Bacteria survive everywhere. Under the sea, in the air, even in some of the hottest environments on Earth.

How are microbes seemingly so smart? Bacteria don't just react to changes in their surroundings, say Princeton University researchers, they anticipate and prepare for them. The findings, reported in the June 6 issue of Science, challenge the prevailing notion that only organisms with complex nervous systems have this ability.

"What we have found is the first evidence that bacteria can use sensed cues from their environment to infer future events," says Saeed Tavazoie, an associate professor in the department of Molecular Biology, who conducted the study along with graduate student Ilias Tagkopoulos and post-doctoral researcher Yir-Chung Liu.

It's an ingredient found in dandruff shampoos and, if you're a movie buff, you also know it was used to help fight off alien invaders in the film "Evolution."

Scientists at the University of Leicester are now using selenium as a tool in investigating how the oxygen content of the oceans has changed over geologically recent time.

Selenium is an anti-oxidant and an essential trace nutrient in our diet. It belongs to a group of elements whose behavior is controlled by the concentration of oxygen in the environment. Now scientists are using selenium as part of a research project to measure the isotopic ratios of selenium in sediments.

Between 54 percent and 64 percent of hospitals had chaplaincy services between 1980 and 2003, despite changes over the last fifteen years in national accreditation guidelines making the religious and spiritual care of hospitalized patients a right.

This protection seems to have had no effect on the number of hospitals with chaplains and there was no systematic trend over this period.

Interesting results:

Could injecting a gene into a patient with severe heart failure reverse their disabling and life-threatening condition? Physician-scientists are setting out to answer that question in a first-ever clinical trial of gene therapy to treat severe heart failure.

NewYork-Presbyterian Hospital/Columbia University Medical Center is the only center in the New York City area where the therapy is currently available.

Patients enrolled in the multicenter CUPID trial (Calcium Up-Regulation by Percutaneous Administration of Gene Therapy in Cardiac Disease) will undergo a minimally invasive cardiac catheterization procedure that will introduce a specially engineered gene that stimulates production of an enzyme necessary for the heart to pump more efficiently.

The International Council for Industrial and Applied Mathematics (ICIAM), the International Mathematical Union (IMU) and the Institute of Mathematical Statistics (IMS) today released the Citation Statistics report. The report is written from a mathematical perspective and states that while citation-based statistics such as impact factor are often used to assess scientific research they are not the best measures of research quality.

The use of citations in assessing research quality is a topic that is of increasing interest throughout the world's scientific community. The report cautions against the over-reliance on citation statistics such as the impact factor and h-index. These are often promoted because of the belief in their accuracy, objectivity, and simplicity, but these beliefs are unfounded.

Among the report’s key findings:

Male homosexuality is difficult to explain under strictly Darwinian evolutionary models, because carriers of genes predisposing towards male homosexuality would be likely to reproduce less than average, suggesting that alleles influencing homosexuality should progressively disappear from a population.

Partly due to that, homosexuality in males is thought to have both psycho-social factors and genetic components. This is suggested by the high concordance of sexual orientation in identical twins and the fact that homosexuality is more common in males belonging to the maternal line of male homosexuals. These effects have not been shown for female homosexuality, indicating that these two phenomena may have very different origins and dynamics.

An Italian research team, consisting of Andrea Camperio Ciani and Giovanni Zanzotto at the University of Padova and Paolo Cermelli at the University of Torino, found that the evolutionary origin and maintenance of male homosexuality in human populations could be explained by a model based around the idea of sexually antagonistic selection, in which genetic factors spread in the population by giving a reproductive advantage to one sex while disadvantaging the other.

Previous work by Camperio Ciani and collaborators, published in 2004, showed that females in the maternal line of male homosexuals were more fertile than average, giving less weight to the idea that alleles influencing homosexuality should progressively disappear from a population.