Nanoscale discovery brings ‘lab on a chip’ devices closer to reality

May 19, 2010 By Leave a Comment

London, May 19 (ANI): Making a breakthrough in “lab on a chip” technology, a University of Michigan biomedical engineering professor has discovered a new instance of such a nanoscale phenomenon that could lead to faster, less expensive portable diagnostic devices.

In our macroscale world, materials called conductors effectively transmit electricity and materials called insulators or dielectrics don”t, unless they are jolted with an extremely high voltage.

Under such “dielectric breakdown” circumstances, as when a bolt of lightening hits a rooftop, the dielectric (the rooftop in this example) suffers irreversible damage.

But, this isn”t the case at the nanoscale, according to a new discovery by Alan Hunt, an associate professor in the Department of Biomedical Engineering.

Hunt and colleagues could get an electric current to pass non-destructively through a sliver of glass, which isn”t usually a conductor.

“This is a new, truly nanoscale physical phenomenon. At larger scales, it doesn”t work. You get extreme heating and damage,” Nature quoted Hunt as saying.

“What matters is how steep the voltage drop is across the distance of the dielectric. When you get down to the nanoscale and you make your dielectric exceedingly thin, you can achieve the breakdown with modest voltages that batteries can provide. You don”t get the damage because you”re at such a small scale that heat dissipates extraordinarily quickly,” he added.

These conducting nanoscale dielectric slivers are what Hunt calls liquid glass electrodes, fabricated at the U-M Center for Ultrafast Optical Science with a femtosecond laser, which emits light pulses that are only quadrillionths of a second long.

The glass electrodes are ideal for use in lab-on-a-chip devices that integrate multiple laboratory functions onto one chip just millimeters or centimeters in size.

The devices could lead to instant home tests for illnesses, food contaminants and toxic gases.

But most of them need a power source to operate, and right now they rely on wires to route this power.

It”s often difficult for engineers to insert these wires into the tiny machines, said Hunt.

Instead of using wires to route electricity, Hunt”s team etches channels through which ionic fluid can transmit electricity.

These channels, 10 thousand times thinner than the dot of this “i,” physically dead-end at their intersections with the microfluidic or nanofluidic channels in which analysis is being conducted on the lab-on a-chip (this is important to avoid contamination).

But the electricity in the ionic channels can zip through the thin glass dead-end without harming the device in the process.

This discovery is the result of an accident.

Hunt said that two channels in an experimental nanofluidic device didn”t line up properly, but the researchers found that electricity did pass through the device.

“We were surprised by this, as it runs counter to accepted thinking about the behavior of nonconductive materials. Upon further study we were able to understand why this could happen, but only at the nanometer scale,” said Hunt.

As for electronics applications, Hunt said that the wiring necessary in integrated circuits fundamentally limits their size.

The study has been published online in Nature Nanotechnology. (ANI)

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Sniff of local anesthetic may replace dentist’s needle

May 14, 2010 By Leave a Comment

Washington, May 13 (ANI): A new discovery may replace the needle used to give local anesthetic in the dentist”s chair for many procedures.

Boffins have reported that a common local anesthetic, when administered to the nose as nose drops or a nasal spray, travels through the main nerve in the face and collects in high concentrations in the teeth, jaw, and structures of the mouth.

The discovery could lead to a new generation of intranasal drugs for noninvasive treatment for dental pain, migraine, and other conditions, the scientists suggest in American Chemical Society”s bi-monthly journal Molecular Pharmaceutics. The article is scheduled for the journal”s May-June issue.

William H. Frey II, Ph.D., and colleagues note that drugs administered to the nose travel along nerves and go directly to the brain.

One of those nerves is the trigeminal nerve, which brings feelings to the face, nose and mouth. Until now, however, scientists never checked to see whether intranasal drugs passing along that nerve might reach the teeth, gums and other areas of the face and mouth to reduce pain sensations in the face and mouth.

Neil Johnson, working in the labs of Frey and Leah R. Hanson, Ph.D., at Regions Hospital in St. Paul, Minn., found that lidocaine or Xylocaine, sprayed into the noses of laboratory rats, quickly traveled down the trigeminal nerve and collected in their teeth, jaws, and mouths at levels 20 times higher than in the blood or brain.

According to the scientists, the approach could provide a more effective and targeted method for treating dental pain/anxiety, trigeminal neuralgia (severe facial pain), migraine, and other conditions. (ANI)

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Scientists find ‘modern’ galaxies amongst ancient galaxy clusters

May 13, 2010 By Leave a Comment

Washington, May 13 (ANI): A team of astronomers has discovered a young cluster, born just 2.8 billion years after the Big Bang, that appears very similar to the much older present-day galaxy clusters.

“We were looking for clusters of galaxies when the Universe was still very young,” says Carnegie’s Ivelina Momcheva, who did the spectroscopic analysis that led to the discovery of the cluster.

“One might think that the clusters we find would look young as well. However, in this cluster we found a number of surprisingly ancient-looking galaxies. This cluster resembles modern-day clusters, which are nearly 10 billion years older.”

“It is like we dug an archaeological site in Rome and found pieces of modern Rome in amongst the ruins,” adds lead author Casey Papovich of Texas A&M University.

The cluster is called CLG J02182-05102 and contains approximately 60 galaxies, including several enormous red galaxies at its centre holding 10 times as many stars as the Milky Way.

Unable to find using NASA’s Spitzer Space Telescope if its galaxies are indeed gravitationally bound, the team used an advanced spectrograph.

Post analysis, they found that the cluster now looks the way it looked 9.6 billion years ago and since then, has moved away as the universe expanded. Today, it stands at a distance of 15 billion light years.

The new discovery will help researchers understand how galaxies evolve and form clusters. CLG J02182-05102’s large red galaxies are unexpected because most galaxies at that time were still rapidly forming stars, and, as a result, appear smaller and their emitted light bluer.

“We are witnessing the youth of truly massive cluster of galaxies,” says Momcheva. “ClG J02182-05102 will continue growing, accreting more galaxies and slowly aging. By the present day it has probably grown to be a large metropolis of a cluster like our neighbour, the Coma cluster.” (ANI)

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Boffins prefer needles to tablets for global vaccinations

April 27, 2010 By Leave a Comment

London, April 27 (ANI): A new discovery by researchers at the Trudeau Institute may pave the way for the delivery of more effective vaccines to prevent chronic parasitic worm infections.

Dr. Markus Mohrs and his team focus much of their studies on cytokines, messengers used by cells of the immune system to communicate with one another.

Cytokines help determine both the size and the quality of our immune system”s response to an infection.

How well they perform their job can decide whether it”s the person or the pathogen that wins the battle for survival.

Despite their obvious importance, however, very little is known about how far or for how long cytokines can operate during an infection.

But now Mohrs’ team has revealed when and where cytokine signals are received in the body.

Dr. Mohrs reports that cytokines not only signal locally to neighbouring cells, as previously thought, but they also spread throughout the affected lymph node influencing even those cells not actively involved in fighting the current infection.

The indiscriminate action of the cytokines means that these bystander cells may respond inappropriately when the immune system encounters a different infection and it becomes their turn to react.

The findings provide a potential explanation for the ability of chronic infections to alter immune responses to subsequent infections or vaccination procedures.

This is particularly important for the design of vaccines in the developing world, where chronic parasitic infections can derail vaccination programs that are effective in healthy individuals.

Because only bystander cells in the same lymph node as those responding to the parasite infection are affected by active cytokines, this study suggests that people infected with gastrointestinal worms may respond better to vaccines injected under the skin than those given by mouth.

This is critical information for the development of globally-effective vaccination strategies.

The study has appeared in the current issue of the journal Nature Immunology. (ANI)

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New species of monitor lizard discovered in Indonesia

April 27, 2010 By Leave a Comment

Washington, April 27 (ANI): Scientists have discovered a new species of monitor lizard, a close relative of the Komodo dragon.

Sam Sweet, a professor in the department of Ecology, Evolution and Marine Biology at UCSB, and Valter Weijola, a graduate student at Abo Akademi University in Turku, Finland, say that the distinctive lizard lives in the Moluccan islands of east Indonesia.

The scientific name of this lizard is Varanus obor; its popular names are Torch monitor and Sago monitor.

It”s called Torch monitor because of its bright orange head with a glossy black body. Obor means torch in Indonesian. It is a close relative of the fruit-eating monitor lizard recently reported from the Philippines.

The Torch monitor can grow to nearly four feet in length, and thrives on a diet of small animals and carrion.

The Torch monitor exists only on the small island of Sanana in the western Moluccan islands. A unique aspect of this geographical region is the lack of mammalian predators, which may have given reptiles the space to evolve as the top terrestrial predators and scavengers.

Several million years ago, this island was situated near New Guinea, and it is possible that the lizard lives on as a relic from that period.

It is the only black monitor in its lineage, and the only monitor species anywhere that has evolved red pigmentation.

The new discovery has been reported in the journal Zootaxa this week. (ANI)

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Improved nano diamonds production to improve bio imaging of proteins

April 17, 2010 By Leave a Comment

Melbourne, Apr 17 (ANI): By developing a new way to keep tiny nano-sized diamonds separated during production, Aussie scientists have opened new avenues in medical imaging.

With the new discovery, scientists can see new light properties not exhibited by larger diamonds.

Led by Associate Professor James Rabeau of Macquarie University in Sydney, the researchers created and studied the tiny synthetic diamonds, which are between four and five nanometres in size— a thousand times smaller than the width of a human hair.

The researchers said that proteins are hard to track in living bodies, but by attaching bright markers, it”s possible to see where they are and where they”re going.

Existing techniques employ fluorescent probes which can often extinguish or turn dark and may be toxic in a live body.

The researchers created the synthetic nano diamonds through a detonation process and isolated them from the carbon graphite matrix using acid cleaning and ultrasound.

The nano diamonds attach to the proteins, making it easier to detect with medical imaging devices.

“The key was keeping the nano diamonds separate and stopping them from clumping back together. This gave us a chance to study them in isolation using a laser to see how bright they are,” ABC Science quoted Rabeau as saying.

“And we were able to determine that the nitrogen impurities which helps them glow, was present in these nano diamonds,” he added.

The discovery that they blink is an important clue about how the light is changed depending on the size of the crystal, said Rabeau.

“In larger diamonds, the light emission or fluorescence remains steady, essentially immune to blinking on and off. But we found that when the atoms are trapped in nano-diamonds which are much smaller, they start to act a bit differently by blinking, most likely because of their closer proximity to the nano diamond surface,” he said.

The researchers found that by encapsulating the nano diamonds in a polymer sheath, this irregular fluorescence behaviour could be reversed.

He describes the work as a big step in developing existing ideas on using nano-diamonds for bio imaging, and said that it may herald new technologies, which exploit the blinking optical feature.

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

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New discovery to help diabetics with slow-to-heal wounds

April 17, 2010 By Leave a Comment

Washington, Apr 17 (ANI): With a new discovery about wound-healing process, scientists could offer better treatments to diabetics and other patients who have wounds that take time to heal.

Loyola University Health System researchers found that certain immune system cells slow the wound-healing process.

Thus, it might be possible to improve healing by inactivating these immune system cells, said Dr. Elizabeth Kovacs, who heads the laboratory team that made the discovery.

In the study, the immune system cells that impeded the healing process are called natural killer T (NKT) cells.

NKT cells perform beneficial functions such as killing tumour cells and virus-infected cells.

However, researchers discovered that NKT cells also migrate to wound sites and impede the healing process.

The researchers used an animal model to examine the effects of NKT cells on healing.

Healing was significantly slower in normal mice that had NKT cells than it was in a special breed of mice that lacked NKT cells.

“We demonstrated that early wound closure was accelerated in the absence of NKT cells. Importantly, we also made the novel observation that NKT cells themselves are a constituent of the early wound inflammatory infiltrate,” wrote the researchers.

Certain conditions, such as diabetes and infections, can slow or prevent wounds from healing.

Researchers don”t know how NKT cells slow healing, but they believe it is possible to inactivate NKT cells using an antibody.

They are testing this prediction in a follow-up study.

The findings are reported online, in advance of print, in the Journal of Surgical Research. (ANI)

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Pharmaceutical Leaders Call for More Industry Partnerships at Launch of New Drug Discovery and Development Unit (D3)

April 10, 2010 By Leave a Comment

Pharmaceutical Leaders Call for More Industry Partnerships at Launch of New Drug Discovery and Development Unit (D3)

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New discovery could protect humans from influenza virus

March 31, 2010 By Leave a Comment

Washington, March 31 (ANI): Scientists have identified an influenza detector gene that could potentially prevent the transmission of the virus to humans.

A University of Alberta-led research team has discovered the genetic detector that allows ducks to live, unharmed, as the host of influenza.

The duck”s virus detector gene, called retinoic acid inducible gene—I, or RIG-I, enables a duck”s immune system to contain the virus, which typically spreads from ducks to chickens, where it mutates and can evolve to be a human threat like the H5N1 influenza virus.

The first human H5N1 cases were in Hong Kong in 1997. Eighteen people with close contact to chickens became infected and six died.

The research by Katharine Magor, a U of A associate professor of biology, shows that chickens do not have a RIG-I gene.

A healthy chicken can die within 18 hours after infection, but researchers have successfully transferred the RIG-I gene from ducks to chicken cells.

The chicken”s defenses against influenza were augmented and RIG-I reduced viral replication by half.

One potential application of this research could affect the worldwide poultry industry by production of an influenza-resistant chicken created by transgenesis.

The study appears in the online, early edition of Proceedings from the National Academy of Sciences. (ANI)

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New bird fossil found in China hints at more undiscovered ancient treasures

March 27, 2010 By Leave a Comment

Washington, March 27 (ANI): A newly described bird from the Jehol Biota of northeast China suggests that scientists have only tapped a small proportion of the birds and dinosaurs that were living at that time, and that the rocks still have many secrets to reveal.

“The study of Mesozoic birds is currently one of the most exciting fields; new discoveries continue to drastically change how we view them,” said Jingmai O’Connor, lead author of the study.

The new bird, named “Longicrusavis houi,” belongs to a group of birds known as ornithuromorphs (Ornithuromorpha), which are rare in rocks of this age.

Ornithuromorphs are more closely related to modern birds than are most of the other birds from the Jehol Biota.

“Longicrusavis adds to the magnificent diversity of ancient birds, many of them sporting teeth, wing claws, and long bony tails, that recently have been unearthed from northeastern China,” said Luis Chiappe, a co-author of the study.

Along with a bird described five years ago, Longicrusavis provides evidence for a new, specialized group of small birds that diversified during the Early Cretaceous between about 130 and 120 million years ago.

“The new discovery adds information not only on the diversity these birds, but also on the possible lakeshore environment in which this bird lived,” said co-author Gao Ke-Qin.

The legs of this new species are unusually long, suggesting that it spent much of its time wading in the shallows of ancient lakes.

The name “Longicrusavis” means “long-shin bird,” highlighting this important aspect of the new specimen.

The presence of ancient birds in this habitat suggests that modern birds might have originated from an ancestor that was adapted for life near rivers and lakes.

Previously undescribed feather impressions from a closely related species suggest that both it and Longicrusavis had a long, fan-shaped tail.

These are the oldest species to have such a tail, which likely increased flying performance.

The rocks of the Yixian Formation of northeast China have produced a spectacular array of fossils in recent years including fishes, birds, mammals, invertebrates, and dinosaurs.

These fossils are collectively are known as the Jehol Biota and they are remarkable because, in many instances, they preserve soft tissues such as feathers or hair in addition to teeth and bones.

“The Jehol Biota never fails to stop giving, and the research to be done on these fossils is virtually endless!” said O’Connor. (ANI)

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Early warning sign for Alzheimer”s discovered

March 26, 2010 By Leave a Comment

Melbourne, March 26 (ANI): A team of Australian researchers has discovered an early warning sign for Alzheimer”s.

The new research, conducted in partnership between the CSIRO and the Queensland government, suggests that the sign is evident in the brain years before the disease causes any cognitive decline.

The researchers have mapped the presence of amyloid-beta “plaques” in the brain, which are known to accumulate alongside the development of the degenerative condition.

Until now, it was not known whether this plaque was toxic and contributed to Alzheimer”s disease or whether it was coincidental.

Dr Olivier Salvado and his research colleagues found when the plaque was located in a particular spot in the brain it could cause damage to the hippocampus, which plays a key role in memory functioning.

“We found when there is plaque in this inferior temporal cortex then the hippocampus gets atrophied,” News.com.au quoted Salvado as saying.

It is believed that the plaque disrupts connections with the hippocampus, causing its neurons to die.

The new discovery reveals one mechanism by which Alzheimer”s disease could unfold within the brain plus a possible way to spot it early.

The research has been published in the journal Neurology. (ANI)

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Oz scientists in TB drug breakthrough

March 24, 2010 By Leave a Comment

Washington, March 24 (ANI): Scientists in Australia have said that they have made a new discovery that could lead to the first novel drug for Tuberculosis (TB) in almost fifty years.

Dr Nick West, Associate Faculty of the Mycobacterial group at Sydney”s Centenary Institute, is looking at the genetics of TB in the hope they will reveal a way to reduce the impact of one of the deadliest diseases in the world.

“When someone is infected with TB they either become sick immediately or the disease stays inactive, latent,” West said.

“Unfortunately, the antibiotics we use to fight TB aren”t effective against latent TB and can only be used when the disease becomes active. This is a major problem as 1 out of 10 people who have latent TB will develop the active disease, becoming sick and contagious,” West added.

West and his team have made a vital discovery in the development of a new drug that could cure TB in the latent stage. If the project succeeds, it will be the first new treatment for TB since 1962.

“We have investigated a protein that is essential for TB to survive and we have had some success in developing a drug that will inhibit this protein. Our goal over the coming months is to find out the full extent of this drug”s potential,” West said.

“If we can figure out a way to treat TB when it”s in a latent stage, then we could save millions of lives throughout the world,” West added. (ANI)

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Scientists discover most massive form of antimatter to date

March 5, 2010 By Leave a Comment

Washington, March 5 (ANI): An international team of scientists studying high-energy collisions of gold ions at the Relativistic Heavy Ion Collider (RHIC) has published evidence of the most massive antinucleus discovered to date.

The RHIC is a 2.4-mile-circumference particle accelerator located at the US Department of Energy’s (DOE) Brookhaven National Laboratory.

The new antinucleus, discovered at RHIC’s STAR detector, is a negatively charged state of antimatter containing an antiproton, an antineutron, and an anti-Lambda particle.

It is also the first antinucleus containing an anti-strange quark.

“This experimental discovery may have unprecedented consequences for our view of the world,” commented theoretical physicist Horst Stoecker, Vice President of the Helmholtz Association of German National Laboratories.

“This antimatter pushes open the door to new dimensions in the nuclear chart — an idea that just a few years ago, would have been viewed as impossible,” he added.

The discovery may help elucidate models of neutron stars and opens up exploration of fundamental asymmetries in the early universe.

All terrestrial nuclei are made of protons and neutrons (which in turn contain only up and down quarks).

The standard Periodic Table of Elements is arranged according to the number of protons, which determine each element’s chemical properties.

Physicists use a more complex, three-dimensional chart to also convey information on the number of neutrons, which may change in different isotopes of the same element, and a quantum number known as “strangeness,” which depends on the presence of strange quarks.

Nuclei containing one or more strange quarks are called hypernuclei.

For all ordinary matter, with no strange quarks, the strangeness value is zero and the chart is flat.

Hypernuclei appear above the plane of the chart.

The new discovery of strange antimatter with an antistrange quark (an antihypernucleus) marks the first entry below the plane.

This study of the new antihypernucleus also yields a valuable sample of normal hypernuclei, and has implications for our understanding of the structure of collapsed stars.

“The strangeness value could be non-zero in the core of collapsed stars, so the present measurements at RHIC will help us distinguish between models that describe these exotic states of matter,” said Jinhui Chen, one of the lead authors, a postdoctoral researcher at Kent State University and currently a staff scientist at the Shanghai Institute of Applied Physics.

The findings also pave the way towards exploring violations of fundamental symmetries between matter and antimatter that occurred in the early universe, making possible the very existence of our world. (ANI)

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Fog discovered on Saturn’s largest moon Titan

December 19, 2009 By Leave a Comment

Los Angeles, Dec 20 : US scientists have discovered fog moving across the south pole of Saturn’s largest moon, Titan.

Titan looks to be the only place in the solar system aside from Earth to have copious quantities of liquid (largely, liquid methane and ethane) on its surface.

The new discovery suggests that Earth and Titan share yet another feature, which is inextricably linked with that surface liquid: common fog, according to researchers at the California Institute of Technology (Caltech).

The presence of fog provides the first direct evidence for the exchange of material between the surface and the atmosphere, and thus of an active hydrological cycle, which previously had only been known to exist on Earth, the researchers said in a paper published in the latest issue of Astrophysical Journal Letters.

Titan’s south pole is spotted “more or less everywhere” with puddles of methane that give rise to sporadic layers of fog, said planetary astronomer Mike Brown of Caltech, Xinhua reported Saturday.

The researchers made their discovery using data from the Visual and Infrared Mapping Spectrometer (VIMS) onboard the Cassini spacecraft, which has been observing Saturn’s system for the past five years.

The VIMS instrument provides “hyperspectral” imaging, covering a large swath of the visible and infrared spectrum.

Brown and his colleagues searched public online archives to find all Cassini data collected over the moon’s south pole from October 2006 through March 2007. They filtered the data to separate out features occurring at different depths inthe atmosphere, ranging from 20 km to 0.25 km above the surface.

Using other filters, they homed in on “bright” features caused by the scattering of light off small particles — such as the methane droplets present in clouds.

In this way, they isolated clouds located about 750 meters (less than a half-mile) above the ground. These clouds did not extend into the higher altitudes but into the moon’s troposphere, where regular clouds form. In other words, said Brown, they had found fog.

Brown noted that evaporating methane on Titan “means it must have rained, and rain means streams and pools and erosion and geology. The presence of fog on Titan proves, for the first time, that the moon has a currently active methane hydrological cycle”.

The presence of fog also proves that the moon must be dotted with methane pools, Brown said. That’s because any ground-level air, after becoming 100 percent humid and turning into fog, would instantly rise up intothe atmosphere like a giant cumulus cloud.

“The only way to make the fog stick around on the ground is to both add humidity and cool the air just a little,” he explained.(IANS)

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Archaeologists discover gemstone carrying portrait of Alexander the Great

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): An archaeological team, during excavations in Israel, has discovered a gemstone that has a portrait of Alexander the Great engraved on it.

The excavations at Tel Dor were carried out by an archaeological team, which was directed by Dr. Ayelet Gilboa of the University of Haifa and Dr. Ilan Sharon of the Hebrew University of Jerusalem.

“Despite its miniature dimensions – the stone is less than a centimeter high and its width is less than half a centimeter – the engraver was able to depict the bust of Alexander on the gem without omitting any of the ruler’s characteristics,” said Dr. Gilboa, Chair of the Department of Archaeology at the University of Haifa.

“The emperor is portrayed as young and forceful, with a strong chin, straight nose and long curly hair held in place by a diadem,” he added.

The Tel Dor researchers have noted that it is surprising that a work of art such as this would be found in Israel, on the periphery of the Hellenistic world.

“It is generally assumed that the master artists – such as the one who engraved the image of Alexander on this particular gemstone – were mainly employed by the leading Hellenistic courts in the capital cities, such as those in Alexandria in Egypt and Seleucia in Syria,” according to the researchers.

“This new discovery is evidence that local elites in secondary centers, such as Tel Dor, appreciated superior objects of art and could afford ownership of such items,” they added.

The significance of the discovery at Dor is in the gemstone being uncovered in an orderly excavation, in a proper context of the Hellenistic period.

This tiny gem was unearthed by a volunteer during excavation of a public structure from the Hellenistic period in the south of Tel Dor, excavated by a team from the University of Washington at Seattle headed by Prof. Sarah Stroup.

Dr. Jessica Nitschke, professor of classical archaeology at Georgetown University in Washington DC, identified the engraved motif as a bust of Alexander the Great.

This has been confirmed by Prof. Andrew Stewart of the University of California at Berkeley, an expert on images of Alexander and author of a book on this topic.

Alexander was probably the first Greek to commission artists to depict his image – as part of a personality cult that was transformed into a propaganda tool. (ANI)

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New discovery may lead to improved therapies for lung disease

September 17, 2009 By Leave a Comment

Washington, Sept 16 (ANI): Researchers at The University of Texas Health Science Centre at Houston have discovered a protein that appears to play a crucial role in development of chronic obstructive pulmonary disease (COPD).

The protein called osteopontin (OPN) could lead to a novel approach to the treatment of a devastating lung disease.

The research conducted on mice showed that genetically removing osteopontin could prevent COPD.

The mice without the protein had less inflammation and lung disease.

“The lack of osteopontin in the mice prevented the COPD features,” said Daniel Schneider, the study’s lead author and an M.D./Ph.D. candidate at the UT Health Science Center at Houston.

To understand the applicability of their findings to humans, the researchers analyzed the airways of people with COPD and found elevated levels of the protein.

“This is an important crossover study,” said Dr Michael Blackburn, the study’s senior author and professor in the Department of Biochemistry and Molecular Biology at The University of Texas Medical School at Houston.

“Because we can show osteopontin is elevated in people with COPD, this suggests that osteopontin could serve as both an indicator of disease progression and a therapeutic target,” he added.

The findings appear online in The FASEB Journal. (ANI)

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Molecular mechanism underlying severe form of diabetes in kids identified

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): University of Iowa researchers have identified a new molecular mechanism underlying a rare and severe form of diabetes in children.

The new mechanism involves a protein called ankyrin and appears to regulate specialized pancreatic cells and insulin secretion

The researchers hope that the new discovery may help identify new molecular targets for treating both rare and common forms of diabetes and hyperinsulinemia.

During the study, the team used animal and cellular models to focus on a gene mutation linked with permanent neonatal diabetes mellitus.

Children with this genetic form of diabetes have symptoms by age 6 months and require lifelong dependence on insulin to maintain proper glucose levels.

They found that the specific human gene mutation disrupts the ability of the protein ankyrin to regulate a key protein complex known as the KATP channel.

“We have known for some time that human mutations in the KATP channel complex may cause diabetes or hyperinsulinemia,” said Faith Kline, Ph.D., the study’s lead author and postdoctoral fellow in internal medicine in the University of Iowa Carver College of Medicine. Now we know something about how this specific KATP channel mutation results in disease.

“The KATP channel essentially functions as a gatekeeper for insulin secretion by pancreatic beta cells. Without proper regulation by this gatekeeper, the pancreatic beta cells are unable to efficiently regulate insulin secretion,” Kline added.

According to the researchers, a key finding in this study was identifying the ankyrin protein in the pancreatic beta cell, which is a type of excitable cell.

Ankyrins also play critical roles for ion channel regulation in other excitable cells, such as neurons and heart cells called cardiomyocytes,”

The team found that the gene mutation prevents most KATP channels from binding with ankyrin, which typically acts as a cellular chaperone. This failure prevents the KATP channels from reaching their normal destination in the cell membrane.

The team also found that the few mutant KATP channels that do reach the pancreatic cell membrane do not respond to alterations in cellular metabolism. As a result, the pancreatic beta cells do not release insulin appropriately.

The study appears in Proceedings of the National Academy of Sciences. (ANI)

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New gene that causes insulin resistance in diabetics identified

September 7, 2009 By Leave a Comment

London, Sept 7 (ANI): An international team of researchers have discovered a new gene that appears to affect how insulin works.

The new discovery could lead to better treatment of type 2 diabetes, and provide deeper insight into how this widespread disease develops.

The novel gene, called Insulin Receptor Substrate 1 (IRS1), affects how the body responds to insulin already in the bloodstream.

“Most of the genes that we’ve identified as diabetes risk genes to date reduce the function of the pancreas, specifically of beta cells in the pancreas that make insulin,” Nature quoted Dr. Robert Sladek, of McGill University and the Genome Quebec Innovation Centre in Montreal, a corresponding author of the paper, as saying.

“IRS1 has to do with the function of the other tissues in the body. Rather than reduce production of insulin, this gene reduces the effect of insulin in muscles, liver and fat, a process called insulin resistance,” he added.

The researchers analysed genetic material drawn from more than 6,000 French participants.

In addition to identifying the new gene, they have also found the genetic trigger, which leads to malfunction, in a totally unexpected place.

“It’s a single-nucleotide polymorphism (SNP, pronounced ‘snip’), a single letter change in your DNA,” said Sladek.

“What’s interesting about this particular SNP is that it’s not linked genetically to the IRS1 gene in any way; it’s about half-a-million base-pairs away, in the middle of a genetic desert with no known genes nearby.

“It causes a 40-per-cent reduction in the IRS1 gene, and even more important, a 40-per-cent reduction in its activity. Which means that even if insulin is present, it won’t work,” he added.

Sladek says that it is possible that in diabetic patients, the signal to turn this gene on and off might be impaired.

The study has been published in Nature Genetics. (ANI)

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New discovery hints ancient Egypt and Israel had ties during Early Bronze Age

September 2, 2009 By Leave a Comment

Jerusalem, Sept 2 (ANI): The discovery of a rare, four-centimeter-long stone fragment at the point where the Jordan River exits Lake Kinneret, has suggested a link between ancient Egypt and Israel around 3,000 BCE during the Early Bronze Age.

According to a report in the Jerusalem Post, Tel Aviv University (TAU) and University College London archeologists found the fragment.

The piece, part of a carved stone plaque bearing archaic Egyptian signs, was the highlight of the second season of excavations at Tel Bet Yerah (Khirbet el-Kerak). he site lies along an ancient highway that connected Egypt to the wider world of the ancient Near East.

The dig, carried out within the Beit Yerah National Park, was completed there last week by a joint team headed by TAU’s Raphael Greenberg and David Wengrow from England.

Earlier discoveries, both in Egypt and at Bet Yerah, have indicated that there was direct interaction between the site – then one of the largest in the Jordan Valley – and the Egyptian royal court.

The new discovery suggests that these contacts were of far greater local significance than had been suspected.

The archeologists noted that the fragment, which depicts an arm and hand grasping a scepter and an early form of the ankh sign, was the first artifact of its type ever found in an archaeological site outside Egypt.

It has been attributed to the period of Egypt’s First Dynasty, at around 3000 BCE.

Finds of this nature are rare even within Egypt itself, and the signs are executed to a high quality, as good as those on royal cosmetic palettes and other monuments dating to the origins of Egyptian kingship.

This year’s excavations also provided new insights into contacts between the early town and the distant north, when large quantities of “Khirbet Kerak Ware” (a distinctive kind of red/black burnished pottery first found at Tel Bet Yerah) were found in association with portable ceramic hearths, some of them bearing decorations in the form of human features.

“The hearths are very similar to objects found in Anatolia and the southern Caucasus, and most were found in open spaces where there was other evidence for fire-related activities,” noted Greenberg.

“The people using this pottery appear to have been migrants or descendants of migrants, and its distribution on the site, as well as the study of other cultural aspects, such as what they ate and the way they organized their households, could tell us about their interaction with local people and their adaptation to new surroundings,” he added. (ANI)

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New discovery may lead to therapies for RSV, influenza A

August 25, 2009 By Leave a Comment

London, Aug 24 (ANI): A research team led by Indian-origin scientist claims to have identified a cellular molecule that not only helps recognize viruses that cause respiratory problems but also direct cells to produce defensive immune response.

Dr Santanu Bose and colleagues have identified a cellular molecule, called NOD2, that detects respiratory viruses and can instruct cells to defend against them.

The team from The University of Texas Health Science Centre at San Antonio hope that the new discovery could lead to therapies for human respiratory syncytial virus (RSV) and influenza A (commonly known as flu).

“This molecule could be used to boost host immune defenses and stimulate vaccine efficacy against RSV and influenza A, especially among high-risk individuals,” Nature quoted senior author Dr Santanu Bose, assistant professor of microbiology and immunology as saying.

The study showed that mice lacking the sensor survive for only 10 days after infection, compared with up to eight weeks for normal animals.

Researchers said that identifying this sensor and understanding its key role could result in therapies that activate the NOD2 gene during or prior to infection, leading to enhanced protective immunity.

The NOD2 sensor also has the potential to recognize other viruses, such as West Nile virus, yellow fever, Ebola and rabies.

The findings appear in the journal Nature Immunology. (ANI)

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