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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Research team all set to explore sacred Maya pools of Belize

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): A team of expert divers, a geochemist and an archaeologist is all set to become the first to explore the sacred pools of the southern Maya lowlands in rural Belize.

The expedition, made possible with a grant from the National Geographic Society and led by a University of Illinois archaeologist, will investigate the cultural significance and environmental history and condition of three of the 23 pools of Cara Blanca, in central Belize.

Called ‘cenotes’, these groundwater-filled sinkholes in the limestone bedrock were treated as sacred sites by the Maya, according to University of Illinois archaeologist Lisa Lucero, who will lead the expedition next spring.

“Any openings in the earth were considered portals to the underworld, into which the ancient Maya left offerings,” said Lucero. “We know from ethnographic accounts that Maya collected sacred water from these sacred places, mostly from caves,” she added.

Studies of shallow lakes and cenotes in Mexico and Guatemala have found that the Maya also left elaborate offerings in the sacred lakes and pools.

Items found on the bottom of lakes in these regions include masks, bells, jade, human remains, figurines and ceramic vessels decorated with animals, plants and the gods of fertility and death.

“Diving the sacred pools of Cara Blanca, in central Belize, is necessary to determine if they have similar sacred qualities,” Lucero said.

“Once underwater, we will first have to cut out some of the jungle wood so that we can even reach the bottom,” said Patricia Beddows, a lecturer of earth and planetary sciences at Northwestern University and an expert diver who has explored cenotes on the Yucatan Peninsula of Mexico.

“After mapping for fragile Maya artifacts, we will also take water data and manually drill sediment cores,” she added.

“The sediment samples will provide a record of changes in surface and water conditions,” Beddows said.

“Were the Maya challenged by droughts in the area? Did the water quality suddenly go bad due to sulfur or other geologic factors? We hope these cenotes will provide a rich story of linked human and environmental conditions,” she said.

One of the three pools the researchers will explore has a substantial Maya structure on its edge, likely ceremonial.

Preliminary investigations of the structure conducted by archaeologist Andrew Kinkella, of Moorpark College, turned up a lot of jars and the fragments of jars.

“This could indicate that the site was important for collecting sacred water,” Lucero said. (ANI)

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Cabinet approves signing, ratification of BIMST Convention

September 10, 2009 By Leave a Comment

New Delhi, Sep 10(ANI): A Union Cabinet meeting on Thursday discussed topics, including the revamping of the National Rural Health Mission and approval for the signing and ratification of the BIMST (Bangladesh, India, Myanmar, Sri Lanka and Thailand) Convention.

Union Information and Broadcasting Minister Ambika Soni said: “This convention will provide strong legal basis for cooperation among the law enforcement agencies of the BIMST member states. It will give a much needed thrust to the enforcement agencies of the BIMST member states which are Bangladesh, India, Myanmar, Sri Lanka and Thailand.”

The proposal will be signed during the forthcoming BIMST Ministerial Conference.

On the National Rural Health Mission (NRHM), Soni said: “The mission (National Rural Health Mission) now seeks to provide universal access to affordable and quality healthcare which is accountable and at the same time responsive to the needs of the people.”

She said the Government would launch an annual health survey in some states to provide feedback on the impact of schemes underthe NRHM on health indicators like Maternal Mortality Rates and Total Fertility Rates.

The Ministry of Health and Family Welfare in collaboration with the Registrar General of India, Ministry of Home Affairs will be conducting the survey and would compute the statistics, she added. (ANI)

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Maldives uses coconuts to reduce its CO2 emissions

September 4, 2009 By Leave a Comment

London, September 4 (ANI): The Maldives government has launched a project to reduce its carbon dioxide (CO2) emissions using “biochar”, a charcoal made from bio-wastes such as coconut shells.

According to a report by BBC News, the pilot project, launched by the Maldives government together with a UK-based company, Carbon Gold, aims to produce biochar using bio-waste, including coconut shells, which are abundantly available in the archipelago.

Biochar is produced through the “slow cooking” (pyrolysis) of plant wastes. The resulting black char is rich in carbon and can be mixed with soil as a fertiliser.

“While wasting the environment we are wasting a lot of money by buying (fertilizer) from abroad,” said Minister of state for fisheries and agriculture, Aminath Shafia.

“So, we were looking into a project that could develop it using something that is available in the country,” she said.

The Maldives wants to be carbon neutral by 2020

President Mohamed Nasheed, who earlier announced a target of going carbon neutral by 2020, has welcomed the new partnership.

“Biochar has a crucial role in helping us achieve carbon neutral status as well as providing an economic and environmental boost to our people,” he said.

Shafia said that the project would be launched on three islands and rolled out to others if farmers responded positively.

According to officials at Carbon Gold, biochar is an effective way of removing CO2 from the atmosphere.

The company said that the fertiliser also improves soil fertility and locks up its carbon contents for several years after it is ploughed into the ground.

Daniel Morrel, a co-founder of the company, told BBC News that the Maldives was the first government to sponsor its production.

He described biochar as “carbon negative”.

“Waste that would have rotted or been burnt before is now locked up and put very safely in the soil,” he said.

“It is not one of the best solutions, but the great thing about biochar is while everybody is talking about reducing the CO2 emissions, this is actually taking CO2 out of the atmosphere,” he added. (ANI)

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How women judge facial attractiveness when it comes to potential mates

August 25, 2009 By Leave a Comment

Washington, August 25 (ANI): Psychologists have shed new light on how women judge facial attractiveness when it comes to choosing potential mates.

“We have found that women evaluate facial attractiveness on two levels-a sexual level, based on specific facial features like the jawbone, cheekbone and lips, and a nonsexual level based on overall aesthetics. At the most basic sexual level, attractiveness represents a quality that should increase reproductive potential, like fertility or health,” said Robert G. Franklin, graduate student in psychology working with Reginald Adams, assistant professor of psychology and neurology, Penn State.

The researcher points out that attractiveness, on the nonsexual side, can be perceived on the whole, where brains judge beauty based on the sum of the parts they see.

“But up until now, this (dual-process) concept had not been tested,” Franklin said.

With a view to determining how women use such methods of determining facial attractiveness, the psychologists showed fifty heterosexual female college students a variety of male and female faces.

The participants were asked to rate what they saw as both hypothetical dates and hypothetical lab partners on a scale of one to seven.

Franklin has revealed that the first question was designed to invoke a sexual basis of determining attractiveness, while the second was geared to an aesthetic one.

According to him, this part of the experiment served as a baseline for next phase.

The same faces were later shown to another set of fifty heterosexual female students. Some of the faces, however, were split horizontally, with the upper and lower halves shifted in opposite directions.

The scientists asked the participants to rate the overall attractiveness of the split and whole faces on the same scale.

By dividing the faces in half and disrupting the test subjects’ total facial processing, the researchers believed that women would rely more on specific facial features to determine attractiveness.

They thought that this sexual route would come into play particularly when the participants saw faces that were suited as hypothetical dates rather than lab partners, and the study showed exactly that.

“The whole face ratings of the second group correlated better with the nonsexual ‘lab partner’ ratings of the first group,” Franklin said.

He revealed that, with the faces intact, the participants could evaluate them on an overall, nonsexual level.

“The split face ratings of the second group also correlated with the nonsexual ratings of the first group when the participants were looking at female faces. The only change occurred when we showed the second group split, male faces. These ratings correlated better with the ‘hypothetical date’ ratings of the first group,” he added.

The bottom line is that, at a statistically significant level, splitting the faces in half made the women rely on a purely sexual strategy of processing male faces.

The study verifies that these two ways of assessing facial appeal exist, and can be separated for women.

“We do not know whether attractiveness is a cultural effect or just how our brains process this information. In the future, we plan to study how cultural differences in our participants play a role in how they rate these faces. We also want to see how hormonal changes women experience at different stages in the menstrual cycle affect how they evaluate attractiveness on these two levels,” Franklin said.

It has been known for long that women’s biological routes of sexual attraction derive from an instinctive reproductive desire, relying on oestrogen and related hormones to regulate them.

Scientists have also known that the overall aesthetic approach is a less reward-based function, driven by progesterone.

How this complex network of hormones interacts and is channelled through the conscious brain and the human culture that shapes it is a mystery.

“It is a complicated picture. We are trying to find what features in the brain are at play, here,” Franklin said.

The study’s findings have been reported in the Journal of Experimental Social Psychology. (ANI)

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Tunisian woman due to deliver 12 babies tagged ‘a fraud’

August 19, 2009 By Leave a Comment

London, August 19 (ANI): A Tunisian woman, recently reported to be due to give birth to a record-breaking 12 babies, has gone into hiding after being exposed as a fraud.

The North African teacher, from Gafsa, had claimed that she was expecting six boys and six girls this month after having fertility treatment.

But an investigation by the country’s Health Ministry has revealed that the 34-year-old woman, known only as AF, has “psychological problems and is unlikely even to be pregnant”.

“Our staff interviewed her at length, but even her pregnancy appears to be in her imagination,” the Telegraph quoted a spokesman in Tunis, the capital, as saying.

“She’s claiming to be nine months pregnant with six boys and six girls, but there’s absolute nothing about her appearance which indicates this.

“The woman has refused point blank to undergo a medical examination. Now we can’t even contact her. She’s gone into hiding,’ the spokesman added.

A doctor at No’man al Adab Hospital, the only one in the town of Gafsa, also said: “It may be that she’s trying to make money from television. These kind of people can make thousands from appearing on programmes. Perhaps that’s what motivated her.”

Medical experts had previously cast a shadow of doubt over the extraordinary feat, saying if the 12 babies, called duodecaplets, were all born alive, they would represent a medical miracle.

Peter Bowen-Simpkins, a fellow of the Royal College of Obstetricians and Gynecologists, said: “How could you get 12 babies into the womb at the same time? The womb just doesn’t expand that much. She would have to be about seven feet tall.” (ANI)

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Worm study provides new model to study invasive cancer

August 18, 2009 By Leave a Comment

Washington, August 18 (ANI): A single cell’s behaviour during the development of the reproductive tract in the C. elegans worm is providing scientists with significant insights into cancer’s deadly ability to put down roots in new tissues after spreading throughout the body, say researchers.

David Sherwood, a Duke University biologist, has spent several years studying the mechanics of a single cell in the developing body of the worm.

He points out that it is called the anchor cell, and one of its jobs is to connect the developing animal’s uterus with its vulva, a crucial step in ensuring the worm’s fertility.

To establish this slender connection, the anchor cell must work its way through two layers of basement membrane, a dense, sheet-like barrier structure lining most tissues, including the epithelial cells in humans that are the hosts of many cancers.

Writing about their study in the journal Developmental Cell, Sherwood has described how the nematode’s anchor cell uses a series of molecular signals to create a stretched opening in the membrane.

He and his colleagues believe that the process is essentially the same as the one that cancer cells use to invade new tissues.

The researchers say that, together, these molecules-called integrin and netrin-may be a valuable new target in the efforts to halt cancer’s spread via metastasis.

“Metastasis accounts for most of cancer’s lethality. It’s the most essential step in cancer progression, but it’s the least understood,” said Sherwood, who is an assistant professor of biology at Duke.

To push a hole through the basement membranes, the worm’s anchor cell forms several lancet-like points, called puncta. They look remarkably like a structure seen in cancer cells called invadopodia that are believed to have the same function, but modeling this part of metastasis in the lab has proven impossible so far because nobody has figured out how to make a basement membrane in a dish.

Sherwood says that the abundant, cheap, rapidly multiplying worms and their basement membranes enabled his team to do a variety of experiments to narrow down the genes and molecular signals in play.

He said that with the aid of newly developed imaging technologies, he and his colleagues could actually watch as the cell invasion occurs.

“In vivo, you’re dealing with individual cancer cells moving around the body. It is very hard to watch that. And then asking the cancer cell ‘what genes are you using to do that?’ is even more difficult,” Sherwood said.

He says that the latest set of findings suggest that integrin helps the anchor cell orient itself toward the basement membranes, and that it also directs netrin to build the puncta in the proper place to ease an opening through.

The researcher says that what is even more interesting about the two molecules it that they are outside the cell, which makes them easier to target with possible drug therapy.

Sherwood says that there are about 100 genes that seem to prevent cell invasion, and that his team is searching for those that might be the most effective.

He has revealed that the group is presently examining how a gene called SPARC, known to be over-active in cancer cells, helps the anchor cells invade.

He said they would like to know how the cell turns on “invasiveness” to understand the best way to interrupt this potentially lethal behaviour. (ANI)

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Immature egg cells grown to maturity in lab

July 14, 2009 By Leave a Comment

Washington, July 14 (ANI): For the first time, scientists have used a new technique to grow immature human egg cells into nearly mature egg in laboratory-an accomplishment that could prove beneficial to cancer patients who have lost their ability to reproduce.

The researchers from Northwestern University Feinberg School of Medicine are the first to grow a woman’s immature egg cells, contained in a tiny sac called a follicle, into a healthy and nearly mature egg in the laboratory.

This is the first step towards the development of a new technique, which, if successful in the next steps, may eventually provide a new fertility option for women whose cancer treatments destroy their ability to reproduce.he nearly mature follicles grown for 30 days in the lab had been plucked from ovarian tissue of cancer patients, before they began chemotherapy and radiation treatments that would destroy their fertility.

“By being able to take an immature ovarian follicle and grow it to produce a good quality egg, we’re closer to that holy grail, which is to get an egg directly from ovarian tissue that can be fertilized for a cancer patient,” said Teresa Woodruff, chief of fertility preservation at the Feinberg School.

She added: “This represents the basic science breakthrough necessary to better accomplish our goals of fertility preservation in cancer patients in the future.

In the next step, the researchers will try to induce the egg’s final division, called meiosis, so it sheds half of its DNA in order to be fertilized.

The ultimate goal is to freeze the immature follicles, and then thaw and mature them in a culture to the point where they are ready to be fertilized.

“This is a very significant achievement because the early stage of the human ovarian follicle is really hard to grow in vitro. They’re very fragile and delicate,” said Min Xu, a co-author of the study.

As the immature egg grew inside the follicle, it produced hormones just as it would inside a woman’s body.

However, if follicles could be removed from the tissue and grown in the laboratory successfully, then a new fertility preservation technique might become available for women who could not safely have an ovarian transplant.

The new advance was achieved by suspending the human ovarian follicle in two different kinds of three-dimensional gels.

Woodruff said that the discovery would enable researchers to understand how nurse cells (granulosa cells), the cells that support and surround the maturing egg, communicate with the egg.

And the information will help scientists understand how eggs grow and develop properly.

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

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Males’ sperm travel faster when females are attractive

July 10, 2009 By Leave a Comment

Melbourne, July 10 (ANI): A new piece of research on red junglefowl, an ancestor of chickens, has shown that males can adjust the speed and effectiveness of their sperm, based on whether they find their mate attractive.

Published in the Proceedings of the Royal Society B, the study adds to the growing body of evidence that males from promiscuous species, including humans, increase the chances of fertilisation when the female is deemed to be attractive.

“Female attractiveness is determined by the expression of a sexual ornament – the comb – which is phenotypically and genetically correlated to the number and mass of eggs females lay,” ABC Science quoted co-authors Dr. Charlie Cornwallis, of the University of Oxford, and Dr Emily O’Connor, of the Royal Veterinary College, as saying.

For their study, the researchers collected natural ejaculates from dominate and subordinate red junglefowl males housed at the University of Stockholm.

They reveal that the males had either just mated with attractive or unattractive females.

The researchers later separated the sperm from the seminal fluid, and analysed the quantity and characteristics of both.

“There was a strong relationship between sperm velocity and the volume of the ejaculate sperm came from,” write Cornwallis and O’Connor, adding that males allocated “larger ejaculates to attractive females”.

Although the researchers have yet to unravel the mystery behind it, they have an have an intriguing theory.

“Males may alter the velocity of sperm they allocate to copulations by strategically firing their left and right ejaculatory ducts, which can operate independently,” they say.

Thus, according to them, stimulation from sexy, attractive females leads to the double firing.

“Furthermore, differential firing of left and right ejaculatory ducts may contribute to how males strategically change the number of sperm in their ejaculates, a phenomenon that is widespread, but for which the mechanism remains unknown,” they say.

The researchers now hope that future studies will better identify how males adjust the sperm and seminal fluid in their ejaculates, and how this affects fertility rates. (ANI)

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Matings with attractive males may be less fertile than those with unattractive ones

July 10, 2009 By Leave a Comment

Washington, July 10 (ANI): A team of University College London and University of Oxford researchers say that a study on the evolution of ejaculation strategies has shown that attractive males release fewer sperm per mating to maximise their chances of producing offspring across a range of females.

Writing about their findings in the journal American Naturalist, the researchers say that their findings suggest that, paradoxically, matings with attractive males may be less fertile than those with unattractive ones.

They mathematically modelled a range of male ejaculation strategies to look for the optimum “sperm load” per mating, and how this might vary depending on mating patterns.

Studies conducted in the past have shown that in animals, such as the domestic fowl, and fish, such as the Arctic charr, males with privileged access to females produce ejaculates of lower fertilising quality than subordinate males.

“In some species, females mate with many different males. Each male’s sperm competes with that of other males in a process known as ‘sperm competition’. Since males have finite resources to allocate to breeding, they allocate them carefully to each mating to maximise their number of offspring. If a male puts a lot of resources into each mating he will get more offspring per mating, but at the expense of fewer matings. If, on the other hand, a male puts few resources into each mating he will secure less paternity per mating, but will be able to carry out more matings overall. Thus, there is a trade-off between number of matings and success per mating,” says University College London researcher Sam Tazzyman.

“How a male negotiates this trade-off depends on how easy he finds it to attract females. The more attractive a male is, the more females will be willing to mate with him, reducing the value of each mating to him. This means it is optimal for him to contribute fewer sperm per mating. Although this reduces fertility per mating, it maximises the number of offspring he sires overall. Less attractive males secure fewer matings but value each of them more highly, and by allocating more sperm to each mating make the most of their meagre opportunities. This leads to the rather paradoxical prediction that matings with attractive males may be less fertile than those with unattractive males.

“There are as yet few good examples of this process found in nature, as it has generally been assumed that more attractive or higher quality males will be more fertile. A possible case can be seen in chickens, which in the wild live in groups of varying numbers of males and females. Females mate with many males, so males are subject to sperm competition. However, the attractiveness of a male is determined in large part by his social standing. Males higher up the pecking order find it easier to secure matings with the females, but they transfer fewer sperm to females. In addition, the sperm of dominant birds is less motile and has lower fertilising efficiency than the sperm of subordinate birds. Scientists can artificially change the pecking order, and when this is done, the new dominant male’s sperm quickly loses motility, while that of males reduced to subordinate status increases in motility.

“Further work in this area should look at males that are similarly attractive, but have different levels of resources to allocate to sperm production, to see how this alters their sperm number and quality. The model should also be expanded to include the effects of short-term sperm depletion, which is known to affect ejaculate content when males re-mate quickly. We also would like to explore whether the lower fertility of attractive males causes females to start avoiding attractive males that mate too often, as these males reduce their fertility.

“Finally, how this work applies to humans and other primates is not yet known. Human attractiveness is complicated and influenced by a number of factors including cultural preferences. Nonetheless, ejaculate size and sperm quality are likely to have been moulded by similar forces, like attractiveness and the number of sexual partners, that are important in other species,” Tazzyman adds. (ANI)

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Wealthy mothers tend to produce more sons

July 8, 2009 By Leave a Comment

London, July 8 (ANI): Wealthy mothers are likely to bear more sons, while their less privileged counterparts tend to produce more daughters, according to a new study.

Since women are said to be tougher than men, evolutionary theories suggest those living in poorer communities are predisposed to giving birth to girls to ensure survival of the family line, as men are more at risk of dying younger.

The research team led by social psychologist Dr. Thomas Pollet at Groningen University in the Netherlands says that this reveals a “previously undetected form of sex-ratio biasing in humans.”

During the study, the researchers looked at 95,000 Rwandan mothers in either monogamous unions, involving a single couple or polygynous marriages – a form of polygamy, where the man has several wives.

The low-ranking wives in polygynous marriages are believed to be worse because they get a smaller share of their husband’s resources.

The researchers found that third or lower-ranking wives had 106 daughters for every 100 sons, compared with those in monogamous marriages who had 99 daughters for every 100 sons.

“Our findings show that low-ranking wives, of third order or lower, have lower fertility than other women, suggesting that they are in poorer condition,” the Telegraph quoted Pollet as saying.

“These low-ranking wives have relatively more daughters than higher-ranking and monogamously married wives.

“Mothers in poor condition, here lower-ranking co-wives in a polygynous marriage, may overproduce daughters because these give them greater fitness returns than sons,” he added.or example, black mothers in America have long born fewer boys than white mothers who have seven more for every thousand births.

The study also has implication for countries like India and China where female infanticide occurs, as the findings suggest these countries cannot avoid having an excess of daughters.

Thirty years ago, Robert Trivers, an evolutionary biologist, and Dan Willard, a mathematician had argued that strong healthy women tend to have sons in order to ensure her genes and family line are passed on.

These sons are in turn strong and outdo other weaker male offspring to reproduce – thus ensuring survival of the fittest and of the family line.

But weaker or poor mothers tend to have weaker sons who do not do well and are more likely to die early – earlier than women in the same society.

To ensure survival of the family line, the women tend to have daughters because they are more likely to be survive long enough to become parents themselves.

The study appears in Biology Letters. (ANI)

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Scientists create artificial sperm cells from human embryonic stem cells

July 8, 2009 By Leave a Comment

London, July 8 (ANI): Scientists have achieved a major breakthrough in making sperm-like cells from human embryonic stem cells.

Karim Nayernia, of the University of Newcastle Upon Tyne in the UK, has revealed that these cells can swim like sperm do.

He says that his team used the same technique to create sperm-like cells from human embryonic stem cells that he had used in 2006 to produced sperm from mouse embryonic stem cells.

The team labelled embryonic stem cells with a fluorescent marker attached to a particular gene that is expressed during reproductive-cell development, and cultured the cells in a medium that encourages differentiation into sperm cells.

The researchers observed that about three per cent of the resulting cells contained enough DNA for only one set of chromosomes, suggesting that meiosis had occurred.

Some of these cells also formed tails and were motile, they said.

Nayernia and his colleagues have yet to analyse methylation patterns in their sperm-like cells, or conduct a detailed study of the cells’ morphology.

While there work has been hailed by other scientists, the sperm-like cells created by the researchers will still require much more characterization before they can be used as an experimental model for the study of inherited diseases and infertility.

Another hurdle is that, in several countries, it may actually be illegal even if these cells were properly characterised.

Nayernia admits it, but still insists that his team’s work was a “proof-of-principle experiment”.

“We don’t claim that it is fully normal sperm, but they do have some of the right characteristics,” Nature magazine quoted him as saying.

Meanwhile, he and his colleagues have also launched a project to produce sperm cells from induced pluripotent stem cells, which can be generated from adult cells.

The researchers believe that such cells would make it easier to derive sperm cells from many individuals.

“Then we can, for example, see whether environmental factors or genetic factors are affecting fertility, and which step of sperm production has been affected by those factors,” he says. (ANI)

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How plants use nitrogen to invade and take over native plants

July 8, 2009 By Leave a Comment

Washington, July 7 (ANI): A research at the University of Nebraska-Lincoln (UNL), US, gives important new information on how plants can change “nitrogen cycling” to gain nitrogen and how this allows plant species to invade and take over native plants.

In the research, UNL biologist Johannes Knops has demonstrated how one invasive plant species replaces native species because of its ability to take up and hold on to nitrogen.

Biologists know that nitrogen is crucial to plant growth that invasive species often grow better and acquire more nitrogen, but have been uncertain about which mechanism allows invasive species to gain an advantage.

Over seven years’ study at the Cedar Creek Ecosystem Science Reserve in central Minnesota, Knops and PhD candidate Ramesh Laungani studied the nitrogen pool and fluxes in the ecosystem that included seven grassland and forest species, including the Eastern white pine, a species that is rapidly invading Minnesota prairies.

Over time, they discovered that the pine had accrued nearly twice as much biomass as the next most productive species, and more than three times as much biomass relative to the other species.

“The higher productivity of the white pine is caused by an increased biomass nitrogen pool that was not driven by increased ecosystem level nitrogen inputs,” Knops said.

“But we found the white pine takes up nitrogen and holds on to it much longer, with leads to an accumulation of much more nitrogen in the plant and a depletion of nitrogen in the soil. We concluded high nitrogen residence time was the key mechanism driving the significantly higher plant nitrogen pool and the high productivity of that species,” he added.

In other words, pines mine the soil for organic nitrogen, decrease soil fertility and use this nitrogen to outcompete other species.

According to Knops, the higher nitrogen residence time creates a positive feedback that redistributes nitrogen from the soil into the plant’s nitrogen cycling, and this strengthened the species to support its invasion.

“What this higher nitrogen residence time means is that the plant is taking nitrogen from the soil and using it to make the plant grow more efficiently, and it also gives them an upper hand in being able to invade other species,” he said.

This study is the first to study all together and pinpoint the mechanism that explains why this pine is a successful invader. (ANI)

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Women deluging Oz town yearning for Nicole Kidman’s ‘fertility water’

July 3, 2009 By Leave a Comment

London, July 3 (ANI): Tourists have been flocking to an Australian town ever since Hollywood actress Nicole Kidman has revealed that she got pregnant after swimming in a nearby waterfall.

The 42-year-old star, who gave birth to daughter Sunday Rose last July, said that it was down to “fertility waters” in Kununurra, Australia.

Would-be mums are rushing to the pools or begging to be sent water.

“They are prepared to try anything,” the Sun quoted visitor centre boss Narelle Brook as saying. (ANI)

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Success of Inca civilization a result of global warming that lasted for 400 years

July 2, 2009 By Leave a Comment

Lima (Peru), July 2 (ANI): In a new study, a team of scientists have determined that the success of the Inca was boosted by a period of global warming that lasted more than four centuries.

The new study is called “Putting the Rise of the Inca within a Climatic and Land Management Context” and was prepared by Alex Chepstow-Lusty, an English paleo-biologist working for the French Institute of Andean Studies, in Lima, Peru.

The Inca Empire was the largest empire in pre-Columbian America. It began as a support group in the Cuzco area, where the legendary first Sapa Inca, Manco Capac founded the Kingdom of Cuzco around 1200.

According to a report in Living in Peru, a team of English and US scientists has analyzed pollen, seeds and isotopes in core samples taken from the deep mud of a small lake not far from Machu Picchu to determine that the success of the Inca was underpinned by a period of warming that lasted more than four centuries.

The four centuries coincided directly with the rise of this startling, hyper-productive culture that at its zenith was bigger than the Ming Dynasty China and the Ottoman Empire, the two most powerful contemporaries of the Inca.

“This period of increased temperatures allowed the Inca and their predecessors to expand, from AD 1150 onwards, their agricultural zones by moving up the mountains to build a massive system of terraces fed frequently by glacial water, as well as planting trees to reduce erosion and increase soil fertility,” said the scientists.

“They re-created the landscape and produced the huge surpluses of maize, potatoes, quinua and other crops that freed a rapidly growing population to build roads, scores of palaces like Machu Picchu and in particular the development of a large standing army,” they added.

According to Alex, the report “raises the question of whether today’s global warming may be another opportunity for the Andes.” (ANI)

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Even minor weight loss ‘ups fertility’ in obese women

July 1, 2009 By Leave a Comment

London, July 1 (ANI): A new study has suggested that minor weight loss in obese women could boost their chances of getting pregnant.

Professor Bill Ledger, from the University of Sheffield, and colleagues said conducted a three-month study of 40 obese women who were not ovulating.

Many of them suffered from polycystic ovary syndrome (PCOS).

The group’s average age was 29 and their body mass index (BMI) was around 40. Health service guidelines do not recommend IVF treatment for women with a BMI of above 30.

The women were given weight loss drugs to help them lose 5 percent of their body weight over a three-month period.

The weight loss of 5 percent was connected with a 19 percent rise in blood flow to the womb.

This increase in flow could assist an egg’s release from the ovaries and help with embryo implantation.

The researchers stated that the increase in blood flow worked like a “switch” to stimulate the ovaries.

Testosterone levels – which are higher in PCOS sufferers – also decreased as the blood flow picked up.

Ledger said that requesting that women lost 5-10 percent of their body weight was a ‘modest target’.

“The message for women with PCOS is don’t think you have to lose half your body weight. This could also encourage moderately overweight women to lose 5-10 percent,” the BBC quoted Ledger as saying.

Women with PCOS, which is one of the most common causes of infertility, tend to put on weight because of their condition and struggle more than other women to lose it through diet and exercise.

The study was presented at the European Society for Human Reproduction and Embryology (ESHRE). (ANI)

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Daily sex ‘helps improve sperm quality’

July 1, 2009 By Leave a Comment

Washington, July 1 (ANI): Having sex every day improves men’s sperm quality, an Australian study has revealed.

In a study of men with fertility problems, researchers found that daily ejaculation for a week cut the amount of DNA damage seen in sperm samples.

“All that we knew was that intercourse on the day of ovulation offered the highest chance of pregnancy, but we did not know what was the best advice for the period leading up to ovulation or egg retrieval for IVF,” Dr David Greening, an obstetrician and gynaecologist with sub specialist training in reproductive endocrinology and infertility at Sydney IVF, Wollongong, Australia, said.

“I thought that frequent ejaculation might be a physiological mechanism to improve sperm DNA damage, while maintaining semen levels within the normal, fertile range,” he added.

To investigate this hypothesis, Greening studied 118 men who had higher than normal sperm DNA damage as indicated by a DNA Fragmentation Index (DFI).

Men who had a more than 15 percent of their sperm damaged were eligible for the trial. At Sydney IVF, sperm DNA damage is defined as less than 15 percent DFI for excellent quality sperm, 15-24 percent DFI for good, 25-29 percent DFI for fair and more than 29 percent DFI for poor quality; but other laboratories can have slightly different ranges.

The men were instructed to ejaculate daily for seven days, and no other treatment or lifestyle changes were suggested. Before they started, levels of DNA damage ranged between 15 percent and 98 percent DFI, with an average 34 percent DFI when measured after three days’ abstinence.

When the men’s sperm was re-assessed on the seventh day, Greening found that 81 percent men had an average 12 percent decrease in their sperm DNA damage, while 19 percent men and an average increase in damage of nearly 10 percent. The average for the whole group dropped to 26 percent DFI.

“Although the mean average was 26 percent which is in the ‘fair’ range for sperm quality, this included 18 percent of men whose sperm DNA damage increased as well as those whose DNA damage decreased,” Greening said.

“Amongst the men whose damage decreased, their average dropped by 12 percent to just under 23 percent DFI, which puts them in the ‘good’ range.

Also, more men moved into the ‘good’ range and out of the ‘poor’ or ‘fair’ range. These changes were substantial and statistically highly significant.

“In addition, we found that although frequent ejaculation decreased semen volume and sperm concentrations, it did not compromise sperm motility and, in fact, this rose slightly but significantly.

“Further research is required to see whether the improvement in these men’s sperm quality translates into better pregnancy rates, but other, previous studies have shown the relationship between sperm DNA damage and pregnancy rates,” he added.

Greening said he thought the reason why sperm quality improved with frequent ejaculation was because the sperm had a shorter exposure in the testicular ducts and epididymis to reactive oxygen species – very small molecules, high levels of which can damage cells.

“The remainder of the men who had an increase in DFI might have a different explanation for their sperm DNA damage,” he said.

The study has been presented at the 25th annual meeting of the European Society of Human Reproduction and Embryology in Amsterdam. (ANI)

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Cycling 180 miles a week may cause infertility

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): Men who spend more time riding a bicycle could be pedalling their fertility away, suggests a new study.

The research showed that those riding more than 180 miles a week had fewer than four per cent normal sperm. It means their chance of fatherhood is extremely low.

The research was presented at the 25th annual conference of the European Society of Human Reproduction and Embryology.

Professor Diana Vaamonde, from the University of Cordoba Medical School, Cordoba, Spain, said that the triathletes who did the most cycling training had the worst sperm morphology.

Vaamonde and team had previously shown that both high exercise intensity and high exercise volume may be detrimental to sperm quality. They decided to take a more profound look at the sportsmen who seemed to show the greatest alteration – the triathletes – and assess the correlation between the volume of training in each activity and sperm quality.

Of the three modalities, only cycling, the activity for which triathletes undertake the most training, showed a clear correlation with sperm quality.
he more cycling training the sportsmen undertook, both in time and kilometers, the worse their sperm quality became.

The design of this particular study did not allow the scientists to isolate a single factor responsible for this problem, but Vaamonde believes that it is likely to be mainly due to either the irritation and compression caused by friction of the testes against the saddle, or the localised heat produced by wearing tight clothing.

However, she also believes that reactive oxygen species – small molecules that are a natural by-product of oxygen metabolism and which react to stress by increasing to such an extent that they can damage cell structures – and energetic imbalances may play an important role in the alterations in sperm that the team observed.

“The fact that this effect is greater in triathletes than in other sports practices seems to indicate that it is something to do with the volume of training that they need to undertake to achieve and maintain a high level of fitness,” said Vaamonde.

“We believe that the same effect would be observed in any athletes undertaking a similar amount of cycling training,” she added.

To reach the conclusion, the team studied the semen values of 15 healthy Spanish triathletes, with an average age of 33. They were competing at both national and international level.

Their training routines were analyzed in detail, and particular note taken of the time they spent cycling each week. Sperm was taken after three days of sexual abstinence and analysed for their shape and form.

“We found a statistically adverse correlation between sperm morphology and the volume of cycling training undertaken per week,” said Vaamonde.

“While all triathletes had less than 10 percent of normal-looking sperm, the men with less than 4 percent – at which percentage they would generally be considered to have significant fertility problems – were systematically covering over 300km per week on their bicycles,” she added. (ANI)

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How genetics influences mate selection among humans

May 25, 2009 By Leave a Comment

Washington, May 25 (ANI): Shedding new light on how humans choose their partners, a Brazilian scientist has revealed that people have an inherent tendency to get attracted towards genetically opposite individuals.

Professor Maria da Graca Bicalho, head of the Immunogenetics and Histocompatibility Laboratory at the University of Parana, has said that people with diverse major histocompatibility complexes (MHCs) were more likely to choose each other as mates than those whose MHCs were similar.

And she said that this tendency was likely to be an evolutionary strategy to ensure healthy reproduction.

Previous studies have already shown females’ preference for MHC dissimilar mates in many vertebrate species, including humans, and it is also known that MHC influences mating selection by preferences for particular body odours.

In the current study, the researchers decided to investigate mate selection in the Brazilian population, while trying to uncover the biological significance of MHC diversity.

They studied MHC data from 90 married couples, and compared them with 152 randomly generated control couples.

They also counted the number of MHC dissimilarities among those who were real couples, and compared them with those in the randomly-generated ‘virtual couples’.

“If MHC genes did not influence mate selection, we would have expected to see similar results from both sets of couples. But we found that the real partners had significantly more MHC dissimilarities than we could have expected to find simply by chance,” said Bicalho.

Within MHC-dissimilar couples the partners will be genetically different, and such a pattern of mate choice decreases the danger of endogamy (mating among relatives) and increases the genetic variability of offspring.

It’s known that genetic variability is an advantage for offspring,and scientists said that the MHC effect could be an evolutionary strategy underlying incest avoidance in humans and also improving the efficiency of the immune system.

“Although it may be tempting to think that humans choose their partners because of their similarities. Our research has shown clearly that it is differences that make for successful reproduction, and that the subconscious drive to have healthy children is important when choosing a mate,” said Bicalho.

The scientists believe that the findings will help understanding of conception, fertility and gestational failures.

Bicalho will present the findings at the annual conference of the European Society of Human Genetics. (ANI)

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Jennifer Lopez back to work after yearlong break

May 15, 2009 By Leave a Comment

London, May 15 (ANI): Latino star Jennifer Lopez is back to work after a year long break following the birth of her twins Max and Emme.

The 34-year-old singer/actress looked glam and trimmer as she returned to shoot for her comeback film ‘Back Up Plan’.

The story of the film centres on a single woman who conceives twins through artificial insemination, only to meet the man of her dreams that same day. alking about her own twins, Lopez insisted they were conceived naturally, not by IVF or other fertility treatments.

“It was natural. We didn’t do in-vitro. Everybody assumed we must have done because we had twins,” the Daily Express quoted her as saying. (ANI)

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