Researchers at the Univ. of Michigan have discovered how a previously unknown hormone serves as a messenger from fat cells to the liver and are investigating the potential of developing a new treatment for metabolic disorders. Jiandie Lin of the Life Sciences Institute described how in mice the hormone, NRG4, is secreted by so-called brown fat cells and communicates with the liver to regulate the conversion of sugar into fat.
For such humble creatures, single-celled paramecia have remarkable sensory systems. Give them a sharp jab on the nose, they back up and swim away. Jab them in the behind, they speed up their swimming to escape. But according to new research, when paramecia encounter flat surfaces, they’re at the mercy of the laws of physics.
A coalition of companies and aid groups announced plans Tuesday to test experimental drugs and collect blood plasma from Ebola survivors to treat new victims of the disease in West Africa. Plasma from survivors contains antibodies, substances the immune system makes to fight the virus.
Scientists at The Scripps Research Institute have identified weak spots on the surface of Ebola virus that are targeted by the antibodies in ZMapp, the experimental drug cocktail administered to several patients during the recent Ebola outbreak. The study provides a revealing 3-D picture of how the ZMapp antibodies bind to Ebola virus.
Testing for ovarian cancer or the presence of a particular chemical could be almost as simple as distinguishing an F sharp from a B flat, thanks to a new microscopic acoustic device that has been dramatically improved by scientists at Argonne National Laboratory. The device, known as a surface acoustic wave (SAW) sensor, detects frequency changes in waves that propagate through its crystalline structure.
Small pieces of synthetic RNA trigger a RNA interference (RNAi) response that holds great therapeutic potential to treat a number of diseases, especially cancer and pandemic viruses. The problem is delivery: It’s extremely difficult to get RNAi drugs inside the cells in which they are needed.
A key polar bear population fell nearly by half in the past decade, a new U.S.-Canada study found, with scientists seeing a dramatic increase in young cubs starving and dying. Researchers chiefly blame shrinking sea ice from global warming. Scientists from the U.S. Geological Survey and Environment Canada captured, tagged and released polar bears in the southern Beaufort Sea from 2001 to 2010.
Engineers at Oregon State Univ. have identified a method to rapidly prepare frozen red blood cells for transfusions, which may offer an important new way to manage the world’s blood supply. It’s already possible to cryopreserve human red blood cells in the presence of 40% glycerol, but is rarely done because of the time-consuming process to thaw and remove the glycerol from the blood.
Researchers from the Univ. of Cambridge have developed artificial muscles which can learn and recall specific movements, the first time that motion control and memory have been combined in a synthetic material. The muscles, made from smooth plastic, could eventually be used in a applications where mimicking the movement of natural muscle would be an advantage, such as robotics, aerospace, exoskeletons and biomedical applications.
Researchers at the Univ. of Georgia have discovered that a chemical compound commonly found in coffee may help prevent some of the damaging effects of obesity. In a recently published paper published, scientists found that chlorogenic acid, or CGA, significantly reduced insulin resistance and accumulation of fat in the livers of mice who were fed a high-fat diet.
Needles almost too small to be seen with the unaided eye could be the basis for new treatment options for two of the world’s leading eye diseases: glaucoma and corneal neovascularization. The microneedles, ranging in length from 400 to 700 microns, could provide a new way to deliver drugs to specific areas within the eye relevant to these diseases.
Massachusetts Institute of Technology (MIT) engineers have transformed the genome of the bacterium E. coli into a long-term storage device for memory. They envision that this stable, erasable and easy-to-retrieve memory will be well suited for applications such as sensors for environmental and medical monitoring.
Stanching the free flow of blood from an injury remains a holy grail of clinical medicine. Controlling blood flow is a primary concern and first line of defense for patients and medical staff in many situations, from traumatic injury to illness to surgery. If control is not established within the first few minutes of a hemorrhage, further treatment and healing are impossible.
The editors of R&D Magazine have announced the opening of the 2015 R&D 100 Awards entry process. The R&D 100 Awards have a 50 plus year history of awarding the 100 most technologically significant products of the year. Past winners have included sophisticated testing equipment, innovative new materials, chemistry breakthroughs, biomedical products, consumer items, high-energy physics and more.
The tree has been an effective model of evolution for 150 years, but a Rice Univ. computer scientist believes it’s far too simple to illustrate the breadth of current knowledge. Rice researcher Luay Nakhleh and his group have developed PhyloNet, an open source software package that accounts for horizontal as well as vertical inheritance of genetic material among genomes.
When munched by grazing animals (or mauled by scientists in the laboratory), some herbaceous plants overcompensate, producing more plant matter and becoming more fertile than they otherwise would. Scientists say they now know how these plants accomplish this feat of regeneration. They report their findings in Molecular Ecology.
North Carolina State Univ. researchers have developed a potential new weapon in the fight against cancer: a daisy-shaped drug carrier that’s many thousands of times smaller than the period at the end of this sentence. Once injected into the bloodstream, millions of these “nanodaisies” sneak inside cancer cells and release a cocktail of drugs to destroy them from within.
Tiny, thin microtubes could provide a scaffold for neuron cultures to grow so that researchers can study neural networks, their growth and repair, yielding insights into treatment for degenerative neurological conditions or restoring nerve connections after injury. Researchers created the microtube platform to study neuron growth.
The bones and teeth of two—possibly related—Ice-Age infants, who were buried more than 11,000 years ago in central Alaska, constitute the youngest human remains ever found in the North American Arctic, according to a new paper published by National Science Foundation-funded researchers.
Use of “antibiograms” in skilled nursing facilities could improve antibiotic effectiveness and help address problems with antibiotic resistance. Antibiograms are tools that aid health care practitioners in prescribing antibiotics in local populations. They are based on information from microbiology laboratory tests and provide information on how likely a certain antibiotic is to effectively treat a particular infection.
Global warming is likely playing a bigger role than previously thought in dead zones in oceans, lakes and rivers around the world and it's only going to get worse, according to a new study. Dead zones occur when fertilizer runoff clogs waterways with nutrients, such as nitrogen and phosphorous. That leads to an explosion of microbes that consumes oxygen and leaves the water depleted of oxygen, harming marine life.
A study conducted in part at the SLAC National Accelerator Laboratory has revealed how a key human protein switches from a form that protects cells to a form that kills them—a property that scientists hope to exploit as a “kill switch” for cancer. The protein, called cIAP1, shields cells from programmed cell death, or apoptosis.
In a step toward robots smaller than a grain of sand, Univ. of Michigan researchers have shown how chains of self-assembling particles could serve as electrically activated muscles in the tiny machines. So-called microbots would be handy in many areas. But several challenges lie between current technologies and science fiction possibilities. Two of the big ones are building the bots and making them mobile.
Chemists at The Scripps Research Institute and the Shanghai Institute of Organic Chemistry have described a method for creating and modifying organic compounds that overcomes a major limitation of previous methods. The advance opens up a large number of novel chemical structures for synthesis and evaluation, for example, as candidate pharmaceuticals.
Photosynthesis is probably the most well-known aspect of plant biochemistry. It enables plants, algae and select bacteria to transform the energy from sunlight during the daytime into chemical energy in the form of sugars and starches (as well as oils and proteins), and it involves taking in carbon dioxide from the air and releasing oxygen derived from water molecules.