the first batch have already secured placements.

“This subject is new. In south East Asia, this course is offered only in Assam’s Dimoria College. So, this course is internationally related. We all know that nowadays, environment is very polluted and so we all should protect and preserve the environment,” said Unimala, a student of Dimoria College.

The institute also has ties with a German university and the students and teachers get to benefit from various exchange programmes. By Peter Alex Todd (ANI)

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New enzymes for cheaper biofuel production engineered

March 24, 2009 By Leave a Comment

Washington, Mar 24 (ANI): Researchers at the California Institute of Technology (Caltech) and world-leading gene-synthesis company DNA2.0 have created new enzymes for cheaper biofuel production.

Biofuels are made by converting renewable materials-for example, corn kernels, wood chips left over from pulp and paper production, prairie grasses, and even garbage-into fuels and chemicals.

Frances H. Arnold, the Dick and Barbara Dickinson Professor of Chemical Engineering and Biochemistry at Caltech, and her colleagues have constructed 15 new highly stable fungal enzyme catalysts that efficiently break down cellulose into sugars at high temperatures.

Cellulose is the world’s most abundant organic material and cheapest form of solar-energy storage.

Plant sugars are easily converted into a variety of renewable fuels such as ethanol or butanol.

Earlier, less than 10 such fungal cellobiohydrolase II enzymes were known.

But the new enzymes, not only boast remarkable stabilities, but also degrade cellulose over a wide range of conditions.

Most biofuels used today are made from the fermentation of starch from corn kernels. That process, although simple, is costly because of the high price of the corn kernels themselves.

Agricultural waste, such as corn stover (the leaves, stalks, and stripped cobs of corn plants, left over after harvest), is cheap. These materials are largely composed of cellulose, the chief component of plant-cell walls. Cellulose is far tougher to break down than starch.

An additional complication is that while the fermentation reaction that breaks down cornstarch needs just one enzyme, the degradation of cellulose requires a whole suite of enzymes, or cellulases, working in concert.

Arnold and Caltech postdoctoral scholar Pete Heinzelman created the 15 new enzymes using a process called structure-guided recombination.

Using a computer program to design where the genes recombine, the researchers “mated” the sequences of three known fungal cellulases to make more than 6,000 progeny sequences that were different from any of the parents, yet encoded proteins with the same structure and cellulose-degradation ability.

After analysing the enzymes encoded by a small subset of those sequences, the researchers could predict which of the more than 6,000 possible new enzymes would be the most stable, especially under higher temperatures (a characteristic called thermostability).

“Enzymes that are highly thermostable also tend to last for a long time, even at lower temperatures. And, longer-lasting enzymes break down more cellulose, leading to lower cost,” said Arnold.

Using the computer-generated sequences, researchers synthesized actual DNA sequences, which were transferred into yeast in Arnold’s laboratory. The yeast produced the enzymes, which were then tested for their cellulose-degrading ability and efficiency.

Each of the 15 new cellulases was more stable, worked at significantly higher temperatures (70 to 75 degrees Celsius), and degraded more cellulose than the parent enzymes at those temperatures.

“This is a really nice demonstration of the power of synthetic biology,” said Arnold.

The study is published in the early edition of the Proceedings of the National Academy of Sciences. (ANI)

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