An international team has shown how crude oil in oil deposits around the world are naturally broken down by microbes in the reservoir. Their discovery, published in Nature, could revolutionize heavy oil and oil sands production by leading to more energy-efficient, environmentally friendly ways to produce this valuable resource.

Understanding how crude oil biodegrades into methane, or natural gas, opens the door to being able to recover the clean-burning methane directly from deeply buried, or in situ, oil sands deposits, says Steve Larter, University of Calgary petroleum geologist.

XCOR Aerospace, Inc. announced today that it has successfully completed its first series of tests on a new 56-pound thrust rocket engine. The engine, designated XR-3E17, is a direct
descendent of the company's XR-2P1 "Tea Cart" engine developed in 2000.

Although it weighs just half as much as its predecessor, the new engine has nearly four times the thrust of the 15lb thrust original. The regeneratively cooled engine, developed using private investor funding, is made of copper with a lightweight aluminum cooling jacket.

Cellular processes, such as when to multiply, are often regulated by switches that control the frequency and timing of interactions between proteins. North Carolina State University scientists have discovered the way in which a specific protein-protein interaction prevents the cell from turning one of its switches off, leading to uncontrolled cell proliferation – one of the hallmarks of cancer.

In a paper published in Structure, the researchers show for the first time that the interaction between a rogue version of a specific protein called Ras and its binding partner protein Raf can block the switch from being turned off.

Scientists discover that warm-water species that once thrived in Danish waters are returning

Scientists studying ancient fish bones in Scandinavia have discovered that warm-water species like anchovies and black sea bream that once thrived in Danish waters during a prehistoric warm period are now returning.

The transition from apes to humans may have been partially triggered by the need to stand on two legs, in order to safely carry heavier babies. This theory of species evolution presented by Lia Amaral from the University of São Paulo in Brazil has just been published online in Naturwissenschaften.

For safety, all nonhuman primates carry their young clinging to their fur from birth, and species survival depends on it. The carrying pattern changes as the infant grows. Newborns are carried clinging to their mother’s stomach, often with additional support.

Months later, infants are carried over the adult body usually on the mother’s back, and this carrying pattern lasts for years in apes. However, this necessity to carry infants safely imposes limits on the weight of the infants.

New research has revealed that peoples’ personality types predicts their donations to charities and noble causes.

In a sample of almost 1000 participants the researchers found that people with a pro-social personality gave more money to charities and other noble causes.

The saying goes that "time flies when you're having fun" and accident victims report events happening in slow motion as disaster occurred. But can humans really experience events at different speeds? Is time that relative?

Apparently not, said researchers at Baylor College of Medicine in Houston, who studied how volunteers experience time when they free-fall 100 feet into a net below. Even though participants remembered their own falls as having taken one-third longer than those of the other study participants, they were not able to see more events in time.

Instead, the longer duration was a trick of their memory, not an actual slow-motion experience.

“People commonly report that time seemed to move in slow motion during a car accident,” said Dr.

The remains of one of the largest meat-eating dinosaurs ever found have recently been recognized as representing a new species by a student working at the University of Bristol.

The new species is one of the largest carnivorous dinosaurs ever to have lived. Carcharodontosaurus iguidensis was probably 13-14 metres long, making it taller than a double-decker bus. It had a skull about 1.75 metres long and its teeth were the size of bananas.

Steve Brusatte, an MSc student the University of Bristol who identified the theropod said: “The first remains of Carcharodontosaurus were found in the 1920s, but they only consisted of two teeth which have since been lost.

While it is well understood that the evolution of new genes leads to adaptations that help species survive, gene loss may also afford a selective advantage.

A group of scientists has investigated this less-studied idea, carrying out the first systematic computational analysis to identify long-established genes that have been lost across millions of years of evolution leading to the human species. Their findings appear in the December 14 issue of PLoS Computational Biology.

Dr. David Haussler and five others in his group at the University of California, Santa Cruz — postdoc Jingchun Zhu, graduate students Zack Sanborn and Craig Lowe, technical projects manager Mark Diekhans, and evolutionary biologist Tom Pringle — are co-authors on the paper.

Kamilla Miskowiak, author of a new study published in the December 1st issue of Biological Psychiatry, reports findings that support the evaluation of a potential new antidepressant agent.

The researchers evaluated the effects of erythropoietin (Epo), a hormone naturally produced by the kidneys that stimulates the formation of red blood cells and is known as a treatment for anemia. The authors explain that new evidence shows that Epo also “has neuroprotective and neurotrophic effects in animal models and affects cognitive and associated neural responses in humans,” suggesting that it may be a candidate in the treatment of depression.