Daily Science Journal (Aug. 31, 2007) — Scientists at the University of Rochester and the J. Craig Venter Institute have discovered a copy of the entire genome of a bacterial parasite residing inside the genome of its host species.

Fruit fly ovaries showing wolbachia infection within. (Credit: University of Rochester)

The finding, reported in Science August 30, suggests that lateral gene transfer--the movement of genes between unrelated species--may happen much more frequently between bacteria and multicellular organisms than scientists previously believed, posing dramatic implications for evolution.


Such large-scale heritable gene transfers may allow species to acquire new genes and functions extremely quickly, says Jack Werren, a principle investigator of the study.

The results also have serious repercussions for genome-sequencing projects. Bacterial DNA is routinely discarded when scientists are assembling invertebrate genomes, yet these genes may very well be part of the organism's genome, and might even be responsible for functioning traits.

"This study establishes the widespread occurrence and high frequency of a process that we would have dismissed as science fiction until just a few years ago," says W. Ford Doolittle, Canada Research Chair in Comparative Microbial Genomics at Dalhousie University, who is not connected to the study. "This is stunning evidence for increased frequency of gene transfer."

"It didn't seem possible at first," says Werren, professor of biology at the University of Rochester and a world-leading authority on the parasite, called Wolbachia. "This parasite has implanted itself inside the cells of 70 percent of the world's invertebrates, coevolving with them. And now, we've found at least one species where the parasite's entire or nearly entire genome has been absorbed and integrated into the host's. The host's genes actually hold the coding information for a completely separate species."

Wolbachia may be the most prolific parasite in the world--a "pandemic," as Werren calls it. The bacterium invades a member of a species, most often an insect, and eventually makes its way into the host's eggs or sperm. Once there, the Wolbachia is ensured passage to the next generation of its host, and any genetic exchanges between it and the host also are much more likely to be passed on.

Since Wolbachia typically live within the reproductive organs of their hosts, Werren reasoned that gene exchanges between the two would frequently pass on to subsequent generations. Based on this and an earlier discovery of a Wolbachia gene in a beetle by the Fukatsu team at the University of Tokyo, Japan, the researchers in Werren's lab and collaborators at J. Craig Venter Institute (JCVI) decided to systematically screen invertebrates. Julie Dunning-Hotopp at JCVI found evidence that some of the Wolbachia genes seemed to be fused to the genes of the fruitfly, Drosophila ananassae, as if they were part of the same genome.

Michael Clark, a research associate at Rochester then brought a colony of ananassae into Werren's lab to look into the mystery. To isolate the fly's genome from the parasite's, Clark fed the flies a simple antibiotic, killing the Wolbachia. To confirm the ananassae flies were indeed cured of the wolbachia, Clark tested a few samples of DNA for the presence of several Wolbachia genes.

To his dismay, he found them.

"For several months, I thought I was just failing," says Clark. "I kept administering antibiotics, but every single Wolbachia gene I tested for was still there. I started thinking maybe the strain had grown antibiotic resistance. After months of this I finally went back and looked at the tissue again, and there was no Wolbachia there at all."

Clark had cured the fly of the parasite, but a copy of the parasite's genome was still present in the fly's genome. Clark was able to see that Wolbachia genes were present on the second chromosome of the insect.

Clark confirmed that the Wolbachia genes are inherited like "normal" insect genes in the chromosomes, and Dunning-Hotopp showed that some of the genes are "transcribed" in uninfected flies, meaning that copies of the gene sequence are made in cells that could be used to make Wolbachia proteins.

Werren doesn't believe that the Wolbachia "intentionally" insert their genes into the hosts. Rather, it is a consequence of cells routinely repairing their damaged DNA. As cells go about their regular business, they can accidentally absorb bits of DNA into their nuclei, often sewing those foreign genes into their own DNA. But integrating an entire genome was definitely an unexpected find.

Werren and Clark are now looking further into the huge insert found in the fruitfly, and whether it is providing a benefit. "The chance that a chunk of DNA of this magnitude is totally neutral, I think, is pretty small, so the implication is that it has imparted of some selective advantage to the host," says Werren. "The question is, are these foreign genes providing new functions for the host? This is something we need to figure out."

Evolutionary biologists will certainly take note of this discovery, but scientists conducting genome-sequencing projects around the world also may have to readjust their thinking.

Before this study, geneticists knew of examples where genes from a parasite had crossed into the host, but such an event was considered a rare anomaly except in very simple organisms. Bacterial DNA is very conspicuous in its structure, so if scientists sequencing a nematode genome, for example, come across bacterial DNA, they would likely discard it, reasonably assuming that it was merely contamination--perhaps a bit of bacteria in the gut of the animal, or on its skin.

But those genes may not be contamination. They may very well be in the host's own genome. This is exactly what happened with the original sequencing of the genome of the anannassae fruitfly--the huge Wolbachia insert was discarded from the final assembly, despite the fact that it is part of the fly's genome.

In the early days of the Human Genome Project, some studies appeared to show bacterial DNA residing in our own genome, but those were shown indeed to be caused by contamination. Wolbachia is not known to infect any vertebrates such as humans.

"Such transfers have happened before in the distant past" notes Werren. "In our very own cells and those of nearly all plants and animals are mitochondria, special structures responsible for generating most of our cells' supply of chemical energy. These were once bacteria that lived inside cells, much like Wolbachia does today. Mitochondria still retain their own, albeit tiny, DNA, and most of the genes moved into the nucleus in the very distant past. Like wolbachia, they have passively exchanged DNA with their host cells. It's possible wolbachia may follow in the path of mitochondria, eventually becoming a necessary and useful part of a cell.

"In a way, wolbachia could be the next mitochondria," says Werren. "A hundred million years from now, everyone may have a wolbachia organelle."

"Well, not us," he laughs. "We'll be long gone, but wolbachia will still be around."

This research was funded by the National Science Foundation.

Adapted from materials provided by University of Rochester.



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Daily Science Journal (Aug. 30, 2007) — Researchers have made synthetic lipids called pseudoceramides that are involved in skin cell growth and could be used in treating skin diseases in which skin cells grow abnormally.

Ceramides are lipids found in the outermost skin layer called the stratum corneum, which is made of dead skin cells and mainly serves as a physical barrier. Ceramides' main biological function is to control how skin cells grow and differentiate -- a process through which skin cells become specialized.

Scientists have created in the laboratory synthetic ceramides, called pseudoceramides, to treat skin diseases such as atopic dermatitis, a form of eczema characterized by red, flaky and very itchy skin; psoriasis, a disease that causes red scaly patches on the skin; and glucocorticoid-induced epidermal atrophy, in which the skin shrinks due to skin cell loss.

Jeung-Hoon Lee and colleagues have developed a new series of pseudoceramides and examined their effects on skin cells. They found that three pseudoceramides called K6PC-4, K6PC-5, and K6PC-9 significantly increased the amount of proteins produced when skin cells differentiate. These results were obtained both on cultured skin cells and on a reconstituted epidermis. K6PC-4, K6PC-5, and K6PC-9 may be used to treat skin diseases arising from abnormal growth of skin cells, the scientists concluded.


Article: "Novel synthetic ceramide derivatives increase intracellular calcium levels and promote epidermal keratinocyte differentiation," by Yoo Bin Kwon, Chang Deok Kim, Jong-Kyung Youm, Hyung Sub Gwak, Byeong Deog Park, Seung Hun Lee, Saewha Jeon, Bo Joong Kim, Young-Joon Seo, Jang-Kyu Park, and Jeung-Hoon Lee

Adapted from materials provided by American Society for Biochemistry and Molecular Biology, via EurekAlert!, a service of AAAS.

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Green Tea And The 'Asian Paradox'

There is a lower incidence of cardiovascular disease and cancer in Asia where people smoke heavily, which may be accounted for by high consumption of tea, particularly green tea, according to a review article published by a Yale School of Medicine researcher.

"We do not yet have a full explanation for the 'Asian paradox,' which refers to the very low incidence of both heart disease and cancer in Asia, even though consumption of cigarettes is greater than in most other countries," said Bauer Sumpio, M.D., professor and Chief of Vascular Surgery in the Department of Surgery. "But we now have some theories."

Sumpio, the lead author of the review in the Journal of the American College of Surgeons, said he and his colleagues reviewed more than 100 experimental and clinical studies about green tea in writing the article.

He said one theory is that the average 1.2 liters of green tea consumed daily by many people in Asia offers the anti-oxidant protective effects of the polyphenolic EGCG. EGCG may prevent LDL oxidation, which has been shown to play a key role in the pathophysiology of arteriosclerosis. EGCG also reduces the amount of platelet aggregation, regulates lipids, and promotes proliferation and migration of smooth muscle cells, which are all factors in reducing cardiovascular disease, he said.

Sumpio said other reports show that EGCG prevents growth of certain tumors. Tea, according to studies, also can improve gastrointestinal function, alcohol metabolism, kidney, liver and pancreatic function, protect skin and eyes and alleviate arthritis. Tea has been used in managing and preventing allergies, diabetes, bacterial and viral infections, cavities, reduce or cure diseases with an inflammatory component and improve neurologic and psychological health.

"More studies are necessary to fully elucidate and better understand green tea's method of action, particularly at the cellular level," Sumpio said. "The evidence is strong that green tea consumption is a useful dietary habit to lower the risk for, as well as treat, a number of chronic diseases. Certainly, however, smoking cessation is the best way to prevent cardiovascular disease and cancer."

Reference: Journal of the American College of Surgeons 202: 813-825 (May 2006)

Adapted from materials provided by Yale University.




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Daily Science Journal (Aug. 27, 2007) — Australian and French scientists have made another breakthrough in the technology that will drive next generation computers and teleportation.

The researchers have successfully superposed light beams, which produces a state that appears to be both on and off at once.

Light beams that are simultaneously on and off are vital for the next-generation super computers which should be faster than current computers based on bits, that are either on or off.

Previously, only smaller light particles had been superposed and the group has also proved a quantum physics theory known as Schrödinger's cat.


This theory, named after an Austrian physicist Erwin Schrödinger, proposed that a large object such as a cat could be simultaneously alive and dead.

Researchers from The University of Queensland and University of Paris South have published the latest breakthrough in the journal Nature.

UQ Centre for Quantum Computer Technology researcher Dr Hyunseok Jeong devised the scheme to generate and superpose the beams which was tested and proved by his French collaborators.

Dr Jeong said his group used special lasers, crystals, photon detectors, half-mirrors and other optical devices to generate and measure the superposition of light beams.

"It has been known to be extremely hard to generate Schrödinger cat states, particularly with traveling light," Dr Jeong said.

"Even though one could generate such Schrodinger cat states, it would be extremely hard to observe them because in a very short time, they would be reduced to either alive or dead states."

He said his group's research findings would help speed up the development of quantum information technologies such as quantum computers, quantum cryptography and quantum teleportation.

"Using Schrödinger cat states, quantum teleportation may be performed with nearly 100 percent success probability."

Adapted from materials provided by University of Queensland, via EurekAlert!, a service of AAAS.





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Daily Science Journal (Aug. 23, 2007) — The largest trial so far conducted using Butterbur extract to treat intermittent allergic rhinitis (hay fever) shows that this plant extract is as effective as a commonly used antihistamine (Telfast 180).

In recent years there have been a few reports of small research trials that give a mixed view about the effectiveness of Butterbur extract for treating intermittent allergic rhinitis (IAR). Now researchers from Germany and Switzerland have published results from a randomised, double-blind, parallel group comparison study involving 330 patients in 11 centres. They found that treatment with butterbur extract was as effective at combating symptoms of IAR as treatment with a conventional antihistamine (Telfast 180). In addition they found that Butterbur extract did not cause drowsiness.


'Despite being a herbal drug, Butterbur Ze339 has now been subject to a series of well controlled trials and should be considered as an alternative treatment for IAR,' says lead researcher Andreas Schapowal.

Butterbur (Petasites hybridus) is a plant found throughout Europe and Asia and parts of North America. The roots of this plant have been used in herbal remedies for centuries while the leaves have only been introduced recently as a new herbal medicine. An extract can inhibit the body's ability to produce leukotrienes, biomolecules that are involved in the inflammatory response to allergens. They also help stimulate the body's production of prostaglandins, chemicals that play a role in reducing inflammation.

Finding an alternative therapy for IAR is important partly because up to 20 per cent of people living in Western countries suffer from it.

'Because Butterbur does not cause the sort of drowsiness that is so often associated with other anti-histamines it could be particularly useful for patients who can not tolerate other therapies,' says Schapowal.

"Treating Intermittent Allergic Rhinitis: A Prospective, Randomized, Placebo & Antihistamine-Controlled Study of Butterbur Extract," by Schapowal, Phytotherapy Research, Published Online: August 22, 2005. Available via Wiley InterScience at http://www.interscience.wiley.com/journal/ptr.

Adapted from materials provided by John Wiley & Sons, Inc., via EurekAlert!, a service of AAAS.



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Daily Science Journal (Aug. 17, 2007) — By using pulses of light to dramatically accelerate the development of quantum computers, University of Michigan researchers have made strides in technology that could foil national and personal security threats.

It's a leap, they say, that could lead to tougher protections of information and quicker deciphering of hackers' encryption codes.

A new paper on the results of this research, "Coherent Optical Spectroscopy of a Strongly Driven Quantum Dot," appears in the Aug. 17 issue of Science. Duncan Steel, the Robert J. Hiller Professor at Michigan Engineering's Department of Electrical Engineering and Computer Science and the Department of Physics, is one of the lead authors of the paper. Faculty from the University of California-San Diego and the Naval Research Laboratory in Washington, D.C., also contributed.


The researchers used short, coherent pulses of light to create light-matter interactions in quantum dots---particles so small that the addition or deletion of electrons changes their properties. They found they could control the frequency and phase shifts in the optical network, which is crucial in powering an optically driven quantum computer, Steel said.

Optically driven quantum computers can crack highly encrypted codes in seconds. The fastest of today's desktop computers would require 20 years.

Part of what makes quantum computers so fast is that they are multitask masters.

"Quantum computers are capable of massive parallel computations," Steel said. "That's why these machines are so fast."

And the technology the researchers used to power them in this study is relatively cheap.

"We're particularly excited about our findings because they show that we can achieve these results by using quantum dots and readily available, relatively inexpensive optical telecommunications technology to drive quantum computers," Steel said. "Quantum dots replace transistors in these computers, and our results show that it only takes a few billionths of a watt to drive it."

U-M researchers are using quantum dot systems to pave the way for numerous quantum level applications, such as quantum dot dressed state lasers, optical modulators and quantum logic devices.

This discovery in quantum dot spectroscopy is an important stepping stone to building a quantum computer for the future.

Spectroscopy is the study of the interaction between light and matter.

Adapted from materials provided by University of Michigan, via EurekAlert!, a service of AAAS.




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Determining The Quality Of Ginkgo

Daily Science Journal (Aug. 17, 2007) — The National Institute of Standards and Technology (NIST) has issued a suite of Standard Reference Materials (SRMs) for ginkgo biloba, one of the most popular dietary supplements in the marketplace, with annual worldwide sales estimated at $1 billion.

Ginkgo leaves. (Credit: NIST)


The NIST reference materials are designed to help researchers validate the accuracy of analytical methods for flavonoids and terpene lactones (plant constituents that may be associated with the perceived effectiveness of ginkgo) as well as toxic elements in ginkgo*. In addition to supporting measurements associated with clinical trials or verifying product label claims, the reference materials also can be used by dietary supplement manufacturers to improve product consistency.

The fruits and seeds of the female ginkgo are used for a variety of purposes in traditional Chinese medicine. In the West, dietary supplements are more commonly formulated from ginkgo leaves and standardized leaf extracts. They are used in the treatment of asthma, bronchitis, fatigue and tinnitus (ringing in the ears); for memory improvement and for the prevention and treatment of Alzheimer's disease, although these uses have not been backed by rigorous clinical trials.

Ginkgo biloba contains a family of chemical constituents known as ginkgolides which have been associated with reduced platelet aggregation. The National Institute of Health's (NIH) National Center for Complementary and Alternative Medicine (NCCAM) notes promising results in a number of areas, but says "larger, well-designed research studies are needed."

The new ginkgo reference materials include: SRM 3246 Ginkgo biloba (leaves); SRM 3247 Ginkgo biloba Extract; and SRM 3248 Ginkgo-Containing Tablets. In addition, the three ginkgo SRMs are available packaged together as SRM 3249. The reference materials come with certified values for five terpene lactones, three flavonoid aglycones and four potentially toxic trace elements (arsenic, cadmium, lead and mercury).

The goal of NIST's ongoing effort with dietary supplements such as ginkgo biloba is to provide tools to the dietary supplement industry and measurement communities that will lead to improved quality of dietary supplements and the studies of their efficacy, as well as to ultimately reduce public health risks that could potentially be associated with the use of these products.

Support for the development of the gingko-related SRMs was provided in part by the National Institutes of Health (NIH) Office of Dietary Supplements (ODS) and the Food and Drug Administration (FDA) Center for Drug Evaluation and Research (CDER).

* C.A. Rimmer, S.B. Howerton, K.E. Sharpless, L.C. Sander, S.E. Long, K.E. Murphy, B.J. Porter, K. Putzbach, M.S. Rearick, S.A. Wise, L.J. Wood, R. Zeisler, D.K. Hancock, J.H. Yen, J.M. Betz, A.N. Pho, L. Yang, C. Scriver, S. Willie, R. Sturgeon, B. Schaneberg, C. Nelson, J. Skamarack, M. Pan, K. Levanseler, D. Gray, E.H. Waysek, A. Blatter and E. Reich. Characterization of a suite of ginkgo-containing standard reference materials. Analytical and Bioanalytical Chemistry. Published online: 7 July 2007. DOI 10.1007/s00216-007-1398-5.

Adapted from materials provided by National Institute of Standards and Technology.



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Daily Science Journal (Aug. 16, 2007) — Adding a slice of lime to a favorite summer drink is nice to cool off with, but it could leave your skin burning, say dermatologists at Baylor College of Medicine in Houston.

The condition, called phytophotodermatitis, happens when a certain plant compound comes in contact with the skin, making that one area light sensitive. During the summer, lime juice is the common cause for this condition, which is why some doctors call it 'margarita dermatitis.'


"The reaction usually looks like a sunburn, or a poison ivy rash, with redness and sometimes swelling and blistering," says Dr. Rajani Katta, associate professor of dermatology at BCM. "It can be itchy and painful, and leave behind skin discoloration."

The photosensitizing compound is also found in plants such as celery, parsley and even Queen Anne's Lace. Exposure can come from fruit drippings, scratches from branches or airborne particles.

"It's not just the plant that causes the condition," Katta said. "The skin must be exposed to both the plant compound and the sun."

Treatment is similar to treating a poison ivy rash. Cool compresses and hydrocortisone creams along with oral antihistamines are used. Severe cases could require steroid pills.

"This is a common condition, but most cases are mild and people usually won't head to the doctor," Katta said. "I find patients are more bothered by the discoloration left behind rather than the inflamed area."

Preventative action is best. Be aware of what plant products you come in contact with and wash the area thoroughly before going out in the sun. As always, make sure to apply sunscreen and stay in shaded areas to maintain good skin health.

Adapted from materials provided by Baylor College of Medicine.



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Daily Science Journal (Aug. 16, 2007) — The Sumatra-Andaman earthquake generated a catastrophic tsunami that caused heavy damage and fatalities in coastal areas around the Indian Ocean. The tsunami, which struck on 26 December 2004, also propagated throughout the world's oceans, making it the first such event to be scrutinized with continuous observations of widespread oceanic monitoring networks.

Thomson et al. analyze more than 100 tide gauge records from the Atlantic coast of North America and find that the tsunami was identified in most outer tide gauges from Florida to Nova Scotia. Maximum heights for northern regions were between 32 and 39 centimeters (1.0 and 1.3 feet), while southern regions experienced wave heights between 15 and 33 centimeters (0.49 and 1.1 feet).


However, along the shores of Maine and Nova Scotia, the arrival of the tsunami coincided with the presence of tsunami-like waves generated by a major storm tracking northward along the U.S. eastern seaboard. The combined waves reached heights in excess of 1 meter (3.3 feet).

The authors warn that, although the northern Atlantic Ocean has low tsunami hazards, tsunamis from distant seismic events could threaten coastal infrastructure and habitat when the waves coincide with winter storm waves.

Title: Double jeopardy: Concurrent arrival of the 2004 Sumatra tsunami and storm-generated waves on the Atlantic coast of the United States and Canada

Authors: Richard E. Thomson: Institute of Ocean Sciences, Sidney, British Columbia, Canada;

Alexander B. Rabinovich: Institute of Ocean Sciences, Sidney, British Columbia, Canada; also at P.P. Shirshov Institute of Oceanology, Moscow, Russia;

Maxim V. Krassovski: School of Earth and Ocean Sciences, University of Victoria, Victoria, British Columbia, Canada.

Source: Geophysical Research Letters (GRL) paper 10.1029/2007GL030685, 2007

Adapted from materials provided by American Geophysical Union, via EurekAlert!, a service of AAAS.



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Daily Science Journal (Aug. 15, 2007) — Researchers at the Georgia Institute of Technology have released a study supporting the findings of several studies last year linking an increase in the strength of hurricanes around the world to a global increase in sea surface temperature. The new study strengthens the link between the increase in hurricane intensity and the increase in tropical sea surface temperature. It found that while factors such as wind shear do affect the intensity of individual storms or storm seasons, they don't account for the global 35-year increase in the number of the most intense hurricanes.

A new Georgia Tech study strengthens the link between an increasing number of intense hurricanes, like Hurricane Katrina, and rising sea surface temperatures. (Photo courtesy: NOAA)


Last summer, the journals Nature and Science published studies claiming to show a very strong link between rising tropical sea surface temperatures and an increase in the strength of hurricanes. The Nature study, by Kerry Emanuel at the Massachusetts Institute of Technology, concluded that cyclonic storms in the North Atlantic and North Pacific oceanic basins were increasing in strength and duration. That increase, Emanuel concluded, was due to increasing sea surface temperatures caused, in part, by global warming.

A month later, the journal Science published research linking an increase in sea surface temperatures over the past 35 years to a near doubling in the number of the strongest hurricanes, those labeled Category 4 or 5. The study, authored by Peter Webster, Judith Curry and Hai-Ru Chang at Georgia Tech and Greg Holland at the National Center for Atmospheric Research, examined hurricanes in all oceanic basins that play host to cyclonic storms around the world.

This latest study sought to determine whether factors other than sea surface temperatures could be significantly contributing to this 35-year trend. Georgia Tech researchers Carlos Hoyos and Paula Agudelo, along with Curry and Webster examined three factors: vertical wind shear (changes in wind speed and direction with height); humidity in the lower atmosphere; and zonal stretching deformation, which is the tendency of the winds to rotate in a cyclonic direction.

"If you examine the intensification of a single storm, or even the statistics on intensification for a particular season, factors like wind shear can play an important role," said Curry, professor and chair of the School of Earth and Atmospheric Sciences at Georgia Tech. "However, there is no global trend in wind shear or the other factors over the 35-year period."

Curry said they did see a small but significant trend in increasing wind shear strength in the North Atlantic, but that the sea surface temperatures were the dominant influence on the increase in both global hurricane intensity as well as the intensity of the North Atlantic hurricanes.

"With this new paper, we firm up the link between the increase in sea surface temperatures and hurricane intensity, which has been a key issue in the debate about whether global warming is causing an increase in hurricane intensity," said Curry.

The study appears online in the March 16 edition of Science Express.

The study was supported by the Climate Dynamics Division of the National Science Foundation.

Adapted from materials provided by Georgia Institute of Technology.



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Daily Science Journal (Aug. 13, 2007) — While a heart-healthy diet has become synonymous with plenty of fruits and vegetables and little fat and cholesterol, there’s more to the story. Omega-3 fatty acids should be part of a heart-healthy diet, too, according to the August issue of Mayo Clinic Health Letter.

Omega-3 fatty acids are a form of polyunsaturated fat important to overall health. As it pertains to heart disease, their main benefit is their ability to reduce the risk of heart rhythm problems in certain groups of people, thus reducing the risk of sudden cardiac death. In addition, omega-3s may help reduce triglycerides, lower blood pressure slightly and reduce blood clotting.

The best source of omega-3s is fatty, cold water fish such as herring, mackerel, salmon and tuna. Plant oils, such as canola and flaxseed oils, also are sources of omega-3s.

For heart disease prevention, near-maximum benefit comes from eating two 3-ounce servings of cold water fish a week. More than that doesn’t appear to offer any additional preventive benefit.


Higher amounts of two kinds of omega-3, docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), may benefit some people with established heart disease or high triglyceride levels and can have an anti-inflammatory effect for people with rheumatoid arthritis. In addition, DHA is being studied to see if it can slow the progression of Alzheimer’s disease.

For those who don’t eat fish, a fish oil supplement or an algae supplement can provide omega-3 fatty acids. However, supplements aren’t cheap, and the amount of DHA and EPA in supplements varies widely. Except for people who have established heart disease, the evidence of heart disease prevention is stronger when one eats fish instead of taking supplements. Supplements can pose risks, too. Taking more than 3 grams of fish oil a day may increase the risk of bleeding, worsen heart rhythm problems in those who have arrhythmias or cause other side effects.

Adapted from materials provided by Mayo Clinic, via Newswise.

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Eating Oily Fish May Reduce Inflammation

A new study explains how a diet high in oily fish like salmon and mackerel improves inflammatory conditions, particularly in combination with low doses of aspirin. In a study in the March 7 issue of The Journal of Experimental Medicine, Arita and colleagues identify an anti-inflammatory lipid in humans that is derived from an essential fatty acid in fish oil.

Sockey Salmon. (Photo courtesy of Washington State Department of Fish and Wildlife)

Fatty fish contain large amounts of omega-3 fatty acids--diet-derived essential fatty acids known to benefit patients with cardiovascular disease and arthritis. This research group recently identified a new class of aspirin-triggered bioactive lipids, called resolvins, the activity of which may in part explain the beneficial effects of omega-3 fatty acids. Resolvins are made from the omega-3 fatty acids by cellular enzymes and can reduce inflammation in mice. The main bioactive component of this class of lipids was identified in mice and named resolvin E1.

The researchers have now identified this lipid in plasma taken from volunteers given omega-3 fatty acids and aspirin. Human resolvin E1, the authors show, inhibits both the migration of inflammatory cells to sites of inflammation and the turning on of other inflammatory cells.

This study also reveals a potential pitfall of COX-2 inhibitors, drugs designed to block inflammation, which have been shown to have negative cardiovascular side effects. COX-2 is involved in making resolvin E1 and the authors suggest that inhibition of vascular COX-2 by these inhibitors might block the synthesis of resolvin E1, which would eliminate an important anti-inflammatory pathway. The experiment to prove this idea, however, has yet to be done.

Adapted from materials provided by Journal Of Experimental Medicine.



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Daily Science Journal (Aug. 12, 2007) — The National Physical Laboratory (NPL) is part of Biotesting Europe, a new €358,000 biometrics project, part-funded by the European Union. The project will ensure that future testing procedures and facilities meet the needs of systems users and developers, building confidence in this growing industry.

Biometric recognition systems measure unique behavioural or physical traits to recognise people. These can be as varied as iris images, fingerprints, the structure of veins in the hand, or even an individual's typing rhythm. Currently they are predominantly used in national government systems for border control or criminal justice. They could equally be used in a domestic context to reduce identity theft by helping to secure bank accounts or corporate IT systems. For example the use of fingerprint readers when paying by credit or debit card could make identity fraud more difficult.


With a range of approaches and technologies available for biometric recognition and new ones constantly in development, the field is a fast moving one. Before investing in systems, buyers need to be assured of the usability and reliability of products. Similarly, technology developers benefit from independent testing regimes that allow them to prove their products and trial them in combination with existing systems.

There is a need for a European network of resources for testing systems and products. This network would improve access to testing and avoid duplicating existing facilities. Before significant additional investment is made, there is a need for an audit of the resources currently available and the needs of customers.

NPL has expertise in the evaluation and calibration of biometric systems.

The results that emerge from Biotesting Europe will provide a clear direction for the future development of shared resources for biometric testing.

Notes: Biotesting Europe is a nine month project that will be completed by early 2008. It is co-ordinated by the European Biometric Forum, with partnership from the UK's National Physical Laboratory, Germany's Fraunhofer-Institut für Graphische Verarberaitung, and the European Commission Joint Research Centre.

Adapted from materials provided by National Physical Laboratory, via EurekAlert!, a service of AAAS.




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Daily Science Journal (Aug. 10, 2007) — You could understand if a half-dozen Magellanic penguins developed a "big bird is watching" phobia before this month is over, but the surveillance really will be for their own good.

The feathers of three Magellanic penguins blackened with oil, seen along Argentina's Atlantic coast in October 2005. (Credit: Dee Boersma)

University of Washington scientists will attach satellite tracking devices to the backs of six penguins that have been treated at two centers in northern Argentina after their feathers were fouled with oil. The birds will be released into the Atlantic Ocean and their movements traced using satellites and the Internet.


The idea is to plug a critical gap in the knowledge of the Magellanics' annual life cycle, their movements on the journey from their winter feeding grounds back to their breeding colonies along the southern Argentina coast and the Islas Malvinas, or Falkland Islands.

"We're missing that information. We know what happens when they leave the breeding grounds but we don't know what happens on the return trip," said Elizabeth Skewgar, a University of Washington doctoral student in biology.

"We want to model the energy requirements for these birds so that we understand what it takes to return to the breeding grounds and still have enough energy to reproduce. Human fisheries competing for the same food could make migration even more difficult for them."

The project is led by Dee Boersma, a UW biology professor who for 25 years has headed the Magellanic Penguin Project at Punta Tombo, Argentina, the birds' largest breeding colony in South America.

"We need to know how penguins use the ocean so we can make their migration route safe through a combination of national marine parks, marine protected areas and ocean zoning," Boersma said.

During the week of Aug. 20, the scientists will select six adult male penguins from rehabilitation centers at San Clemente del Tuyu and Mar del Plata, coastal towns more than 500 miles north of Punta Tombo. Epoxy and special tape will be used to attach a transmitter to each bird before it is released into the Atlantic. The tags are about the size of many common cellular telephones and weigh less than 3.5 ounces.

"We want to put the transmitters on healthy, robust birds that we think are likely to get back and start breeding," Boersma said. "The point is to follow them back to their colony and see where they might be running into petroleum."

Through late October the birds' movements will be tracked by the Argos satellite system, operated by the National Oceanic and Atmospheric Administration and the French space agency. A satellite will pass overhead every two hours and chart the penguins' positions, then transmit the information back to the researchers, who will use it to update a public tracking map on the Internet at http://www.penguinstudies.org.

The transmitters will be active for 36 hours at a time and then will be off for 36 hours, a means of preserving the two double-A batteries in each transmitter for the life of the project. The researchers have no way of knowing whether the birds will go to southern Argentina or the Malvinas, or whether they will follow a straight course to the breeding grounds or take a circuitous route.

"After we release them, they could just hang out at Mar del Plata for a month. It's all up to them," Boersma said. "We're hoping the males we tag will be in a hurry to get to their colony and start breeding."

The satellite tracking also will be instrumental in pinpointing the birds after they arrive at the breeding grounds. Punta Tombo alone is home to some 400,000 penguins during breeding season.

"Tracking the locations by satellite is only accurate to within 5 kilometers, so it really is like trying to find a needle in a haystack," Boersma said.

Locating the penguins once they reach the breeding ground is important so the researchers can assess the birds' physical condition after the long journey.

"We'll know how much weight they gained or lost on their journey," Boersma said.

After its mate arrives, a male fasts until the female lays two eggs, then he returns to the ocean to feed, sometimes swimming hundreds of miles in search of fish such as anchovies that are staples of the penguin diet. After about two weeks the male returns to the nest to incubate the eggs while the female goes in search of food.

The birds' energy can be drastically sapped if they become coated with oil, and that can mean death. Last year, a team of scientists that included Boersma reported they had found 19 groups rehabilitating oiled seabirds along the Atlantic coast from central Brazil to central Argentina, indicating a much larger problem than generally had been believed. It remains uncertain where the oil comes from -- it could be from a combination of sources, including seepage from offshore oil rigs and ballast water from passing ships.

"We know that birds show up oiled back at our colony, so that means they're getting oiled somewhere between where they winter and Punta Tombo," Boersma said.

Others involved in the work are Sergio Rodriguez Heredia of the Fundacion Mundo Marino in San Clemente del Tuyu, Karen Griot of Fundacion Mar del Plata Aquarium and Valeria Ruoppolo of the International Fund for Animal Welfare's Penguin Network.

The research will be included in Skewgar's doctoral dissertation. The work is being funded by the Wildlife Conservation Society, with support from the tourism office of the Argentine Province of Chubut.

Adapted from materials provided by University of Washington.



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Genetic Clues To Sodalis Deepens Knowledge Of Bacterial Diseases

Daily Science Journal (Aug. 10, 2007) — By sequencing the genome of the symbiotic bacterium Sodalis, which lives off the major disease-transmitting insect, the tsetse fly, researchers at Yale School of Medicine have come a step closer to understanding how microbial pathogens cause disease.

The tsetse fly is one of many eukaryotes (animals) that live in association with symbiotic microbes or bacteria. (Image courtesy of Yale University)


Led by Serap Aksoy, professor in the Department of Epidemiology and Public Health at Yale School of Medicine, the team was highly interested in Sodalis because of its close relation to human bacterial pathogens like E.Coli, Salmonella and Yersinia.

Published online December 15 in Genome Research, the study looked at the genome in Sodalis, the second of three kinds of bacteria known to aid the tsetse fly in feeding off the blood of its host. The tsetse fly is one of many eukaryotes (animals) that live in association with symbiotic microbes or bacteria. These animals depend on the microbes for vital nutrients they can't otherwise produce.

"We have been able to develop the first system to grow Sodalis in vitro in the laboratory," said Aksoy. "We were then able to genetically modify the symbiotic bacteria and put it back into the tsetse fly to manipulate host traits or functions. Information on the blueprint of this organism now gives us a better handle on this applied strategy."

When the team sequenced the bacterial genome, they found the hallmarks of an organism transitioning from a free-living state to a symbiotic state. "It's a relatively young association between the tsetse host and the bacterium," said Aksoy. "Surprisingly, Sodalis has many of the same features of pathogenic bacteria, although it is obviously a beneficial organism that poses no harm to the tsetse host. We can now investigate how these potentially pathogenic features function in a beneficial relationship. It has changed our view of host pathogen characteristics."

Aksoy and her team also found that the genome itself, in terms of physical structure and size, looks similar to free-living bacteria. As relationships become symbiotic--more and more dependent on the host--bacterial genomes usually begin to shrink, but in the case of Sodalis, it is the same size as the free-living bacteria. It has the largest number of pseudogenes, products with no function, of any bacteria to date, again indicating its recent transition to a symbiotic lifestyle.

"If we get rid of these symbiotic bacteria, the flies become sterile, so understanding what they provide to the flies is very important from a vector control point of view," Aksoy said. "The sequence will be extremely helpful and will expand functional studies. We have increased understanding of how Sodalis transitions from a free-living to a symbiotic state."

Other authors on the study included Hidehiro Toh, Brian L. Weiss, Sarah Perkin, Atsushi Yamashita, Kenshiro Oshima and Masahira Hattori.

Citation: Genome Research, Published online December 15, 2005
Print Publication: February 2006.

Adapted from materials provided by Yale University.




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Daily Science Journal (Aug. 9, 2007) — The longstanding idea that the entire human face ages uniformly is in need of a facelift, say researchers at UT Southwestern Medical Center who have found that multiple, distinct compartments of fat in the face age at different rates.

Drs. Rod Rohrich (right) and Joel Pessa have discovered that the human face is made up of individual fat compartments that gain and lose fat at different times and different rates as people age. Facial aging is, in part, characterized by how these separate compartments change as we grow older. (Credit: UT Southwestern Medical Center)

The findings, published in a recent issue of Plastic and Reconstructive Surgery, challenge previously held theories regarding aging and may offer new ways to help turn back the clock, UT Southwestern plastic surgeons say.


"For hundreds of years, everyone has believed that the fat on the face is one confluent mass, which eventually gets weighed down by gravity, creating sagging skin," said Dr. Joel Pessa, assistant professor of plastic surgery and the study's lead author. "In our studies, however, we were surprised to find that this is not the case; the face is made up of individual fat compartments that gain and lose fat at different times and different rates as we age."

The study involved injecting different types of dye into facial cavities of 30 cadavers. Despite at least 24 hours of settling time, the dye, rather than permeating the entire face, stayed in separate areas -- showing that individual facial compartments have boundaries between them that act like fences. These fences, which seem to be composed of fibrous tissue, allow the face to maintain its blood supply should it become injured.

Dr. Pessa said the face resembles a three-dimensional puzzle, with fat divided into distinct units around the forehead, eyes, cheeks and mouth. Facial aging is, in part, characterized by how these separate compartments change as we grow older.

A youthful face is characterized by a smooth transition between these compartments. As people age, contour changes occur between these regions due to volume losses and gains as well as repositioning of the compartments. Eventually, this can result in sagging or hollowed skin and wrinkles.

"This is a revolutionary way of viewing facial anatomy. It not only tells us how we age, it shows us why we age the way we do, and why every part of the face, from the eyelids to the cheeks, ages differently," said Dr. Rod Rohrich, chairman of plastic surgery and senior author of the study. "This will help plastic surgeons around the world not only understand how we can better rejuvenate the face, but how people age as a physiological process."

This breakthrough could have tremendous implications in helping plastic surgeons target facial "trouble" areas and use injectible fillers to add volume to individual sections of the face. It could also aid in developing new and improved cosmetic and reconstructive surgery techniques, Dr. Rohrich said.

"Understanding how fat is compartmentalized will allow us to be very accurate and precise in how we approach facial rejuvenation," Dr. Pessa said. "This gives us an algorithm, or scientific approach, to help ascertain what areas of the face may need extra fat to combat the aging process. It also is a major breakthrough in facial anatomy that will have major implications for future studies on aging and possibly hold clues to the study of other diseases such as obesity, diabetes and cancer."

Adapted from materials provided by UT Southwestern Medical Center, via EurekAlert!, a service of AAAS.



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Daily Science Journal (Aug. 7, 2007) — Green tea could hold promise as a new treatment for skin disorders such as psoriasis and dandruff, Medical College of Georgia researchers say.

Dr Hsu says, "There are no cures for autoimmune diseases. But it is possible that this is a non-toxic way to regulate them. We need further study -- on humans -- to determine the full effects." (Credit: Medical College of Georgia)

Researchers studied an animal model for inflammatory skin diseases, which are often characterized by patches of dry, red, flaky skin caused by the inflammation and overproduction of skin cells. Those treated with green tea showed slower growth of skin cells and the presence of a gene that regulates the cells' life cycles.

"Psoriasis, an autoimmune disease, causes the skin to become thicker because the growth of skin cells is out of control," says Dr. Stephen Hsu, an oral biologist in the MCG School of Dentistry and lead investigator on the study published in the Aug. 18 edition of Experimental Dermatology. "In psoriasis, immune cells, which usually protect against infection, instead trigger the release of cytokines, which causes inflammation and the overproduction of skin cells."


Other autoimmune diseases with similar side effects include lupus, which can lead to skin lesions, and dandruff.

Green tea, already shown to suppress inflammation, helps by regulating the expression of Caspase-14, a protein in genes that regulates the life cycle of a skin cell.

"That marker guides cells by telling them when to differentiate, die off and form a skin barrier," Dr. Hsu says. "In people with psoriasis, that process is interrupted and the skin cells don't die before more are created and the resulting lesions form."

Animal models treated with green tea also showed reduced levels of proliferating cell nuclear antigen, a gene expressed when skin cells multiply. In psoriasis, the gene is over-expressed and speeds production of skin cells.

"Before treatment, the antigen, PCNA, was present in all layers of the skin," Dr. Hsu says. "Typically, PCNA is only found in the basal layer, the innermost layer where skin cells continually divide and new cells push the older ones to the skin surface, where they eventually slough off. After being treated with green tea, the animal models showed near-normal levels of PCNA in only the basal layers."

This research is important because some treatments for psoriasis and dandruff can have dangerous side effects, he says.

"The traditional treatment of ultraviolet light and medication, while it can control the lesions and be used long term, may cause squamous cell carcinoma – the second most common form of skin cancer," Dr. Hsu says. "Some of the most effective anti-dandruff shampoos also have carcinogens in them. While the U.S. Food and Drug Administration allows that in small amounts, the bottom line is that we don't know the long-term effects of using those products continuously."

Green tea, which is plant-derived, may be an alternative, he says. But scientists must work to overcome some barriers with the treatment.

The chemicals in green tea are so active that they are oxidized too quickly when mixed with other ingredients. They also dissolve in water, which cannot penetrate the skin's barrier.

Researchers are looking for a balanced formula that can dissolve in fats, which can permeate the skin, Dr. Hsu says.

Adapted from materials provided by Medical College of Georgia.

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Tea Extracts Help Treat Damaged Skin In Cancer Patients

Tea extracts work as an effective treatment for patients who suffer from damaged skin following radiation treatment for cancer. Researchers show that this might partly be due to the anti-inflammatory properties of tea.

In a study published in the open access journal BMC Medicine, researchers show that tea acts at the cellular level, by inhibiting inflammatory pathways, to reduce inflammation. They also show that tea extracts reduce the duration of radiation-induced skin damage by up to 10 days in patients who received radiation treatment.

Frank Pajonk, from the University of California in Los Angeles, USA, and colleagues from the University of Freiburg, Germany, studied the effects of green tea and black tea extracts on patients who had been treated with radiotherapy, which can damage the skin. The authors then analysed the effects of the same tea extracts on human and mouse white blood cells in culture.

Pajonk et al. find that tea extracts reduce the duration of skin toxicity following radiotherapy by 5 to 10 days. Green tea extracts are more effective than black tea extracts in some patients. Pajonk et al. also show that tea extracts reduce the release of pro-inflammatory cytokines, such as IL-1beta, IL-6, IL-8, TNFalpha and PGE2, in human white blood cells in culture, with green tea having higher anti-inflammatory properties than black tea. Both black tea and green tea inhibit one major inflammatory pathway in mouse white blood cells.

Pajonk et al. add that tea's high content of polyphenols is likely to be responsible for its high anti-inflammatory activity, but that other pathways are probably involved in its clinical effectiveness.

Adapted from materials provided by BioMed Central, via EurekAlert!, a service of AAAS.




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Daily Science Journal (Aug. 5, 2007) — Trying to remember dozens of personal identification numbers (PIN), passwords and credit card numbers may not be necessary for much longer, thanks to a University of Houston professor and his team.

Taking a radically new approach, UH Eckhard Pfeiffer Professor Ioannis Kakadiaris and his Computational Biomedicine Lab (CBL) developed the URxD face recognition software that uses a three-dimensional snapshot of a person’s face to create a unique identifier, a biometric. Shown in government testing to be tops in its field, URxD can be used for everything from gaining access to secure facilities to authorizing credit card purchases. The identification procedure is as effortless as taking a photograph.

URxD leads the pack for 3D face recognition solutions based on the face’s shape, according to the results of the Face Recognition Vendor Test (FRVT 2006). The National Institute of Standards and Technology conducted the rigorous testing for FRVT 2006, which was sponsored by several U.S. government agencies. FRVT 2006 is the first independent performance benchmark for 3-D face recognition technology.


“Accuracy is the name of the game in 3-D face recognition,” Kakadiaris said. “What makes our system so accurate is the strength of the variables that we use to describe a person’s face.

“Remembering dozens of personal identification numbers and passwords is not the solution to identity theft. PINs and passwords are not only inconvenient to memorize, but also are impractical to safeguard. In essence, they merely tie two pieces of information together; once the secret is compromised, the rest follows. The solution is to be able to tie your private information to your person in a way that cannot be compromised.”

The software and technology also could play a role in national security.

“With the growing concern for security at the personal, national and international level, the University of Houston is pleased that Dr. Kakadiaris and his team have demonstrated a very promising technology for personal identification,” said John Warren, UH associate general counsel for research and intellectual property management. “We look forward to its adoption by government and industry.”

URxD inventors are hoping for corporate interest in bringing the technology, now at the advanced prototype stage, to the marketplace.

“This technology will have a positive impact on some of today’s hottest issues,” Kakadiaris said. “Imagine a day when you simply sit in front of your computer, and it recognizes who you are. Everything will be both easier and more secure, from online purchases to parental control of what Web sites your children can visit.”

Note: Use of results from the Facial Recognition Vendor Test 2006 does not constitute the U.S. government’s endorsement of any particular system.

Adapted from materials provided by University of Houston.




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Daily Science Journal (Aug. 04, 2007) — Recent findings that the widely-used herbal supplement Saint John's wort could dramatically affect the absorption and metabolism of many prescription and non-prescription drugs raised concerns that other popular herbal supplements might cause similar changes, thus significantly altering drugs' therapeutic or toxic effects. What, for example, about ginseng and ginkgo biloba, two of the most widely used herbal supplements in this and other countries?

Speaking on May 1 at Experimental Biology 2007, University of Kansas Medical Center scientist Dr. Gregory Reed reports a study that found daily use of ginseng or ginkgo biloba supplements at the recommended doses, or the combination of both supplements, are unlikely to alter the pharmacokinetics - by which drugs are absorbed, distributed, metabolized, and eliminated by the body - of the majority of prescription or over-the counter drugs. Dr. Reed's presentation was part of the scientific program of the American Society for Pharmacology and Experimental Therapeutics.


The research team, led by Dr. Reed and the late Dr. Aryeh Hurwitz, recruited 72 healthy non-smoking adults (31 men and 41 women, ages 20 to 59) who were not taking any prescription drugs or dietary supplements. The participants were given a "cocktail" of five drugs, each drug in the cocktail chosen because it provides a measure of the activity of a key drug metabolism pathway. Taken together, the five drugs in the cocktail provide measurements of the pathways that determine the pharmacokinetics of over 90 percent of prescription drugs. The scientists then measured the presence of these drugs or their metabolites in each subject's blood and urine in order to establish a baseline for how each individual absorbed and metabolized the different prescription drugs in the absence of herbal supplements.

The 72 individuals next were randomly assigned to one of four groups. For four weeks, the first group received a ginseng supplement and a placebo for ginkgo biloba; the second received ginkgo biloba and a placebo for ginseng; the third received both ginseng and ginkgo biloba supplements; and the fourth received placebos for both supplements. The prescription drug cocktail was again administered and blood and urine samples taken in order to determine the absorption and metabolism of these drugs in the presence of either or both of the herbal supplements.

The scientists found no significant differences between those who received one, both, or none of the ginseng and ginkgo biloba supplements in how their bodies absorbed or metabolized any of the five prescription drugs. This suggests, says Dr. Reed, that neither ginseng nor ginkgo biloba will affect the pharmacokinetics of the majority of prescription or over-the counter drugs. He does note, however, that the team did not investigate any possible effects of the herbal supplements on pharmacodynamic interactions: the way drugs produce desired therapeutic effects or cause adverse side effects. The possibility of these pharmacodynamic, as opposed to pharmacokinetic, interactions remains to be investigated.

Studies in Dr. Reed's laboratory continue with an examination of the effects of Saint John's wort on pharmacokinetics of prescription and non prescription drugs and the role of an individual's genetic makeup in determining the magnitude of the herbal supplement's effects. This work was supported by the National Center for Complementary and Alternative Medicine of the National Institutes of Health.

Adapted from materials provided by Federation of American Societies for Experimental Biology, via EurekAlert!, a service of AAAS.



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Daily Science Journal (Aug. 2, 2007) — The High Resolution Stereo Camera (HRSC) on board ESA’s Mars Express obtained images of the Tyrrhena Terra region on Mars.

Tyrrhena Terra, perspective view. (Credit: ESA/DLR/FU Berlin (G. Neukum))

On 10 May 2007, the pictures of the region located at 18° South and 99° East were taken during orbit number 4294 with a ground resolution of approximately 15 metres per pixel.

Tyrrhena Terra is part of the ancient, heavily cratered southern Martian highlands. The region is located north of Hellas Planitia, the largest impact basin on Mars. The image scene exhibits three impact craters, located at the eastern border of Tyrrhena Terra with Hesperia Planum.


The western part of the scene is dominated by a 35 kilometre-wide and approximately 1000 metre-deep impact crater with an extremely steep rim. The rim rises up to 400 metres above the surrounding plains.

The crater is surrounded by multiple layers of material ejected during the impact. These so called ‘ejecta blankets’ spread up to a distance of 50 kilometres around the crater.

Their round, lobate appearance hints at possible ice- and water-rich subsurface material.

The raised feature in the centre of the crater most likely originated from the elastic rebound of compressed subsurface material after the impact. This feature is called 'central peak' or 'central uplift'. This is comparable to what happens when a drop of water hits a puddle.

Another, 18 kilometre-long and approximately 750 metre-deep impact crater, in all likelihood a ‘double impact crater’, is located south of the large crater.

These ‘double impact craters’ develop when two objects, possibly part of the same fragmented object, hit the surface almost simultaneously.

The impact that formed the larger northern crater, which displays an intact crater wall, occurred after the double-impact crater was formed. The ejecta from this later impact has reshaped the double-impact crater.

The northern part has been filled by ejecta and the material is present even at the bottom of the crater, in the direction of the point of impact (towards the larger, neighbouring crater).

The colour scenes have been derived from the three HRSC colour channels and the nadir channel. The perspective views have been calculated from the Digital Terrain Model derived from the HRSC stereo channels. The anaglyph images were calculated by putting together data from the nadir channel and one stereo channel. The black and white high-resolution images were derived from the nadir channel which provides the highest level of detail.

Adapted from materials provided by European Space Agency.

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Water Ice In Crater At Martian North Pole

New images, taken by the High Resolution Stereo Camera (HRSC) on board ESA’s Mars Express spacecraft, show a patch of water ice sitting on the floor of an unnamed crater near the Martian north pole.

Perspective view of crater with water ice - looking east. (Credits: ESA/DLR/FU Berlin (G. Neukum))


The HRSC obtained these images during orbit 1343 with a ground resolution of approximately 15 metres per pixel. The unnamed impact crater is located on Vastitas Borealis, a broad plain that covers much of Mars's far northern latitudes, at approximately 70.5° North and 103° East.

The crater is 35 kilometres wide and has a maximum depth of approximately 2 kilometres beneath the crater rim. The circular patch of bright material located at the centre of the crater is residual water ice.

This white patch is present all year round, as the temperature and pressure are not high enough to allow sublimation of water ice.

It cannot be frozen carbon dioxide since carbon dioxide ice had already disappeared from the north polar cap at the time the image was taken (late summer in the Martian northern hemisphere).

There is a height difference of 200 metres between the crater floor and the surface of this bright material, which cannot be attributed solely to water ice.

It is probably mostly due to a large dune field lying beneath this ice layer. Indeed, some of these dunes are exposed at the easternmost edge of the ice.

Faint traces of water ice are also visible along the rim of the crater and on the crater walls. The absence of ice along the north-west rim and walls may occur because this area receives more sunlight due to the Sun’s orientation, as highlighted in the perspective view.

The colour images were processed using the HRSC nadir (vertical view) and three colour channels. The perspective views were calculated from the digital terrain model derived from the stereo channels.

The 3D anaglyph images were created from the nadir channel and one of the stereo channels. Stereoscopic glasses are needed to view the 3D images Image resolution has been decreased for use on the internet.

Adapted from materials provided by European Space Agency.



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