A desire for expensive, high-status stuff is related to feelings of social status, not social status itself, and that helps why minorities are attracted to 'bling', say psychologists.

Previous psychology work has shown that racial minorities spend a larger portion of their incomes than do whites on conspicuous consumption and buying products that suggest high status, like cars with rims made of platinum or gold teeth inserts. But bling is not actually biological, so whites also crave expensive, high-status products - if they imagine themselves in a low-status position. Thus, corrosive "bling culture" that is not unique to urban minorities, says Philip Mazzocco, lead author of a new paper and assistant professor of psychology at Ohio State University's Mansfield campus.

Researchers say they have discovered a new form of cell division in human cells, which they believe serves as a natural back-up mechanism during faulty cell division, preventing some cells from going down a path that can lead to cancer. 

"If we could promote this new form of cell division, which we call klerokinesis, we may be able to prevent some cancers from developing," says lead researcher Dr. Mark Burkard, an assistant professor of hematology-oncologyat the UW School of Medicine and Public Health, who studies cancers in which cells contain too many chromosomes, a condition called polyploidy, and also sees breast cancer patients.

Phragmites australis is an invasive species of plant called common reed that grows rapidly into dense stands of tall plants and then pose an extreme threat to Great Lakes coastal wetlands.

 a GROUP FROM Michigan Technological University', the US Geological Survey (USGS), Boston College and the US Fish and Wildlife Service (USFWS). have mapped the coastline of all five U.S. Great Lakes using satellite technologies and, combined with field studies along those coastlines to confirm the satellite data, their map shows the locations of large stands of the invasive Phragmites located within 6.2 miles of the water's edge.   

By combining insulin and an inhibitor of the epidermal growth factor (EGF) betacellulin,  Cleveland Clinic researcher Bela Anand-Apte, MD, PhD
was able to halt the progression of diabetic macular edema (DME), according to data preseneted at the American Society for Cell Biology Annual Meeting last week in San Francisco.

The study, conducted with insulin-dependent diabetic mice, showed that by thwarting "cross-talk" between insulin and betacellulin (BTC), which promotes the regeneration of pancreatic beta cells that stores and releases insulin, the EGF inhibitor preserved the animals' vascular integrity, she explained.

A new paper that uses the

temperature record from Byrd Station, a scientific outpost in the center of the West Antarctic Ice Sheet (WAIS),

 says that the western part of the ice sheet is experiencing nearly twice as much warming as previously thought.

The temperature record from Byrd Station shows an increase of 4.3 degrees Fahrenheit in average annual temperature since 1958, three times faster than the average temperature rise around the globe.  If those older temperature readings are accurate, this temperature increase is nearly double what previous examinations have suggested.

Autistic-like behaviors in
laboratory mice
can be partially remedied by normalizing excessive levels of protein synthesis in the brain, according to a new paper

The researchers focused on the EIF4E gene, whose mutation is associated with autism. The mutation causing autism was proposed to increase levels of the eIF4E, the protein product of EIF4E, and lead to exaggerated protein synthesis. Excessive eIF4E signaling and exaggerated protein synthesis also may play a role in a range of neurological disorders, including fragile X syndrome (FXS).

Two molecules, cholic acid and 24,25-EC, play an important role in the survival and production of nerve cells in the brain, including nerve cells that produce dopamine, according to a new study.  

Receptors known as "liver X receptors", or LXR, are necessary for the production of different types of nerve cells, or neurons, in the developing ventral midbrain. One these types, the midbrain dopamine-producing neurons play an important role in a number of diseases, such as Parkinson's disease.  

Scientists have found three new and relatively rare genetic variants that influence insulin production, offering new clues about the genetic factors behind diabetes.

Diabetes, which affects more than 25 million people in the United States, results from problems with the body's ability to produce or use insulin. Rather than pinpointing one gene behind the disease, scientists believe there are a whole host of genes that interact with health and lifestyle factors to influence a person's chances of getting the disease.

The study revealed that certain variants of three genes — called TBC1D30, KANK1 and PAM — are associated with abnormal insulin production or processing, even in people without diabetes. The genes may predispose such individuals to developing the disease.

Current thinking on how the Toxoplasma gondii parasite invades its host is incorrect, according to a study published today in Nature Methods describing a new technique to knock out genes. 

Toxoplasma gondii is a parasite that commonly infects cats - and therefore people who own a lot cats- but is also carried by other warm-blooded animals. Up to a third of the UK population are chronically infected with the parasite, according to estimates. In most cases the acute infection causes only flu-like symptoms but women who become infected during pregnancy can pass the parasite to their unborn child which can result in serious health problems for the baby such as blindness and brain damage. 

Researchers have completed the first genome sequence of domestic goat by integrating next-generation sequencing (NGS) and whole-genome mapping (WGM) technologies. The goat genome is the first reference genome for small ruminant animals and may help to advance the understanding of distinct ruminants' genomic features from non-ruminant species.

This work also yields a valuable experience for facilitating the de novo assemblies of large, complex genomes in the future.