University of Minnesota
Researchers from the Cancer Center at the University of Minnesota have found that adult women taking aspirin two or more times a week may lower their risk of adult leukemia by more than 50 percent. The study will be published in the June 13 edition of Cancer Epidemiology, Biomarkers & Prevention, a journal of the American Association for Cancer Research.
Researchers at the University of Minnesota provide evidence for the first time that stem cells derived from adult bone marrow and injected into the blastocyst of a mouse can differentiate into all major types of cells found in the brain. The results of the research are published as the lead article in the April 25, 2003 issue of Cell Transplantation. The potential of these adult stem cells, termed multipotent adult progenitor cells (MAPCs), were the subject of research reported in Nature in June 2002. The research reported this week in Cell Transplantation takes a specific look at the ability of MAPCs to develop into cells typically found in the brain.
Sunlight can convert triclosan, a common disinfectant used in anti-bacterial soaps, into a form of dioxin, and this process may produce some of the dioxin found in the environment, according to research at the University of Minnesota. The researchers said that although the dioxin was a relatively benign form, treating wastewater with chlorine could possibly lead to the production of a much more toxic species of dioxin.
Scientists from the University of Minnesota demonstrated yields of corn and soybeans were only minimally reduced when organic production practices were utilized as compared with conventional production practices. After factoring in production costs, net returns between the two production strategies were equivalent.
University of Minnesota researchers have made the first-ever hardness measurements on individual silicon nanospheres and shown that the nanospheres' hardness falls between the conventional hardness of sapphire and diamond, which are among the hardest known materials. Being able to measure such nanoparticle properties may eventually help scientists design low-cost superhard materials from these nanoscale building blocks. Up to four times harder than typical silicon -- a principal ingredient of computer chips, glass and sand -- the nanospheres demonstrate that other materials at the nanoscale, including sapphire, may also have vastly improved mechanical properties.
Sitting down as a family at the dinner table appears to play an important role in promoting healthful eating among adolescents, according to a study published in the February 2003 issue of the Journal of the American Dietetic Association.
Researchers from the University of Minnesota found that children ages 11 to 18 who ate meals with their family consumed higher amounts of fruits, vegetables, grains and nutrient-dense foods than those who ate separately. Additionally, adolescents who consumed at least seven family meals per week had lower intakes of snack foods than those who ate fewer family meals.
Many children who were neglected in orphanages during the first months of their life encounter a distinct set of developmental challenges--lasting for years after they've been adopted by attentive parents, scientists report. Biological insights into these difficulties may suggest ways to improve the lives of some troubled children, and shed light on how the brain develops in early childhood.
Imagine information stored on something only a hundredth the size of the next generation computer chip--and made from nature's own storage molecule, DNA. A team led by Richard Kiehl, a professor of electrical engineering at the University of Minnesota, has used the selective "stickiness" of DNA to construct a scaffolding for closely spaced nanoparticles that could exchange information on a scale of only 10 angstroms (an angstrom is one 10-billionth of a meter). The technique allows the assembly of components on a much smaller scale and with much greater precision than is possible with current manufacturing methods, Kiehl said. The work is published in a recent issue of the Journal of Nanoparticle Research.
The spectacular aurora borealis displays that light up the northern nights could be powered by a gigantic "slinky" effect in Earth's magnetic field lines, according to research performed at the University of Minnesota. Earth's magnetic field resemble a slinky in that when "wiggled," it undulates in waves that travel down the field lines at speeds up to 25 million miles per hour. These waves can pass energy to electrons, accelerating them along the magnetic field lines toward Earth. When the electrons hit atoms in the atmosphere, the atoms become excited and produce the colors of the aurora. Using electric and magnetic field data and images from NASA's POLAR satellite, the researchers showed that energy from such waves is sufficient to power auroras and that statistically, the waves occur in the same locations as auroras--in a ring around the poles. The work will be published in the Jan. 17 issue of Science.
When you look at a picture, your brain has to put together lines, patterns and shapes to make a meaningful scene. New research by neuroscientists at the University of California, Davis and the University of Minnesota shows that higher regions of the brain can quickly recognize patterns and shapes and tell lower areas of the brain to stop processing the information. The finding confirms predictions from computer models and helps explain how the human brain makes sense of what the eyes see.
Long, dark manes on male lions are more more attractive to females than shorter, lighter manes, researchers reported in today's issue of the journal Science. Peyton West and Craig Packer of the University of Minnesota set up dummy lions with different mane types at Serengeti National Park in Tanzania. While males were more inclined to approach dummies with lighter, shorter manes, females were drawn to the dummies with big, dark hair. There's good reason for this: blood tests revealed that males with darker manes tend to have higher levels of testosterone. But the most-wanted males pay a price for their looks: the dark hairs make the lions hotter, literally, and this extra heat results in a good deal of abnormal sperm.
