In The Big Bang and the Birth of Culture, we talked about the beginning of culture long before what anthropologists had previously assumed.

One thing has long been clear. Not thinning forests has been a disaster for the environment. Groups normally at loggerheads have reached a consensus on responsible forest management and it identifies the potential volume of wood resources available from more than 2 million acres of Arizona forests, representing the first major agreement among groups typically at odds over the issue of forest thinning.

The “Wood Supply Analysis” report identifies a potential supply of up to 850 million cubic feet of wood and 8 million tons of biomass from branches and timber residue for such commercial uses as pallets, firewood, poles, lumber, mulch and stove pellets.

A team of researchers at the University of Alberta, including a scientist at the University of Pennsylvania, have discovered a gene that is able to block HIV, and thought to in turn prevent the onset of AIDS.

Dr. Stephen Barr, a researcher in the Department of Medical Microbiology & Immunology at the U of A, says his team identified a human gene called TRIM22 that can block HIV infection in a cell culture by preventing the assembly of the virus.

Barr says “interestingly, when we prevent cells from turning on TRIM22, the normal interferon response (a natural defense produced by our cells to fight infection by viruses such as HIV) is useless at blocking HIV infection.

Researchers at Harvard Medical School have identified a gene in Asian monkeys that may have evolved as a defense against lentiviruses, the group of viruses that includes HIV. The study suggests that AIDS is not a new epidemic.

The gene, called TRIM5-CypA, well characterized elsewhere (AIDS, 2007; PNAS, 2008), is a hybrid of two existing cellular genes, TRIM5 and CypA. The combination produces a single protein capable of blocking infection by viruses closely related to HIV. Surprisingly, this is actually the second time researchers have identified a TRIM5-CypA gene in monkeys. The other hybrid gene, called TRIMCyp, was discovered in 2004 in South American owl monkeys.

On Feb. 13, 2008, the president signed a $168 billion stimulus package designed to give $300, $600 or $1,200 checks to more than 100 million Americans. It was the second time in seven years that lawmakers agreed to return additional tax money in hopes that people would spend it to stimulate a sluggish economy. A key question: Will those receiving checks spend enough to have the desired effect?

Economic theory says "yes" -- give people money and they will spend it. But Nicholas Epley, a professor of behavioral science at the University of Chicago, Graduate School of Business, says the actual answer depends on more than simply giving people more money.

Dr. Cynthia Bulik, William R. and Jeanne H. Jordan Distinguished Professor of Eating Disorders at the University of North Carolina, spoke forcefully at yesterday's US Congressional Briefing organized by the Eating Disorders Coalition.

Bulik gave a 20-minute talk that could, if widely available, change the way society - and patients - look at eating disorders.

The research she cites is well-established, but still controversial among clinicians treating the illness.

Brent Christner, LSU professor of biological sciences, in partnership with colleagues in Montana and France, recently found evidence that rain-making bacteria are widely distributed in the atmosphere. These biological particles could factor heavily into the precipitation cycle, affecting climate, agricultural productivity and even global warming.

Christner’s team examined precipitation from global locations and demonstrated that the most active ice nuclei – a substrate that enhances the formation of ice – are biological in origin. This is important because the formation of ice in clouds is required for snow and most rainfall. Dust and soot particles can serve as ice nuclei, but biological ice nuclei are capable of catalyzing freezing at much warmer temperatures.

Many of the greatest inventions in modern medicine were developed by physicists who imported technologies such as X rays, nuclear magnetic resonance, ultrasound, particle accelerators and radioisotope tagging and detection techniques into the medical domain.

There they became magnetic resonance imaging (MRI), computerized tomography (CT) scanning, nuclear medicine, positron emission tomography (PET) scanning, and various radiotherapy treatment methods. These contributions have revolutionized medical techniques for imaging the human body and treating disease.

In 2008, the American Association of Physicists in Medicine (AAPM), is celebrating its 50th anniversary and is calling attention to the field of medical physics achievements.

The best way to do that? Make a top 5 list and publish it here.

Scientists have long known that most compounds in living things exist in mirror-image forms. The two forms are like hands; one is a mirror reflection of the other. They are different, cannot be superimposed, yet identical in their parts.

When scientists synthesize these molecules in the laboratory, half of a sample turns out to be “left-handed” and the other half “right-handed.” But amino acids, which are the building blocks of terrestrial proteins, are all “left-handed,” while the sugars of DNA and RNA are “right-handed.” The mystery as to why this is the case, “parallels in many of its queries those that surround the origin of life,” says Sandra Pizzarello, a research professor at Arizona State University.

An important discovery has been made with respect to the mystery of this “handedness” in biomolecules. Some of the possible abiotic precursors to the origin of life on Earth have been shown to carry “handedness” in a larger number than previously thought.

It has been a mystery why unusually severe epidemics of influenza occur from time to time, such as in 1947 and 1951, when illness and mortality rates exceeded standard epidemic levels.

The standard model of human influenza virus evolution holds that major influenza pandemics, the largest of which occurred in 1918, are caused by reassortment between human and avian influenza viruses. But seasonal influenza epidemics, which occur each winter in the United States, do not involve the reassortment of genetic material.

Researchers at Pennsylvania State University and the National Institute of Health used an evolutionary analysis of influenza viruses sampled from 1918 – 2005 to investigate the influenza viruses that cause seasonal epidemics in humans, particularly those where mortality was unusually high.