Researchers from ETH Zurich and the Univ. of Tubingen in Europehave recently described a process that suppresses the formation of methane in soils that are rich in humic substances. The soils act as a battery, releasing to and accepting electrons from soil bacteria depending on the presence of oxygen. The study shows that electron transfer to and from humic substances is an important process with global implications for methane release.
Finding treatments for advanced stage cancer isn’t easy. Therefore, early detection methods are paramount in the fight against the disease. Motivated by the opportunity to intervene as early as possible in the course of cancer, Dr. Muneesh Tewari, a Univ. of Michigan researcher, has been studying the diagnostic potential of blood-based biomarkers.
Before doctors like Matthias Kretzler can begin using the results of molecular research to treat patients, they need science to find an effective way to match genes with the specific cells involved in disease. As Kretzler explains, finding that link would eventually let physicians create far more effective diagnostic tools and treatments.
The viability of the bioenergy crops industry could be strengthened by regulatory efforts to address nonpoint source pollution from agricultural sources. That, in turn, means that the industry should be strategic in developing metrics that measure the ability to enact positive changes in agricultural landscapes, particularly through second-generation perennial crops, according to a paper by a Univ. of Illinois expert in bioenergy law.
Shortly following the 9/11 terror attack in 2001, letters containing anthrax spores were mailed to news outlets and government buildings killing five people and infecting 17 others. According to a 2012 report, the bioterrorism event cost $3.2 million in cleanup and decontamination. At the time, no testing system was in place that officials could use to screen the letters.
If you’ve run out of drinking water during a lakeside camping trip, there’s a simple solution: Break off a branch from the nearest pine tree, peel away the bark and slowly pour lake water through the stick. The improvised filter should trap any bacteria, producing fresh, uncontaminated water. In fact, a team has discovered that this low-tech filtration system can produce up to 4 L of drinking water a day.
Visual acuity is sharpest for rats and mice when the animals are looking down. Researchers have found that rodents can learn tasks in a fourth to a sixth of the usual number of repetitions when visual stimuli are projected onto the floor of the maze rather than onto the walls.
The annual ritual of visiting a doctor’s office or health clinic to receive a flu shot may soon be outdated, thanks to the findings of a new study. The research, which involved nearly 100 people recruited in the metropolitan Atlanta area, found that test subjects could successfully apply a prototype vaccine patch to themselves.
At a recent two-day meeting, the Food and Drug Administration heard from supporters and opponents of a provocative new technique meant to prevent children from inheriting debilitating diseases. The method creates babies from the DNA of three people, and the agency is considering whether to greenlight testing in women who have defective genes.
Laboratory success doesn’t always translate to real-world success. A team of Michigan State Univ. scientists, however, has invented a new technology that increases the odds of helping algae-based biofuels cross that gap and come closer to reality. The environmental photobioreactor (ePBR) system is the world’s first standard algae growing platform, one that simulates dynamic natural environments.
Using an inexpensive 3-D printer, biomedical engineers have developed a custom-fitted, implantable device with embedded sensors that could transform treatment and prediction of cardiac disorders. An international team has created a 3-D elastic membrane made of a soft, flexible, silicon material that is precisely shaped to match the heart’s epicardium, or the outer layer of the wall of the heart.
It has long been known that free, ionic silver particles can be highly toxic to aquatic organisms. Yet we a lack of detailed knowledge about the doses required to trigger a response and how the organisms deal with the stress. To learn more about the cellular processes, scientists in Switzerland subjected algae to a range of silver concentrations. The results are reassuring, but the presence of other stressors could compound the problem.
Women with estrogen-responsive breast cancer who consume soy protein supplements containing isoflavones to alleviate the side effects of menopause may be accelerating progression of their cancer, changing it from a treatable subtype to a more aggressive, less treatable form of the disease, new research suggests.
Cells in our body are constantly dividing to maintain our body functions. At each division, our DNA code and a whole machinery of supporting components has to be faithfully duplicated to maintain the cell’s memory of its own identity. Researchers in Denmark have developed a new technology that reveal the dynamic events of this duplication process and the secrets of cellular memory.
Defective blood coagulation is one of the leading causes of preventable death in patients who have suffered trauma or undergone surgery. To provide caregivers with timely information about the clotting properties of a patient’s blood, researchers have developed an optical device that requires only a few drops of blood and a few minutes to measure the key coagulation parameters that can guide medical decisions.
Typically, researchers construct cell-building scaffolds from synthetic materials or natural animal or human substances. Until now, however, no scaffolds grown in a Petri dish have been able to mimic the highly organized structure of the matrix made by living things. Researchers in Michigan have used a nano-grate to persuade fibroblasts to grow a scaffold with fibers just 80 nm, similar to to fibers in a natural matrix.
To attach itself to surfaces, the marine sponge Monorhaphis chuni forms an unusual glass rod. Researchers have recently analyzed the nanostructure of the filament passing through the center of this glass rod and discovered that it is formed with a perfect periodic arrangement of nanopores. In this way, the sponge employs a similar method that is now used for fabrication of man-made mesoporous nanomaterials.
A light-activated drug delivery system for treating cancer is particularly promising to traditional chemotherapy methods because it can accomplish spatial and temporal control of drug release. To this end, scientists have developed a new type of nanoparticle that can absorb energy from tissue-penetrating light that releases drugs in cancer cells.
Engineers like to make things that work. And if one wants to make something work using nanoscale components, the size of proteins, antibodies and viruses, mimicking the behavior of cells is a good place to start since cells carry an enormous amount of information in a very tiny packet.
In a surprising new finding, researchers have discovered that bacterial movement is impeded in flowing water, enhancing the likelihood that the microbes will attach to surfaces. The new work could have implications for the study of marine ecosystems, and for our understanding of how infections take hold in medical devices.
From steel beams to plastic Lego bricks, building blocks come in many materials and all sizes. Today, science has opened the way to manufacturing at the nanoscale with biological materials. Potential applications range from medicine to optoelectronic devices. In a paper published in Soft Matter, scientists announced their discovery of a 2-D crystalline structure assembled from the outer shells of a virus.
A pathway to more effective and efficient synthesis of pharmaceutical drugs and other flow reactor chemical products has been opened by a study in which, for the first time, the catalytic reactivity inside a microreactor was mapped in high resolution from start-to-finish. The results not only provided a better understanding of the chemistry behind the catalytic reactions, they also revealed opportunities for optimization.
Scientists in the U.K. have developed a novel approach to enabling collaborations between researchers at conferences and academic meetings: Treat them like genes. Using mathematical algorithms, the team created a method of matching conference-goers according to pre-set criteria, bringing about unforeseen collaboration opportunities while also enabling “would-like-to-meet” match-ups across disciplines and knowledge areas.
Yeast can quickly adapt to changes in its environment with the help of molecules known as long non-coding RNAs, a Purdue Univ. study shows. The team of researchers found that long non-coding RNAs prepare metabolic genes to be activated swiftly when baker's yeast needs to switch its source of energy from glucose to an alternative sugar, galactose.
Keep this in mind: Scientists say they’ve learned how your brain plucks information out of working memory when you decide to act. Brown Univ. cognitive scientists have identified specific brain regions that work together to allow us to choose from among the options we store in working memory.