Tuesday, August 30, 2011

Days left to Stop Canada's Deadly Oil (Click here)

"Canada mines deadly oil that creates toxic sludge lakes and destroys forests in Alberta -- and Harper needs Obama's help to sell it. Our own government is captured by powerful oil interests, but Obama is wavering on building a new cross-border pipeline. If enough Canadians ask him to protect the world from our deadly oil, we could tip the balance away from pollution. 



Within days, President Obama could decide whether to allow a massive tar sands pipeline right through the middle of the U.S. -- boosting tar sands production and risking the contamination of major fresh water sources in his own country. PM Harper and his oil cronies have tarnished Canada's beauty and reputation, but Obama has the ultimate say on pipeline approval and he’s keen to strengthen his green credentials. He could override Harper's stubborn support for deadly oil.

Harper stopped listening to Canadians about climate a long time ago. Now, we have the chance to lobby the US and cut-off deadly oil for good. When we reach 50,000 signatures, we'll deliver our call directly to the White House. Let’s save Canada’s tarred image -- sign now and forward to everyone you know!" - Avaaz.org

Teen moms, get ready to go back to school with these fantastic Old Navy sales!

Source: tosh.0 blog
This teenage mother trend is clearly important enough to cause a new fashion line. What is happening to sexual health education in the U.S.?

Tell us what you think!

"House" Season Premiere Scoop!

"Here’s a sentence I never thought I’d type: House will be doing time in the pokey alongside Urkel!

Former child geek Jaleel White will guest star in the Oct. 3 season premiere of House as a fellow inmate of Hugh Laurie’s titular grouch, TVLine has confirmed.
White is, of course, best known for his iconic role as the suspenders-clad little Einstein at the center of the ’90s sitcom Family Matters. In recent years, the now-34-year-old actor has made guest appearances on The Game, Psych and Boston Legal.
The prison-set House opener, intriguingly titled “20 Vicodin,” picks up a year after the events of May’s finale and also features a guest turn by Michael ParĂ© (Eddie and the Cruisers) as the warden." - Michael Ausiello, TV Line.



Kids of Older Dads Face Brain Health Risks

"Children of older fathers are more likely to be diagnosed with autism, schizophrenia and a number of other neuropsychiatric or developmental disorders, and a new study reveals why this may be.
 The results show that older male mice are more likely than younger males to have offspring with mutations in genes that correspond to human genes associated with these neurological conditions. The genomes of mice and men are roughly 85 percent identical.
"Mice do not get schizophrenia or autism," said Dr. John McGrath, senior author of the study published today (Aug.30) in the journal Translational Psychiatry. "But, we have found previously that the offspring of older mice have subtle changes in brain structure and behavior."
The new study provides "a mechanism of action" that links the known genetic clues and the increased risk of human neurological disorders faced by children of older fathers, said McGrath, a professor at the University of Queensland in Australia.
Finding the genetic link
Researchers bred older and younger male mice with female mice of the same age. The researchers then sequenced the genomes of all the mice involved, and gave the 12 offspring mice behavioral tests and analyzed their brain structure.
When digging through the mice genomes, the researchers found new mutations in the baby mice that weren't present in either parent. Offspring of the older male mice showed six new mutations that, when matched to their human equivalent genes, have been linked to autism and schizophrenia in humans. The offspring of the young male mice had none of these genetic mutations.
In behavioral tests — which included a swim test and observing how much the mice startled at loud noises — mice of older fathers showed unusual responses. And their brains showed physical differences from other mice.
There are several theories behind the connection between older dads and developmental disorders in their children, including a possible link between assisted reproductive therapy and cognitive disorders, said Rita M. Cantor, professor of human genetics and psychiatry at the David Geffen School of Medicine at the University of California, Los Angeles.
Since scientists sequenced the human genome in 2000, researchers around the world have tried to correlate mutations with diseases. Many disorders are linked to small mutations called SNPs (single nucleotide polymorphisms), which entail a single change of an A, T, C or G nucleotide in the DNA.
But other mutations, called copy number variations, or CNVs, are comprised of several duplicated or deleted genes. While studies of SNP mutations have not offered many clues to neurodevelopment and neuropsychiatric disorders, Cantor said research into CNVs has been more fruitful.
"We are putting a lot of effort into the CNV studies, and it would be nice to know that that risk [of having CNVs] would be increased with paternal age," Cantor said. "The study is consistent with the idea, but not a proof."
The new study, because it controlled the age of the parents and many environmental factors through a mouse model, was "a good first step" to revealing the connection between older fathers and disorders in their children, Cantor said.
Do mutations lead to disease?
Not all CNVs are harmful, so matching the CNVs in the mice to known harmful mutations in humans was a boon to the study, said Dr. John Csernansky, chair of psychiatry and behavioral sciences at Northwestern University Feinberg School of Medicine in Chicago.
"The homology between the mouse genome and the human genome is very, very strong. So when they say, this gene is equivalent to the human gene... I don't think there's any doubt about that," Csernansky said.
But Csernansky added that simply matching a harmful mutation in humans to a mutation in mice is "guilt by association." The researchers can't assume that a mutation that's harmful in humans is also harmful in mice.
So while the behavioral tests in the study couldn't diagnose mice with disorders, they did go further than previous work in proving that older fathers were more likely to have offspring with new, harmful mutations.
"As fathers grow older, there's a greater likelihood of having a child with many problems, including psychiatric problems," Csernansky said. "I think this [study] will help us piece together the story of how these illnesses come about."
Pass it on: The children of older fathers may be more likely to have mutations called CNVs in genes linked to neurodevelopmental disorders." - By Lauren Cox, MyHealthNewsDaily Contributor

Want your own miniature world in a bottle? Click here!

Egypt's Lost Fleet — It's Been Found

"The discovery of 
an ancient harbor on 
the Red Sea proves 
ancient Egyptians 
mastered oceangoing technology and 
launched a series of 
ambitious expeditions 
to far-off lands. 


The scenes carved into a wall of the ancient Egyptian temple at Deir el-Bahri tell of a remarkable sea voyage. A fleet of cargo ships bearing exotic plants, animals, and precious incense navigates through high-crested waves on a journey from a mysterious land known as Punt or “the Land of God.” The carvings were commissioned by Hatshepsut, ancient Egypt’s greatest female pharaoh, who controlled Egypt for more than two decades in the 15th century B.C. She ruled some 2 million people and oversaw one of most powerful empires of the ancient world.

The exact meaning of the detailed carvings has divided Egyptologists ever since they were discovered in the mid-19th century. “Some people have argued that Punt was inland and not on the sea, or a fictitious place altogether,” 
Oxford Egyptologist John Baines says. Recently, however, a series of remarkable discoveries on a desolate stretch of the Red Sea coast has settled the debate, proving once and for all that the masterful building skills of the ancient Egyptians applied to oceangoing ships as well as to pyramids.

Archaeologists from Italy, the United States, and Egypt excavating a dried-up lagoon known as Mersa Gawasis have unearthed traces of an ancient harbor that once launched early voyages like Hatshepsut’s onto the open ocean. Some of the site’s most evocative evidence for the ancient Egyptians’ seafaring prowess is concealed behind a modern steel door set into a cliff just 700 feet or so from the Red Sea shore. Inside is a man-made cave about 70 feet deep. Lightbulbs powered by a gas generator thrumming just outside illuminate pockets of work: Here, an excavator carefully brushes sand and debris away from a 3,800-year-old reed mat; there, conservation experts photograph wood planks, chemically preserve them, and wrap them for storage..." - Andrew Curry, Discover Magazine.

Black Death Bacterium Identified: Genetic Analysis of Medieval Plague Skeletons Shows Presence of Yersinia Pestis Bacteria

Yersinia pestis, direct fluorescent antibody stain (DFA), 200x magnification. (Credit: CDC/Courtesy of Larry Stauffer, Oregon State Public Health Laboratory)
ScienceDaily (Aug. 29, 2011) — "A team of German and Canadian scientists has shown that today's plague pathogen has been around at least 600 years.

The Black Death claimed the lives of one-third of Europeans in just five years from 1348 to 1353. Until recently, it was not certain whether the bacterium Yersinia pestis -- known to cause the plague today -- was responsible for that most deadly outbreak of disease ever. Now, the University of TĂ¼bingen's Institute of Scientific Archaeology and McMaster University in Canada have been able to confirm that Yersinia pestis was behind the great plague.
The results of the research are published in the Proceedings of the National Academy of Sciences.
Previous genetic tests indicating that the bacterium was present in medieval samples had previously been dismissed as contaminated by modern DNA or the DNA of bacteria in the soil. Above all, there was doubt because the modern plague pathogen spreads much more slowly and is less deadly than the medieval plague -- even allowing for modern medicine.
The international team of researchers has for the first time been able to decode a circular genome important for explaining the virulence of Y. pestis. It is called pPCP1 plasmid and comprises about 10,000 positions in the bacterium's DNA. The sample was taken from skeletons from a London plague cemetery. The working group in TĂ¼bingen, led by Dr. Johannes Krause used a new technique of "molecular fishing" -- enriching plague DNA fragments from tooth enamel and sequencing them using the latest technology. In this way, the fragments were connected up into a long genome sequence -- which turned out to be identical to modern-day plague pathogens. "That indicates that at least this part of the genetic information has barely changed in the past 600 years," says Krause.
The researchers were also able to show that the plague DNA from the London cemetery was indeed medieval. To do that, they examined damage to the DNA which only occurs in old DNA -- therefore excluding the possibility of modern contamination. "Without a doubt, the plague pathogen known today as Y. pestis was also the cause of the plague in the Middle Ages," says Krause, who is well known for his DNA sequencing of ancient hominin finds, which help trace relationships between types of prehistoric man and modern humans." - ScienceDaily.com

Humans Could Have Geomagnetic Sight

"The ability to see Earth’s magnetic field, thought to be restricted to sea turtles and swallows and other long-distance animal navigators, may also reside in human eyes.
Tests of cryptochrome 2, a key protein component of geomagnetic perception, found that its human version restored geomagnetic orientation in cryptochrome-deficient fruit flies.
Flies are a long, long way from people, but that the protein worked at all is impressive. There’s also a whole lot of it in our eyes.
“Could humans have this cryptochrome heavily expressed in the retina as a light-sensitive magnetoreceptor?” said University of Massachusetts neuroscientist Steven Reppert, lead author of a June 21 Nature Communications cryptochrome study. “We don’t know if the molecule will do this in the human retina, but this suggests the possibility.”
Before then, cryptochrome’s navigational role was a matter of inference and proposition. Since then, researchers have described how cryptochrome seems to be a quantum compass that detects infinitesimally subtle, geomagnetically-induced variations in the spin of electrons struck by photons. From those variations, animals seem able to determine their orientation in relation to Earth’s magnetic field.
Many gaps still remain in cryptochrome theory, but it’s generally thought that the cryptochrome system may be active across the animal kingdom, from fish to reptiles to birds. Humans, however, were thought to be an exception. Our own cryptochrome is considered a piece of circadian machinery, part of our molecular clock rather than any optical compass.
The new study, however, suggests that cryptochrome may be more than a clock. Seeking to test how a vertebrate cryptochrome would work in fruit flies, Reppert decided to use the human version. His team engineered flies to be cryptochrome-deficient: They struggled to orient within a magnetically-charged maze. When the researchers spliced human cryptochrome into the flies, they again found their bearings.
‘We can’t show that it will do the same in humans, but it sure restored geomagnetic sight in the flies.’
“This is a very exciting paper,” said Klaus Schulten, a University of Illinois at Urbana-Champaign biophysicist and cryptochrome research pioneer who was not involved in the new study. According to Schulten, the findings add even more support for the general role of cryptochrome in vertebrates, and of course raise questions about cryptochrome’s role in people.
“We can’t show that it will do the same in humans, but it sure restored geomagnetic sight in the flies,” said Reppert.
Whether humans can sense geomagnetism is somewhat controversial. In the 1980s, research by British zoologist Robin Baker suggested that humans have a magnetic sense, but the findings proved difficult to replicate. More recently, however, work by German researchers hints at geomagnetic effects on vision.
Whether any of this is linked to high levels of cryptochrome in human eyes — and, if so, whether that quantum compass system still works for us — is completely speculative, but it’s speculation that Reppert welcomes. “It’s perfectly reasonable to think that humans have a magnetosensing response,” he said. “Maybe we’ve been looking at it in a way that’s not been fruitful in the past.”
Schulten, however, thinks evolution might have traded geomagnetic orientation for longevity. His own research suggests that the cryptochrome compass needs superoxide, a type of free radical oxygen molecule, to work. Free radicals tend to destroy DNA. That’s fine for a relatively short-lived animal, but not for one that intends to live for decades.
Nevertheless, said Schulten, “it might be that we humans, along with many other animals, might have been capable a long, long time ago of orienting ourselves.”
Reppert himself is now concentrating on how brains read their cryptochrome compass. “At the most fundamental level, we’re interested in how cryptochrome information is transferred to the nervous system,” he said. “Nobody knows how that occurs.”
Top image: GaelG, Flickr." - By Brandon Keim, Wired.