It turns out boyfriends really do try harder than husbands, according to a new study from George Mason University.

The study of more than 17,000 people in 28 countries found that married men report doing less housework than men who are live-in boyfriends. Still no word on whether or not married men also get less sex. Not that correlation equals causation.

This study was recently published in the Journal of Family Issues by Shannon Davis and co-authors Theodore Greenstein and Jennifer Gerteisen Marks of North Carolina State University.

Genetic markers contain pieces of foreign DNA that allow researchers to know when the gene they inserted into a cell has produced the desired trait, like glowing when exposed to ultraviolet light. This is important because results are not easy to see.

Whitehead Institute for Biomedical Research postdoctoral researchers Alexander Meissner and Marius Wernig have demonstrated that it’s possible to convert specialized mouse skin cells into unspecialized stem cells and have identified successfully reprogrammed cells by looks alone.

Their findings bring human stem cell therapies a step closer to reality.

Einstein's general theory of relativity explained for us that the universe is elastic and gravity distorts space-time like we distort a couch when we sit on it. John Wheeler explained this perfectly when he wrote, "Matter tells space how to curve, and curved space tells matter how to move."

Now astronomers have seen Einstein’s predicted distortion of space-time around three neutron stars, and in doing so they have pioneered a groundbreaking technique for determining the properties of these ultradense objects. Neutron stars cram more than an entire Sun’s worth of material into a sphere the size of a city. A cup of neutron-star stuff would outweigh Mount Everest.

People who live to 100 or more are known to have just as many—and sometimes even more—harmful gene variants compared with younger people. Now, scientists at the Albert Einstein College of Medicine of Yeshiva University have discovered the secret behind this paradox: favorable “longevity” genes that protect very old people from the bad genes’ harmful effects. The novel method used by the researchers could lead to new drugs to protect against age-related diseases.

“We hypothesized that people living to 100 and beyond must be buffered by genes that interact with disease-causing genes to negate their effects,” says Dr.

Engineers at Purdue are working on technology that produces hydrogen by adding water to an alloy of aluminum and gallium. When water is added to the alloy, the aluminum splits water by attracting oxygen, liberating hydrogen in the process. The Purdue researchers are developing a method to create particles of the alloy that could be placed in a tank to react with water and produce hydrogen on demand.

The gallium is a critical component because it hinders the formation of an aluminum oxide skin normally created on aluminum's surface after bonding with oxygen, a process called oxidation. This skin usually acts as a barrier and prevents oxygen from reacting with aluminum.

When soils are too acidic, aluminum that is locked up in clay minerals dissolves into the soil as toxic ions, making it hard for most plants to grow. Aluminum toxicity limits crop production in as much as half the world's arable land, mostly in developing countries.

Now, Cornell researchers have cloned a novel aluminum-tolerant gene in sorghum and expect to have new genetically-engineered aluminum-tolerant sorghum lines by next year.

Sorghum is an important food crop in Africa, Central America and South Asia and is the world's fifth most important cereal crop.

The research provides insights into how specialized proteins in the root tips of some cultivars of sorghum and such related species as wheat and maize can boost aluminum tolerance in crops.