First World War soldier identified by DNA laid to rest, 94 years on

April 23, 2010 By Leave a Comment

London, April 22 (ANI): A World War I hero, whose body was found in an unmarked grave, has finally received an honourable burial after his great-nephew’s DNA was used to identify him.

Private Harry Dibben, 33, died at the battle of Fromelles, France, in 1916, when he was shot in the chest during an attack on a German trench.

Although his death was confirmed after the Germans sent his identity tags to London, his body was not recovered.

Then in 2007, archaeologists found the remains of 250 unidentified soldiers from an unmarked grave in Fromelles.

Private Dibben’s great-nephew Richard Dibben, who was researching his family’s history, came to know of the exhumation and realised great-uncle Harry, who was a part of the 14th brigade of the 5th division of the Australian Imperial Force, could be among the unidentified soldiers.

Thereafter, Richard, 58, of Marnhull, Dorset, contacted the Australian Army, which sent him a DNA swab kit.

And after Richard provided his DNA the result confirmed that Harry was one of the unknown men.

Now Private Dibben – who emigrated to Australia in 1912 and enlisted with the army in 1915 – has been buried in a marked grave in a new cemetery in Fromelles, beside 75 other soldiers.

“It is all rather poignant. At last my great-uncle Harry will have formal recognition of his death and there will be a grave to visit,” the Daily Express quoted Richard, as saying. (ANI)

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Second Moscow bomber identified by father

April 5, 2010 By Leave a Comment

The second suicide bomber who blew up the Moscow Metro last week has been identified by a Daghestan-based man as his 28-year-old missing daughter, but police is yet to verify the claim.

A resident of Russia’s Daghestan region, Rasul Magomedov said he identified his missing 28-year-old daughter Mariyam Sharipova from the pictures of the suicide bombers circulated around after the bombing.

Magomedov, who is a resident of Balakhani hamlet in the republic of Daghestan, said his daughter, a graduate of Psychology, was a school teacher in the village and was living with her parents.

The parents last saw her the day before the Moscow attacks, ‘Novaya Gazeta’ reported today.

“Three of us my wife, my daughter and I had gone to Makhachkala (capital of Daghestan) for shopping. Daughter said she will go to meet her friend.

“Later she called us on mobile that she is returning home on her own. That’s the last time we have heard from her,” Rasul Magomedov told the daily.

The police have taken DNA samples of the parents of Mariyam, but they are yet to verify the claim.

The media said there was scope of mistake on the part of the parents since it was difficult to identify on a photo of head sent to them on cell phone.

Meanwhile, “Kommersant” daily underscored that every minute of suicide bombers’ travel to Moscow by bus has been ‘well documented’ by the investigation and it was impossible for Mariyam to reach by bus.

The father insists that his daughter was not linked to Islamist radicals, although she was of religious nature.

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Man jumps from moving car to avoid his ex

March 24, 2010 By Leave a Comment

A 25-year-old man is in hospital this morning after jumping out of a moving car in Darwin’s CBD to escape an argument he was having with his ex-girlfriend.

Police received a report that a man had been run over on Daly Street just before 5pm yesterday.

They arrived to find the man lying on the road but he soon told them he had jumped out.

The car was going about twenty kilometres an hour at the time.

Police say his 19-year-old ex-girlfriend was driving while disqualified.

The man received minor injuries and is being kept in hospital for observation.

Meanwhile, police are appealing for help to find a group of teenagers seen running away from a car on fire in Wagaman early this morning.

Police and fire services were called to the corner of Malay Road and Tasman Circuit at about 2am where a fire had been started in the back seat of the stolen car.

Duty Superintendent Mike Murphy says a resident used his garden hose to put out the fire which preserved the scene for investigators.

“We’ve seized that vehicle and our forensic team will conduct an analysis of that vehicle and get some DNA at some time,” he said.

“So anyone who may have heard or seen any youths running in the area around Wagaman this morning, if they could please call us on Crime Stoppers that would help us in any identification.”

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Demi Moore beats Kevin Bacon, wins £156,250 prize for anti sex-slave charity

March 5, 2010 By Leave a Comment

London, Mar 5 (ANI): Demi Moore beat Kevin Bacon in an online contest called ”Pepsi Refresh Celebrity Challenge”, to bag 156,250 pounds for her anti-sex slave charity.

The cash has gone to ”The DNA Foundation”, founded by Moore and husband Ashton Kutcher.

”The Ghost” star received the most public votes in the poll.

Moore”s foundation plans to forward the prize money to the Girls Educational & Mentoring Services (GEMS), which helps women who have suffered sexual exploitation and domestic trafficking.

“I am thrilled that GEMS has gained powerful allies in Demi Moore and The DNA Foundation and honoured to be the beneficiary of a Pepsi Refresh Grant,” the Daily Star quoted GEMS founder/Executive Director Rachel Lloyd, as saying.

He added: “The grant will support us in the important work of transforming survivors of domestic trafficking and commercial sexual exploitation into future leaders.”

Meanwhile, Bacon”s charity ”SixDegrees.org”, which is presently helping Haiti earthquake victims, will receive a 62,500-pound grant. (ANI)

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Now, ‘Australian Fritzl’ who raped daughter, fathered four kids emerges

September 17, 2009 By Leave a Comment

Melbourne, September 17 (ANI): Lisa Neville, Australian Community Services Minister, has come under fire after huge number of bungling in the child protection services emerged, including a sex horror case of a man accused of fathering four children with his daughter.

Neville is expected to be faced with calls to resign after revelations of failed attempts by Victoria’s Department of Human Services (DHS) to conduct proper background checks on a known sexual predator before letting a child into his care.

The accused is said to have caged his daughter as a virtual prisoner, raping her almost daily from when she was 11 years old, reports the Herald Sun.

All the four kids bore by the woman, who is now under the care of authorities in a safe house, had health problems when delivered in major hospitals in Melbourne. One of the kids died soon after birth.

Their birth certificates do not hold the name of their fathers, prompting alarms as to why questions were not asked at the time.

The man denied the allegations, but was charged after DNA tests allegedly proved he was the father of her children. He is due to appear in court in November.

Comparisons have been drawn between the case and that of Josef Fritzl, the Austrian man who held his daughter as a sex slave for 24 years and fathered seven children with her.

Minister Lisa Neville told ABC Radio: “I was extremely appalled to see the allegations.”

“They are only allegations and are before the courts at the moment and we need to be very careful about how much detail we go into,” Neville said.

“I became aware of this from the media today and I don’t know what, or if, (there has been) any involvement of the police, the department or other agencies … over the past 30 years.

“This will be a priority to look into,” she added. (ANI)

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Gene linked to male infertility identified

September 17, 2009 By Leave a Comment

Washington, Sept 16 (ANI): Scientists from Virginia Commonwealth University have identified a gene that may contribute to male infertility.

The research team hopes that the new findings would lead to new approaches to male contraception.

Sperm are produced in the testicles through a three-step process called spermatogenesis.

During the final stage, known as spermiogenesis, a lot of changes take place, including the packaging of DNA into the sperm head and the formation of the sperm tail, which propels the sperm cell toward the egg.

The study conducted using mouse model showed that mice lacking a protein called meiosis expressed gene 1, or MEIG1, were sterile as a result of impaired spermiogenesis – the process that encompasses changes in the sperm head and the formation of the tail.

The team also found that MEIG1 associates with the Parkin co-regulated gene protein, or PACRG protein, and that testicular PACRG protein is reduced in MEIG1-deficient mice.

PACRG is thought to play a key role in assembly of the sperm tail, and the reproductive phenotype of PACRG -deficient mice mirrors that of the MEIG1-mutant mice.

“We discovered that MEIG1 is essential for male fertility. Moreover, our findings reveal a critical role for the MEIG1/PACRG partnership in the function of a structure that is unique to sperm, the manchette. The absence of a normal manchette in mice lacking MEIG1 totally disrupts the maturation process of sperm,” said Dr Jerome F. Strauss III, dean in the VCU School of Medicine.

“In addition to having an impact on fertility, the discovery identifies a new target for drug discovery for a much needed reversible male method of contraception,” he added.

The study is published in the Early Edition of the Proceedings of the National Academy of Sciences. (ANI)

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Hitler’s 39 relatives discovered in Austria, US

September 15, 2009 By Leave a Comment

London, Sept 15 (ANI): Two Belgian ‘Hitler-hunters’ claim to have traced 39 relatives of the Fuhrer in Austria and the US.

Journalist Jean-Paul Mulders and historian Marc Vermeeren say that they pinned down on Hitler’s kin by matching the DNA of the Nazi leader to discarded cigarette butts in an Austrian village, a used paper napkin from a New York restaurant, and letters sent from France three decades ago.

Mulders and Vermeeren claim to have tracked down Louis, Brian and Alexander Stuart-Houston in Long Island, New York, and say that the three brothers are great-grandsons of Hitler’s father Alois.

They also say the brothers have taken an oath to never have children, and produce Hitler’s progeny.ccording to the duo, more relatives of the Nazi leader live in Austria’s Waldviertel region, which is near Braunau am Inn, where Hitler was born.

The Daily Express quoted Mulders as saying: “They live under new names which slightly differ from Hitler, such as Hietler, Hiedler or Huetler. Most of them probably don’t know of their relationship.” (ANI)

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Meera’s DNA test demanded by alleged hubby Attiqur Rehman

September 12, 2009 By Leave a Comment

Islamabad, September 11 (ANI): Lollywood actress Meera’s alleged husband Attiqur Rehman is demanding that DNA tests be conducted on her to prove his claim.

He told a private TV channel that he wanted to “disclose the truth”.

“Why does she not go to the court if the nikkahnama is fake. A DNA test of Meera should be carried out and it will disclose the truth. The medical tests should be prescribed and they will disclose when the abortion took place,” the Daily Times quoted him as saying.

Rehman said that he would move the court to assert his conjugal rights. (ANI)

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Vitamin C can help protect DNA damage of skin cells

September 10, 2009 By Leave a Comment

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

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

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

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

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

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

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

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

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

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

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

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

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Three genes linked to Lou Gehrig’s disease identified

September 10, 2009 By Leave a Comment

Washington, Sep 10 (ANI): Researchers at Michigan Technological University have identified three genes that play a major role in the most common type of amyotrophic lateral sclerosis (ALS), generally known as Lou Gehrig’s disease.

The team of mathematicians, led by Shuanglin Zhang, isolated the genes from the many thousands scattered throughout human DNA.

Zhang noted that the discovery does not mean an end to ALS, but it could provide scientists with valuable clues as they search for a cure.

“I felt very urgent to find the genes for ALS,” Zhang said.

“This is very nice work. It’s very challenging to map genes for complex diseases, and while many statistical methods have been developed, most don’t work well in practice. Zhang’s group has developed a method to detect genes and gene-gene interaction in complex diseases and provided evidence that it works,” said Xiaofeng Zhu, an associate professor of epidemiology at Case Western Reserve University’s School of Medicine.

“Their findings will need to be confirmed by other researchers, but I think this will be very useful for the investigators who are trying to find genes underlying complex diseases such as ALS,” said Zhu.

According to the ALS Association, only about 10 percent of patients have familial ALS, a directly inherited form of the usually fatal neuromuscular disorder, while the remaining 90 percent are diagnosed with the sporadic form of the disease.

While everyone has the three genes in question, but in people with sporadic ALS, they differ from those in people who don’t have ALS.

The mathematicians were not surprised when they tracked down the location of the genes.

“Everybody has 23 chromosomes, and the three genes on chromosomes 2, 4, and 10 interact. If you have this combination of the three genes, you are at high risk of developing the disease. It’s really exciting, especially because my husband has sporadic ALS. Maybe they can find a cure by blocking the genes,” explained Zhang’s wife Qiuying Sha.

ALS destroys the nerves in the brain and spinal cord that control voluntary movement, eventually leading to paralysis.

Zhang’s team used a new statistical method to analyse the genetic codes of 547 individuals, 276 with sporadic ALS and 271 without.

The method, a two-locus interaction analysis approach, allows the researchers to identify multiple genes associated with a complex illness.

The data set they analyzed was provided by National Institute of Neurological Disorders and Stroke (NINDS) Human Genetics Resource Center at the Coriell Institute, a publicly funded “bank” or repository for human cells, DNA samples, clinical data, and other information that aims to accelerate research on the genetics of nervous system disorders.

The study has been published in the open access journal BMC Medical Genetics. (ANI)

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Kelly Osbourne blames her DNA for drug addiction

September 10, 2009 By Leave a Comment

Washington, Sept 10 (ANI): ‘Dancing with the Stars’ contestant Kelly Osbourne has blamed her genes for her drug addiction.

Kelly’s father, rockstar Ozzy Osbourne, has had a long struggle with drugs, which makes her believe her DNA was pre-programmed to make her an addict.

Contactmusic quoted Kelly as telling BBC Radio 5 Live: “I don’t have any shadow of a doubt that addiction is a disease. It is in your genes.

“The only people in my family who don’t have that gene are my mother and my sister Amy.

“I consider myself lucky that I saw both sides of it. Drugs stop you from screaming on the outside, but you are still screaming on the inside.

“I was addicted by 16. Drugs stopped me from feeling a certain way. Some people experience euphoria but I never felt that. They numbed me and gave me confidence.

It was like a magic medicine.”

The 24-year-old Kelly has been in rehab four times and is presently drug free. (ANI)

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Novel biosensor can detect typhoid bacteria instantly

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): Scientists from Rovira i Virgili University (URV) in Tarragona have come up with a novel biosensor that can instantly detect Salmonella typhi, the bacteria that causes typhoid fever.

The technique uses carbon nanotubes and synthetic DNA fragments that activate an electric signal when they link up with the pathogen.

“We have developed a new biosensor that can detect extremely low concentrations of bacteria immediately, easily and reliably”, F. Xavier Rius, lead author of the study and a professor in the Chemometrics, Qualimetrics and Nanosensors research group in the Analytical Chemistry and Organic Chemistry Department of the URV, told SINC.

The new biosensor functions using a method, which involves carbon nanotubes with inbuilt aptamers providing electrochemical readings.

According to the researchers, the aptamers are small fragments of artificial DNA or RNA designed to attach themselves specifically to a particular molecule, cell or micro organism, in this case Salmonella.

If the bacteria are not present, the aptamers remain on the walls of the carbon nanotubes.

However, if they detect bacteria, they become activated and stick to it, and the carbon nanotubes generate an electric signal that is picked up by a simple potentiometer connected to the biosensor.

“The presence of the bacteria sparks a change in the interaction between the aptamers and the nanotubes, which takes place in a few seconds and creates an increase in the voltage of the electrode”, said Ruis, who led the research along with researcher Jordi Riu.

“This technique means small quantities of micro organisms can be detected simply and practically in real time, just the same as measuring the pH of water”, Ruis added.

The study appears in the scientific journal Angewandte Chemie International Edition. (ANI)

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How females control sperm storage to pick the best dad

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): University of Exeter researchers have found new evidence to explain how female insects can influence the father of their offspring, even after mating with up to ten males.

In the study, boffins found that female crickets are able to control the amount of sperm that they store from each mate to select the best father for their young.

According to researchers, the females may be using their abdominal muscles to control the amount of sperm stored from each mate.

The study has been published in the journal Molecular Ecology.

Female crickets mate with several different males, including their closest relatives. In general, offspring produced with close relatives are more likely to have genetic disorders.

Different animals employ a range of behaviours to avoid this, such as not mating other animals from the group they grow up in. Crickets do not avoid mating with relatives, but this research shows that they produce more offspring fathered by males that are unrelated to them.

In order to reach the conclusion, researchers bred field crickets in the laboratory. They used new DNA-based techniques to determine the quantity stored by each the female. hey found that the females stored a higher content of sperm from unrelated males. They then tested young crickets to determine their paternity.

The results showed that, regardless of the order in which they had mated, an unrelated mate was more likely to become a father. This must have been under female control, because the methods the team used meant that males could not influence the amount of sperm they passed to the female.

Though the study focused on field crickets, the findings are likely to be relevant in other insect species and possibly other sections of the animal kingdom.

Lead author Dr Amanda Bretman of the University of Exeter said: “Our study shows that even after mating, female insects control who fathers their offspring. We’re only really just beginning to understand the reasons for the different mating strategies in the insect world and that is thanks to new techniques.” (ANI)

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

September 8, 2009 By Leave a Comment

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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Europe’s first farmers were migrants who settled about 7,500 years ago

September 4, 2009 By Leave a Comment

Washington, September 4 (ANI): The analysis of ancient DNA from skeletons suggests that Europe’s first farmers were not the descendants of Stone Age hunter-gatherers in the region, but were probably migrants who came into major areas of central and eastern Europe about 7,500 years ago, bringing domesticated plants and animals with them.

The research involved the analysis of DNA from hunter-gatherer and early farmer burials, and compared those to each other and to the DNA of modern Europeans.

They conclude that there is little evidence of a direct genetic link between the hunter-gatherers and the early farmers, and 82 percent of the types of mtDNA found in the hunter-gatherers are relatively rare in central Europeans today.

The team from Mainz University in Germany, together with researchers from UCL (University College London) and Cambridge, found that the first farmers in central and northern Europe could not have been the descendents of the hunter-gatherers that came before them.

Humans arrived in Europe 45,000 years ago and replaced the Neandertals. From that period on, European hunter-gatherers experienced lots of climatic changes, including the last Ice Age.

After the end of the Ice Age, some 11,000 years ago, the hunter-gatherer lifestyle survived for a couple of thousand years but was then gradually replaced by agriculture.

The question was whether this change in lifestyle from hunter-gatherer to farmer was brought to Europe by new people, or whether only the idea of farming spread.

The new results from the Mainz-led team seem to solve much of this long-standing debate.

“Our analysis shows that there is no direct continuity between hunter-gatherers and farmers in Central Europe,” said Prof Joachim Burger. “As the hunter-gatherers were there first, the farmers must have immigrated into the area,” he added.

The study identifies the Carpathian Basin as the origin for early Central European farmers.

“It seems that farmers of the Linearbandkeramik culture immigrated from what is modern day Hungary around 7,500 years ago into Central Europe, initially without mixing with local hunter gatherers,” said Barbara Bramanti, first author of the study.

The new study confirms what Joachim Burger’s team showed in 2005; that the first farmers were not the direct ancestors of modern European.

According to Burger, “We are still searching for those remaining components of modern European ancestry. European hunter-gatherers and early farmers alone are not enough. But new ancient DNA data from later periods in European prehistory may shed also light on this in the future.” (ANI)

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MI5 spent over 10 yrs in fruitless hunt for Nazi Martin Bormann

September 1, 2009 By Leave a Comment

London, Sept 1 (ANI): British agents spent more than 10 years in the fruitless hunt for Adolf Hitler’s trusted private secretary, Martin Bormann, following false reports that he survived the war, secret intelligence files have revealed.

Bormann’s whereabouts was one of the biggest mysteries after the Second World War, reports Times Online.

MI5 believed that he died trying to escape the Reich Chancellery in Berlin after Hitler committed suicide in April 1945.

However, no remains were found until 1972 and rumours persisted for years that Fuhrer’s private secretary was still alive.

The senior Nazi, who was also head of the Party Chancellery, was sentenced to death in absentia at the Nuremberg trials in 1946.

The files show how intelligence chiefs were bombarded with alleged sightings of Bormann for years afterwards.

Among the places where he was allegedly spotted were various towns in Switzerland, a Franciscan monastery in Italy and even a mountainside in Brazil.

One man who approached the British Embassy in Paris in 1947 even claimed that Hitler was alive and living with monks in Tibet.

Documents and memos from the security services, released by The National Archives, trace the Bormann trail until 1958, with members of MI5 pouring scorn on increasingly unlikely sightings and press reports.

Possible hideouts also included the Middle East and Russia, where he was said to have defected.

Bormann’s remains were, however, cremated in 1999, a year after DNA tests finally convinced doubters that he had died more than five decades earlier. (ANI)

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Scientists imitate viruses to deliver therapeutic genes

September 1, 2009 By Leave a Comment

Washington, September 1 (ANI): Australian scientists have developed a new gene therapy vector that uses the same machinery as viruses to transport their cargo into cells.

David Jans, from the Nuclear Signaling Laboratory at Monash University in Victoria, says that this achievement has raised the hope that one day therapeutic DNA will begin to be transferred to a cell’s nucleus far more efficiently than in the past, and thus there will be more effective treatments for several genetic disorders and some types of cancers.

“Through the use of proteins that mimic key functions of viruses for the packaging and transport of therapeutic DNA, we hope to improve the efficiency, and above all, the specificity of human gene therapy,” he said.

“Following the creation of efficient, specific and safe DNA delivery vectors, the challenges in human gene therapy will be able to move on from questions of delivery to actual clinical application,” he added.

A gene therapy vector is used to deliver a therapeutic gene or a portion of DNA into a cell nucleus similar to how a syringe is used to inject medicines.

To create the new gene therapy vector, Jans and his colleagues used pieces of different genes to create a protein called a “modular DNA carrier”, which can be produced by bacteria.

Writing about their work in The FASEB Journal, the researchers have revealed that this protein carries and delivers therapeutic DNA to a cell’s nucleus, where it reprograms a cell to function properly.

While experimenting in their laboratory, the research team combined these carrier proteins with therapeutic DNA, and attached them to cell membrane receptors and the nuclear import machinery of target cells.

In turn, according to the researchers, the packaged DNA moved into the cell through the cytoplasm and into the nucleus.

“Effective gene therapy is clearly the best way to treat heritable diseases. It’s also an approach to other diseases where the environment or infection messes up our genes.” said Dr. Gerald Weissmann, the Editor-in-Chief of The FASEB Journal.

“The Australians have worked out how viruses identify our nuclear ZIP-code, and have delivered therapeutic genes to the same address. This work opens up a new era of pharmaceutical development,” Dr. Weissmann added. (ANI)

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New ultrasensitive electronic sensor to speed up DNA testing (corrected)

September 1, 2009 By Leave a Comment

Washington, Sept 1 (ANI): Singapore scientists have developed a new ultrasensitive electronic sensor that would speed up DNA testing for disease diagnosis and biological research.

The novel electronic sensor array would be rapid, accurate and cost-efficient.

According to lead researcher Dr Zhiqiang Gao, from Singapore’s Institute of Bioengineering and Nanotechnology (IBN), the Nanogap Sensor Array has shown “excellent” sensitivity at detecting trace amounts of DNA.

“By saving time and lowering expenses, our newly developed Nanogap Sensor Array offers a scalable and viable alternative for DNA testing,” said Gao.

The biosensor translates the presence of DNA into an electrical signal for computer analysis.

The distinctively designed sensor chip has the ability to detect DNA more efficiently by “sandwiching” the DNA strands between the two different surfaces.

“The novel vertical nanostructure design and two different surfaces of the sensor allow ultrasensitive detection of DNA,” said Gao.

“This sensitivity is best-in-class among electrical DNA biosensors. The design of the sensor also took into consideration the feasibility of mass production in a cost-effective way for expanded usage,” the expert added.

Presently, human DNA is detected through the use of polymerase chain reaction (PCR), which while effective, is also expensive, cumbersome and time-consuming for widespread use.

Although effective, tests involving PCR may not be optimal for situations such as a pandemic outbreak.

The biosensor captures DNA strands more effectively. This is possible because the two surfaces of the sensor are coated with a chemically treated “capture probe” solution through an electrochemical technique specially developed by IBN.

This allows DNA strands to “stick” more easily to the sensor, resulting in a faster and more accurate analysis.

“This new biosensor holds significant promise to speed up on-going efforts in the detection and diagnosis of debilitating diseases such as cancer, cardiovascular problems and infectious viruses,” said Dr Jackie Y. Ying, Executive Director of IBN, one of the research institutes of Singapore’s Agency for Science, Technology and Research (A*STAR).

“We aim to make healthcare accessible to the masses with early disease diagnosis as the critical driving force behind the research we undertake here at IBN,” she added.

The study appears in Journal of the American Chemical Society. (ANI)

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Counting duplicated genome segments now possible with new computational method

September 1, 2009 By Leave a Comment

London, August 31 (ANI): Counting copies of duplicated genome sequences and doing initial analyses of their contents are possible with the aid of a new computational method, according to a study.

Led by scientists at the University of Washington (UW), the study suggests that the number of copies of particular DNA segments can differ from one person to the next.

The researchers use the term mrFAST, an acronym for micro-read Fast Alignment Search Tool, to refer to the novel method.

In their study report, they have highlighted the fact that segmental duplications in the human genome have been associated with susceptibility and resistance to disease.

The report points out that duplicated segments have been linked to such disorders as lupus, Crohn’s disease, mental retardation, schizophrenia, colour blindness, psoriasis, and age-related macular degeneration.

It adds that segmental duplications often contain duplicated genes, many of which have an unknown function, and that individuals have different numbers of copies of some of these duplications.

The researchers write that determining the number, content, and location of segmental duplications is an important step in understanding the health significance of gene copy-number variation.

“New computational methods, combined with next-generation DNA sequencing technology, has provided for the first time an accurate census of specific genes that exist in varying number of copies,” Nature magazine quoted Alkan as saying.

“This is a way to deal with some of the most complex regions of the human genome and do what might appear to be a simple thing: Count whether a person has one, two, three or more copies of a gene. In fact, such counting is surprisingly difficult,” said Kidd.

The researchers say that next-generation technology for sequencing the human genome has far greater detection power, and costs substantially less than the traditional sequencing method known as Sanger sequencing.

According to them, the new technologies are beginning to distinguish subtle dissimilarities between nearly identical gene copies.

“This can provide researchers with a more accurate assessment of specific gene content and insight into functional constraints,” Alkan said.

“The newer, faster genome sequencing platforms may eventually make it feasible to detect the full-spectrum of genomic variation among many individuals, including patients suffering from diseases of genetic origin. Next-generation technology and computational methods promise low cost, rapid sequencing of different individuals and may lead to a fuller understanding of the patterns and significance of human genetic variation,” Alkan added.

The analytical method they devised is already being tapped for the 1000 Genome Project, an international effort to catalog and compare the genomes of hundreds of people from around the world.

Alkan, Kidd, and their colleagues note that the ability to accurately and systematically determine the absolute copy number for any genomic segment is a notable step toward a true and complete picture of individual genomes, and how the genome shapes a person’s characteristics.

“The next challenge will be defining variation in the sequence content and the structural organization of these dynamic and important regions of the human genome,” they wrote.

A research article describing their study has been published in the journal Nature Genetics. (ANI)

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