Invading black holes cause ‘cosmic flashes’

September 19, 2009 By Leave a Comment

Washington, September 19 (ANI): Mathematicians at the University of Leeds, UK, have determined that cosmic flashes, known as gamma ray bursts, are produced by jets of plasma that originate from invading black holes.

Gamma ray bursts are beams of high-energy radiation that are similar to the radiation emitted by explosions of nuclear weapons.

The orthodox model for this cosmic jet engine involves plasma being heated by neutrinos in a disk of matter that forms around a black hole, which is created when a star collapses.

But, mathematicians at the University of Leeds, have come up with a different explanation: the jets come directly from black holes, which can dive into nearby massive stars and devour them.

Their theory is based on recent observations by the Swift satellite, which indicates that the central jet engine operates for up to 10,000 seconds – much longer than the neutrino model can explain.

Mathematicians believe that this is evidence for an electromagnetic origin of the jets, that is, that the jets come directly from a rotating black hole, and that it is the magnetic stresses caused by the rotation that focus and accelerate the jet’s flow.

For the mechanism to operate, the collapsing star has to be rotating extremely rapidly.

This increases the duration of the star’s collapse as the gravity is opposed by strong centrifugal forces.

One particularly peculiar way of creating the right conditions involves not a collapsing star, but a star invaded by its black hole companion in a binary system.

The black hole acts like a parasite, diving into the normal star, spinning it with gravitational forces on its way to the star’s centre, and finally eating it from the inside.

“The neutrino model cannot explain very long gamma ray bursts and the Swift observations, as the rate at which the black hole swallows the star becomes rather low quite quickly, rendering the neutrino mechanism inefficient, but the magnetic mechanism can,” said Professor Komissarov from the School of Mathematics at the University of Leeds.

“Our knowledge of the amount of the matter that collects around the black hole and the rotation speed of the star allow us to calculate how long these long flashes will be – and the results correlate very well with observations from satellites,” he added. (ANI)

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Scientists unravel chemistry of Titan’s hazy atmosphere

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): In a new research, a team of scientists has unraveled the chemical evolution of the orange-brownish colored atmosphere of Saturn’s moon Titan, the only solar system body besides Venus and Earth with a solid surface and thick atmosphere.

Scientists at University of Hawai’i at Manoa carried out the research.

The UH Manoa team, including Xibin Gu and Seol Kim, conducted simulation experiments mimicking the chemical reactions in Titan’s atmosphere utilizing crossed molecular beams in which the consequence of a single collision between molecules can be followed.

The team’s experiments indicate that triacetylene can be formed by a single collision of a “radical” ethynyl molecule and a diacetylene molecule.

An ethynyl radical is produced in Titan’s atmosphere by the photodissociation of acetylene by ultraviolet light.

Photodissociation is a process in which a chemical compound is broken down by photons.

“Surprisingly, the photochemical models show inconsistent mechanisms for the production of polyynes,” said Kaiser, who is the principal investigator of this study.

The mechanism involved in the formation of triacetylene, was also confirmed by accompanying theoretical calculations by Alexander Mebel, a theoretical chemist at Florida International University.

These theoretical computations also provide the 3D distribution of electrons in atoms and thus the overall energy level of a molecule.

To apply these findings to the real atmosphere of Titan, Danie Liang and Yuk Yung, planetary scientists at Taiwan’s Academia Sinica and California Institute of Technology (Caltech), respectively, performed photochemical modeling studies of Titan’s atmosphere.

All data together suggest that triacetylene may serve as a building block to form more complex and longer polyynes and produce potential precursors for the aerosol-based layers of haze surrounding Titan.

The study demonstrated for the first time that a sensible combination of laboratory simulation experiments with theory and modeling studies can shed light on decade old unsolved problems crucial to understand the origin and chemical evolution of the solar system.

The researchers hope to unravel next the mystery of the missing ethane lakes on Titan – postulated to exist for half a century, but not detected conclusively within the framework of the Cassini-Huygens mission.

In the future, the UH Manoa team will combine the research results with terrestrial-based observations of Titan’s atmosphere. (ANI)

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Hyderabad students learn intricacies of cyber security

September 14, 2009 By Leave a Comment

Hyderabad, Sep. 13 (ANI): Aiming to prevent cyber crimes in the country, students in Hyderabad are learning and mastering the intricacies of cyber security.

In the fast developing countries where information technology (IT) has reached the apex, the security of data compiled, stored and transmitted is of utmost import.

According to analysts, the requirement of employees for preventing cyber crimes in India is higher as compared to other countries.

“E-commerce has made a very huge impact in every country’s economy. So whenever you use Internet, you need security. It is a very booming and open market that is going to be coming in few days,” noted Vikram, a student of cyber security.

In the times when cyber terrorism and cyber warfare have tried to cripple infrastructure of various nations, a proper cyber mechanism is the need of the hour.

“The government has to take serious initiative on awareness, training technology transfer and then we can call it as security development. I mean to say, you have to have a proper infrastructure in place. For all these, it takes long time. It’s not a one-day or a two-day initiative. It takes probably half a decade,” said Zaki Qureshi, a software professional and an expert in cyber security.

Cyber security is very important to protect the IT services in corporate establishments, government organisations as well as the ones used by the general public.

The same must be a part of the national policy. Unfortunately, cyber security in India is yet to pick up among the IT users, noted Zaki Qureshi. (ANI)

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Cabinet approves recognition of ancient Sowa-Rigpa medical system

September 10, 2009 By Leave a Comment

New Delhi, Sep 10 (ANI): The Union Cabinet today approved the Indian Medicine Central Council (Amendment) Bill, 2009 for amending the Indian Medicine Central Council Act, 1970.

“Sowa-Rigpa” commonly known as ‘Amchi’ is one of the oldest surviving system of medicine in the world, popular in the Himalayan region of India. In India this system is practiced in Sikkim, Arunachal Pradesh, Darjeeling (West Bengal), Lahoul and Spiti (Himachal Pradesh) and Ladakh region of Jammu and Kashmir.

The theory and practices of “Sowa-Rigpa” are similar to Ayurveda, and also include few principles of Traditional Chinese Medicine. The fundamental text book rgyud-bzi of “Sowa-Rigpa” is believed to have been taught by Buddha himself and is closely linked with Buddhist philosophy. he Government of India has received representations from various quarters to grant recognition to the System of “Sowa-Rigpa” to enable it get a legal status.

To confer legal status to “Sowa-Rigpa” amendments to section 2,3,8,9 and 17 of the Indian Medicine Central Council Act 1970, need to be carried out.

The proposed amendments shall give effect to the inclusion of “Sowa-Rigpa” under sections 2,3,8,9 and 17 of the Indian Medicine Central Council Act, 1970 thereby recognizing this system legally.

It is expected that the legal recognition of “Sowa-Rigpa” will lead to the protection and preservation of this ancient system of medicine and will help in its propagation and development. This will also open new vistas leading to collaborative research and scientific validation of the “Sowa-Rigpa” system, besides conservation and protection of the medicinal plants/minerals used in the system.

The recognition of “Sowa-Rigpa” will also lead to the setting up of a mechanism to regulate the education and practice of “Sowa-Rigpa”. (ANI)

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Vitamin C can help protect DNA damage of skin cells

September 10, 2009 By Leave a Comment

Washington, Sept 10 (ANI): Researchers at the University of Leicester and Institute for Molecular and Cellular Biology in Portugal have found that vitamin C can help protect DNA damage of skin cells and lead to better skin regeneration.

Previous research has shown that DNA repair is upregulated in people consuming vitamin C supplements.

In the new study, the researchers have provided some mechanistic evidence.

The researchers used affymetrix microarray, for looking at gene expression, and the ‘Comet’ assay to study DNA damage

“The exposure to solar ultraviolet radiation increases in summer, often resulting in a higher incidence of skin lesions. Ultraviolet radiation is also a genotoxic agent responsible for skin cancer, through the formation of free radicals and DNA damage,” said lead researcher Tiago Duarte, formerly of the University of Leicester, and now at the Institute for Molecular and Cellular Biology in Portugal.

“Our study analysed the effect of sustained exposure to a vitamin C derivative, ascorbic acid 2-phosphate (AA2P), in human dermal fibroblasts.

“We investigated which genes are activated by vitamin C in these cells, which are responsible for skin regeneration.

“The results demonstrated that vitamin C may improve wound healing by stimulating quiescent fibroblasts to divide and by promoting their migration into the wounded area. Vitamin C could also protect the skin by increasing the capacity of fibroblasts to repair potentially mutagenic DNA lesions,” Duarte added.

The researchers hope that the results will be of great relevance to the cosmetics industry.

“The study indicates a mechanism by which vitamin C could contribute to the maintenance of a healthy skin by promoting wound healing and by protecting cellular DNA against damage caused by oxidation,” said Dr Marcus S. Cooke from the Department of Cancer Studies and Molecular Medicine and Department of Genetics, at the University of Leicester.

“These findings are particular importance to our photobiology interests, and we will certainly be looking into this further,” Cooke added.

The findings have been published in the journal Free Radical Biology and Medicine. (ANI)

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Laser cooling may be used to create “exotic” states of matter

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): In a new study, scientists have determined that the technique of laser cooling could be used to create “exotic” states of matter.

According to a report in National Geographic News, in a new technique, Martin Weitz and Ulrich Vogl of the University of Bonn in Germany used a laser to bring the temperature of dense rubidium gas far below the normal point at which the gas becomes a solid.

Previous research had been able to use lasers to quickly “supercool” only very diluted gases.

But, “here’s a case where you shine a laser on something and it actually cools down, and not just a handful of atoms, but a macroscopic object,” said Trey Porto, a physicist with the National Institute of Standards and Technology’s laser-cooling group.

The process could be used to create fascinating new states of matter, according to the study authors.

“For example, if you can very quickly cool water much lower than zero Celsius (32 degrees Fahrenheit), where it would normally turn to ice, exotic crystalline and glassy states of matter would be predicted,” Weitz said.

The new technique could also be used in cooling mechanisms to boost the efficiency of some stargazing equipment, he added.

“If you could cool thermal cameras that look at the stars, they may have less noise and be more sensitive,” he said.

Since a laser’s color is linked to its intensity, the new technique is based on using a red laser in which the frequency has been adjusted so that the beam affects the atoms only when they collide with each other.

Weitz and Vogl shone this laser beam into gaseous rubidium atoms in a high-pressure “atmosphere” of argon.

In the experiment, the rubidium gas fell from 662 degrees Fahrenheit (350 degrees Celsius) to almost 536 degrees Fahrenheit (280 degrees Celsius) within mere seconds.

Much more research needs to be done before the laser-cooling process can be used in real-world applications, study co-author Weitz cautioned.

But, NIST’s Porto said the work already represents a major departure from traditional cooling of diluted gases, which are currently used for studying quantum effects or preparing gas samples for atomic clocks.

“I think the really amazing thing is that you can even get cooling in this regime, because it’s a really dense gas and a very different mechanism,” Porto said.

“Traditional cooling powers are so tiny. To cool a physical object by a measurable degree with a laser is amazing,” he added. (ANI)

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New gene may provide better immune defense against anthrax

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): Scientists from University of California have identified a gene in anthrax-causing bacteria that could be used as a potential therapeutic target for the deadly disease.

The ClpX gene in bacterium Bacillus anthracis not only contributes to the severity of the anthrax disease but also makes it more difficult for a patient’s immune system to fight the infection.

Inhibiting this gene can prompt body’s natural defence mechanism to better fight the disease.

Mattias Collin, of Lund University, and Marc A. Williams, of the University of Rochester, praised the study and said that this might provide a new way to treat anthrax poisoning.

“This study has indeed identified a potential treasure trove in ClpX”, Colin and Williams wrote. (ANI)

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Over-expressed protein may make non-invasive breast cancer invasive

September 10, 2009 By Leave a Comment

Washington, Sep 9 (ANI): An over-expressed protein can convert active but non-invasive breast cancer into a different cell type, and thereby turn it into invasive breast cancer, according to scientists at The University of Texas M. D. Anderson Cancer Center.

The researchers say that overexpression of the protein 14-3-3? (zeta) launches a molecular cascade that removes bonds that tie the pre-malignant cells together, and hold them in place, converting them from stationary epithelial cells to highly mobile mesenchymal-like cells.

This epithelial-to-mesenchymal transition (EMT) is recognized as a crucial step in metastasis, the spread of cancer to distant organs that causes 90 percent of all cancer deaths.

“We have discovered a key molecular mechanism for the deadly transition of non-invasive breast cancer into invasive disease,” said senior author Dr. Dihua Yu.

The researchers have shown that the zeta protein teams up with the oncoprotein ErbB2, also known as HER2, in a two-hit process to convert normal mammary cells to invasive cancer cells.

The findings of the study also provided a biomarker in zeta to identify high-risk patients for more aggressive treatment before their noninvasive breast cancer converts to invasive disease.

The researchers also got new therapeutic targets among the components of the molecular pathway launched by zeta.

According to Yu, some drugs already aim at these targets.

In addition, they found a solution to a puzzling mystery about how a subset of non-invasive breast cancer with excessive presence of an ErbB2/HER2 develops into invasive breast cancer.

Earlier, the researchers showed that zeta is over-expressed in many other cancer types, like lung, liver, uterine, stomach cancers.

“Our findings might have broader implications relating to the mechanism of invasion and metastasis in other types of cancer,” Yu said.

The researchers said that it would be very challenging to target zeta by drugs because it also regulates other important proteins in normal cellular processes.

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

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Fat-rich junk food may alter genes linked with type II diabetes

September 8, 2009 By Leave a Comment

London, September 8 (ANI): A team of scientists in Sweden have warned that gorging too much on fat-rich junk food may cause drastic changes to a gene that helps muscle cells burn fat.

Juleen Zierath, of the Karolinska Institute in Stockholm, says that her team’s findings may help improve the scientific understanding of how type II diabetes develops in adulthood.

“Somehow, the environment plays on the genes we have,” says the lead researcher, adding that her study provides new clues to how this happens.

She says that it may be possible that the altered cells become so engorged with unburnt fat that they become “diabetic”, and stop accepting signals from the hormone insulin, which normally triggers the absorption of glucose from the bloodstream.

However, proving that components in the diet can permanently alter genes is itself a breakthrough, as it provides the first evidence that the food people eat may change the function of their DNA, a process scientifically known as “epigenetics”.

During the study, the researchers observed that the DNA itself remained unchanged, except for a masking process called methylation that can permanently mothball a gene by capping individual chemical units or bases.

Before the researchers undertook this research, they had already found in a previous study that muscle cells from people with type II diabetes showed such telltale epigenetic alterations to their DNA, particularly in the PGC-1 gene, which orchestrates metabolic programmes critical to the burning of fat in mitochondria, the chambers in cells that generate energy.

In the current study, the researchers achieved the most significant result when they exposed the healthy muscle cells to the edible fatty acid, palmitic acid.

The team found that the PGC-1 gene became methylated, just as it is in people with diabetes.

“The palmitic acid essentially switches off the gene,” New Scientist magazine quoted Zierath as saying.

She says that the fact that fat produces such an effect is highly significant, as it means that over-consumption of junk food may cause the same response.

“It suggests that if you eat a fat-rich diet, something in that – either the fat itself or the build up of metabolites – triggers the methylation of genes. The net effect is that it switches off the gene,” says Zierath.

The team’s analyses also reveal that the shutdown of PGC-1 led to inactivation of other genes vital for burning or transporting fat.

Zierath says that her team’s next step will be to find out how different diets affect the methylation status of PGC-1 and other genes vital for burning energy, hoping that their efforts will lead to the discovery of a potential mechanism by which type II diabetes develops.

A research article on her study has been published in the journal Cell Metabolism. (ANI)

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Why broccoli, cabbage, cauliflower are good for heart

September 5, 2009 By Leave a Comment

Washington, Sept 5 (ANI): Here’s why broccoli, cabbage and cauliflower are good for the heart – a chemical found in these vegetables can boost a natural defence mechanism to protect arteries from disease.

The build up of fatty plaques in arteries called atherosclerosis leads to heart disease.

The Imperial College London team has shown that a protein that usually protects against plaque build up called Nrf2 is inactive in areas of arteries that are prone to disease.

Treatment with a chemical found in green “brassica” vegetables such as broccoli can activate Nrf2 in these disease-prone regions.

“We found that the innermost layer of cells at branches and bends of arteries lack the active form of Nrf2, which may explain why they are prone to inflammation and disease,” BBC News quoted lead researcher Dr Paul Evans as saying.

“Treatment with the natural compound sulforaphane reduced inflammation at the high-risk areas by ‘switching on’ Nrf2.

“Sulforaphane is found naturally in broccoli, so our next steps include testing whether simply eating broccoli, or other vegetables in their ‘family’, has the same protective effect.

“We also need to see if the compound can reduce the progression of disease in affected arteries,” he added.

Professor Peter Weissberg, medical director of the British Heart Foundation, which funded the research said that the new findings provide a possible mechanism by which eating vegetables protects against heart disease.

During the study, the researchers genetically engineered mice to lack the Nrf2 protein.

The research found that in straight sections of arteries Nrf2 was present in the endothelial ‘lining’ cells. Through its action on other proteins, it prevented the cells from becoming inflamed, an early stage in the development of atherosclerosis.

The study appears in Arteriosclerosis Thrombosis and Vascular Biology. (ANI)

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Indian-origin scientists find novel therapeutic target for autoimmune diseases

September 2, 2009 By Leave a Comment

London, Sept 2 (ANI): A research team led by Indian-origin scientists from University of Michigan have discovered a new mechanism that would help in future therapies for conditions ranging from autoimmune diseases to organ transplants to cancer.

U-M biochemistry professor Ruma Banerjee and her colleagues have identified a mechanism that keeps a check on aggressive immune cells that can attack the body’s own cells.

They found that immune system’s regulatory T cells influence aggressive immune cells by regulating the chemical environment between cells.

“Now we know that the redox environment outside the cell is a very important dynamic. It regulates cell function,” Nature quoted Banerjee as saying.

The processes known as redox chemistry are fundamental to the way cells derive and consume energy.

She said that regulatory T cells appear to alter the chemical environment around their aggressive cousins, known as autoreactive T cells, which either curb them or cause them to proliferate.

This mechanism is likely to be involved in inflammatory bowel disease (IBD) and ulcerative colitis.

The study conducted over live mouse immune cells showed that important redox communication occurs between dendritic cells, which are the first immune cells to detect a foreign agent, and autoreactive T cells.

Dr Sanjay Garg, a research investigator in the U-M Department of Biological Chemistry, said that the dendritic cells alter the chemical environment outside cells in a way that promotes activation of the T cells.

But then T regulatory cells “intervene in the redox chatter” and suppress that effect.

Banerjee insists that she needs to conduct more study to fully understand the process before they can use their insights to block or encourage T regulatory cell activity in animal studies of IBD or another autoimmune disease.

The study appears in Nature Chemical Biology. (ANI)

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Genetic discovery could pave way for obesity, diabetes treatments

August 27, 2009 By Leave a Comment

Washington, Aug 27 (ANI): Researchers at University of Central Florida have identified a new genetic mechanism that controls the body’s fat-building process, paving way for treatments for obesity and type 2 diabetes.

The discovery has the potential to help hundreds of millions of people and dramatically cut health care costs.

Led by Pappachan Kolattukudy, director of UCF’s Burnett School of Biomedical Sciences in the College of Medicine, found that a gene called MCPIP (Monocyte Chemotactic Protein-1 Induced Protein) controls the development of fat cells.

Until now, a different protein, known as peroxisome proliferator-activated receptor gamma (PPAR gamma), has been universally accepted as the master controller of fat cell formation, known as adipogenesis.

But the new findings has opened new doors for scientists looking forward to develop drugs that could benefit the more than 300 million people worldwide who are clinically obese, and who have much higher risks of suffering from chronic disease and disability.

Besides, it is projected that more than 300 million people will be diabetic by the year 2025.

Kolattukudy said MCPIP is potentially an ideal target for drugs that would prevent the body from becoming resistant to insulin and prone to type 2 diabetes.

“Our research has shown that MCPIP is a regulator of fat cell formation and blood vessel formation that feeds the growing fat tissue. Therefore, a drug that can shut down its function can prevent obesity and the major inflammatory diseases resulting from obesity, including diabetes and cardiovascular diseases,” the expert said.

For the study, the researchers introduced MCPIP to living cells from mice that had been stripped of the PPAR gamma gene and found that the cells still completed the developmental process necessary to build fat.

Now, the researchers are planning to explore chemical combinations to discover drugs that are effective at shutting down the novel gene.

The development of new drugs that can block or slow down the formation of MCPIP likely would take several years.

The findings will be published in the October issue of the Journal of Biological Chemistry. (ANI)

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Scientists propose new mechanism for dune formation on Saturn’s largest moon

August 26, 2009 By Leave a Comment

Washington, August 26 (ANI): A new research paper has proposed a possible new mechanism for the development of very large linear dunes formed on the surface of Titan, Saturn’s largest moon.

The paper, authored by LSU (Louisiana State University) Department of Geography and Anthropology Chair Patrick Hesp and United States Geological Survey scientist David Rubin, is titled – “Multiple origins of linear dunes on Earth and Titan.”

The authors examined the linear – or longitudinal – dunes that stretch across the surface of China’s Qaidam Basin, finding them composed of sand and some salt and silt.

The latter two elements make the dunes cohesive or sticky.

According to the study, this leads to a complete change in dune form from transverse dunes to linear dunes, even though the wind speed and direction does not change.

Typically, transverse dunes are formed by winds from a narrow directional range while longitudinal or linear dunes are formed by winds from two obliquely opposing directions.

These findings offer an alternative interpretation of similar dunes found on Titan.

Hesp and Rubin suggest that if the giant linear dunes found on the surface of Titan are also formed from cohesive sediment, then they too could be formed by single-direction winds.

This is in sharp contrast to earlier studies, which assumed that the sediments were loose and interpreted the dune shape as evidence of winds coming from alternating directions.

The alternative hypothesis that Titan’s linear dunes are formed in cohesive sediment has significant implications for studies on Titan.

If the Hesp and Rubin alternative is correct, new hypotheses regarding the composition, origin, evolution, grain size, stickiness, quantity, global transport patterns and suitability for wind transport of Titan’s sediment; the velocities, directions and seasonal patterns of Titan’s winds; and overall surface wetness will all have to be completely reassessed. (ANI)

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Prime Minister to inaugurate anti-corruption conference on Wednesday

August 25, 2009 By Leave a Comment

New Delhi, Aug.25 (ANI): Prime Minister Dr. Manmohan Singh will inaugurate a two-day Central Bureau of Investigation (CBI) conference on anti-corruption on Wednesday.

During the conference the issues of corruption and efficacy of the existing legal system in dealing with the menace will be deliberated upon.

The 17th biennial conference of CBI, State anti-corruption bureaux and vigilance agencies attended by their chiefs aims at strengthening the anti-corruption mechanism in the country.

According to an official release, various dimensions of corruption in India and the strategies to effectively handle it and also focus on the efficacy of existing legal instruments and administrative arrangements to deal with the menace will be deliberated upon.

The conference would have seven sessions during which several presentations and discussions on the subjects of topical interest including that about the probe into the multi-crore rupees Satyam scam would be made.

The topics covered during the conference include Anti Corruption Work in Karnataka Lokayukta- A study; Innovation as a tactical tool to combat corruption; Good practices followed by anti-corruption agencies.

Investigation of anti-corruption cases- Technological perspectives; Capacity building for Central Forensic Science Laboratory (CFSL) and State FSLs; Vigilance aspects in public procurement and tendering processes; Contemporaneous issues (State referred issues) would also figure during the conference. (ANI)

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Smoking mums-to-be putting future generations at increased health risk

August 25, 2009 By Leave a Comment

Washington, Aug 25 (ANI): Mums-to-be who smoke are not only putting their unborn child at increased health risk but future generations also, according to a new study.

Researchers at the Keck School of Medicine of the University of Southern California (USC) has found that the life-long effects of maternal smoking during pregnancy may occur through specific changes in DNA patterns.

They showed that children exposed in the womb to maternal smoking had differences in DNA methylation, an epigenetic mechanism in which small chemical compounds are added to DNA.

“This study provides some of the first evidence that in utero environmental exposures such as tobacco smoke may be associated with epigenetic changes,” said one of the lead authors Carrie Breton, Sc.D., assistant professor in the Department of Occupational and Environmental Health at the Keck School of Medicine of USC.

“This could open up a new way for researchers to investigate biological mechanisms that might explain known health effects associated with maternal smoking,” she added.

Prenatal exposure to smoke is associated with a number of health problems, including childhood asthma, cardiovascular disease, and lower pulmonary function later in life.

“Moms should not be smoking during pregnancy,” said Linda Birnbaum, Ph.D., the director of the National Institute of Environmental Health Sciences, a component of the National Institutes of Health that helped fund the USC study.

“Maternal smoking during pregnancy is not only detrimental to the health of the mom and the newborn child, but research such as this suggests that it may impact the child into adulthood and possibly even future generations as well,” she added.

The study appears in the September issue of the American Journal of Respiratory and Critical Care Medicine. (ANI)

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Govt. orders enquiry into Terminal 1-D damage in Delhi

August 22, 2009 By Leave a Comment

New Delhi, Aug 22 (ANI): Taking serious note of the incident, in which a section of the newly constructed Terminal 1-D at the Indira Gandhi International airport was damaged due to heavy rains and wind, the Civil Aviation Ministry on Saturday ordered an enquiry into the incident.

The enquiry will be conducted by the Director General of Civil Aviation (DGCA).

On Friday (Aug 21), heavy rains and wind damaged a section of the newly constructed terminal building in the national capital, resulting in disruption of flight operations and facilities at the terminal-1D.

The Ministry has asked the DGCA to fix accountability and suggest appropriate action under its licensing and regulatory powers.

The enquiry would ascertain the cause and contributory factors resulting into the incident and would make recommendations for prevention of occurrence of such incident in future

It would also suggest various measures to strengthen oversight mechanism on development, operation and maintenance of new aerodromes, including expansion of the existing ones.

The DGCA is authorised to take necessary assistance from technical experts wherever required. It will complete the enquiry in two months and submit the report to the Ministry of Civil Aviation. (ANI)

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Daylight could help fight obesity

August 22, 2009 By Leave a Comment

Washington, Aug 22 (ANI): A new study, conducted by researchers at The University of Nottingham, has suggested that daylight could help control weight.

Previous studies have revealed that the activity of calorie-burning ‘brown fat’, also known as brown adipose tissue (BAT), is reduced with obesity. Therefore, promoting BAT function could prevent or reduce obesity in some people.

Now, the new study has shown – for the first time – that daylight is a major factor in controlling BAT activity.

“Our research has suggested a previously unknown mechanism for controlling BAT function in humans and this could potentially lead to new treatments for the prevention or reversal of obesity,” said study’s lead author Michael Symonds, Professor of Developmental Physiology in the School of Clincal Sciences at the university.

Winter was traditionally a time of the year that was accompanied with increased thermal demands and thus energy expenditure, but the body’s requirements for BAT has been reduced in recent times by central heating plus global warming.

BAT is capable of producing up to 300 times more heat per unit mass compared with all other tissues.

The researchers studied well over 3500 patients. The presence of BAT was documented and correlated with monthly changes in daylight and ambient temperature.

Their results showed that BAT was more common in females and that changes in BAT activity were more closely associated with day light than ambient temperature.

BAT is activated by the cold and is unique in being able to produce very large amounts of heat – but little is known about the main factors that regulate the amount of BAT in our bodies.

“Our research demonstrates a very strong seasonal variation in the presence of BAT. The study focused on the impact of daylight and ambient temperature, as these are two key factors in determining BAT function in small mammals. Our exciting new findings may help us find novel interventions aimed at promoting BAT activity particularly in the winter,” Symonds said.

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

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Scientists discover signaling pathway which ensures that plants remember to flower

August 21, 2009 By Leave a Comment

Washington, August 21 (ANI): A team of scientists has discovered signaling pathway that ensures plants remember to flower, even without positive signals from the environment.

Scientists at the Max Planck Institute for Developmental Biology in Germany found the solution to the mystery that why do some plants blossom even when days are short and gray.

According to the researchers, an endogenous mechanism allows them to flower in the absence of external influences such as long days.

A small piece of RNA, a so-called microRNA, has a central role in this process, as a decline of its concentration in the shoot apex triggers flowering.

MicroRNAs are very short RNA snippets that have emerged in recent years as essential regulators of gene function in both plants and animals.

By binding to complementary motifs in a messenger RNA, they inhibit its translation into protein. This process thus blunts the activity of the corresponding gene.

In Tubingen, developmental biologists have discovered that the common wallcress, Arabidopsis, uses this regulatory mechanism to switch from vegetative to reproductive development.

A group of related regulators, the SPL proteins, play an important role in promoting the onset of flowering.

In young plants, high levels of microRNA156 prevent production of SPL proteins.

Jia-Wei Wang and colleagues demonstrate that independent of external cues, the concentration of the microRNA declines over time, like sand running through an hourglass.

When the microRNA concentration falls below a certain level, enough SPL proteins are produced to activate the flowering process even in the absence of other regulators that measure day length or external temperature.

This in turns allows a sufficiently old plant to flower, even in an unfavorable environment.

Interestingly, the SPLs do double duty, since they have supporting roles when plants flower in response to long days.

Furthermore, both the SPLs and other regulators eventually converge on a similar set of targets crucial for flowering.

According to Detlef Weigel, director at the Max Planck Institute for Developmental Biology, “Flowering is crucial for the long-term survival of plants. The redundancy of environment-dependent and independent mechanisms ensures that plants do not wait forever until flowering.” (ANI)

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Waste by-product of malaria parasite’s reproductive process linked to devastating fever

August 21, 2009 By Leave a Comment

Washington, August 21 (ANI): Studying hemozoin – a crystal-like by-product released during reproduction among parasites from the Plasmodium family – may help understand why malaria leads to devastating inflammation and fever, according to a Canadian study.

Lead researcher Dr. Martin Olivier, of McGill University in Montreal, points out that, inside the human body, the malaria parasite infects red blood cells where it survives and reproduces by feeding on the cells’ contents.

Eventually, says the researcher, the cells burst and release the parasites and hemozoin.

“Our results describe the mechanism by which the hemozoin activates the immune system, resulting in the production of inflammation mediators and in the high fever that we witness in malaria patients,” said study’s first-author Dr. Marina Tiemi Shio, of the Research Institute of the McGill University Health Centre (RI-MUHC).

According to the researchers, hemozoin is first ingested by “cleaning” cells called macrophages, which leads to a chain reaction ending in the activation of the inflammasome: an important structure inside immune cells which lead to inflammation.

They say that the activation of the inflammasome leads to the production of the body’s fever mediator, interleukin beta (IL-beta).

“Our work is a milestone in that it is the first study that reveals the enzymes that act as intermediary between the hemozoin and inflammasome. Now our picture of the process that goes from infection to fever is more or less complete,” said Dr. Olivier.

“On the other hand, we also proved that malaria is too complex to be narrowed down to one single mechanism. In the absence of either IL-beta or a functional inflammsaome, the development of the disease is delayed but not completely stopped. Although the discovery of this relationship is important, there are other mechanisms at work,” he added.

Even though scientists have been familiar with the mechanisms that go from the activation of the inflammasome to the onset of the malaria symptoms, none of the previous studies has ever shown the beginning of the process.

“These results prove the primary role hemozoin plays in the development of malaria, and designates it as a favoured choice for future innovative treatments,” said Dr. Olivier.

The researchers believe it will be possible to familiarize the immune system to small quantities of hemozoin, and diminish the inflammatory response in the event of infection, according to a principle similar to that of vaccines.

The results of the study have been published in the journal PLoS Pathogens. (ANI)

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Personality traits associated with chronic worrying can lead to early death

August 19, 2009 By Leave a Comment

Washington, Aug 19 (ANI): Too much worry and stress can lead to early death, at least in part, as people are more likely to engage in unhealthy behaviours, such as smoking, say researchers.

In this study, the researchers from Purdue University looked at how smoking and heavy drinking are associated with the trait.

“Research shows that higher levels of neuroticism can lead to earlier mortality, and we wanted to know why,” said Daniel K. Mroczek, a professor of child development and family studies.

“We found that having worrying tendencies or being the kind of person who stresses easily is likely to lead to bad behaviours like smoking and, therefore, raise the mortality rate.

“This work is a reminder that high levels of some personality traits can be hazardous to one’s physical health,” he added.

Researchers suggest that a person with high neuroticism is likely to experience anxiety or depression and may self-medicate with tobacco, alcohol or drugs as a coping mechanism.

The study showed that smoking accounted for about 25 percent to 40 percent of the association between high neuroticism and mortality.

The other 60 percent is unexplained, however, it is possibly attributed to biological factors or other environmental issues that neurotic individuals experience, Mroczek added.

Mroczek said that a better understanding of the bridge between personality traits and physical health can perhaps help clinicians improve intervention and prevention programs.

“For example, programs that target people high in neuroticism may get bigger bang for the buck than more widespread outreach efforts,” he said.

“It also may be possible to use personality traits to identify people who, because of their predispositions, are at risk for engaging in poor health behaviors such as smoking or excessive drinking,” he added.

The findings are published in Journal of Research in Personality. (ANI)

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