A Bird Flu Protein Link to Virulence
DECEMBER 12, 2006
New information obtained at an APS beamline represents great progress in understanding a particular virus strain that is responsible for lethal outbreaks of bird flu. A U.S. Department of Energy, Office of Science,
Office of Basic Energy Sciences national synchrotron x-ray research facility
DECEMBER 12, 2006
New information obtained at an APS beamline represents great progress in understanding a particular virus strain that is responsible for lethal outbreaks of bird flu.DECEMBER 5, 2006
Understanding the processes that operate at molecular interfaces is of critical importance in areas ranging from geochemistry to physics, but observing phenomena at such tiny scales isn't easy. A team of researchers has found a solution by developing a novel form of x-ray microscopy.NOVEMBER 20, 2006
Researchers using the APS to study H2O at high pressure instead discovered a new O2-H2 compound.OCTOBER 13, 2006
Researchers using the APS have captured the first images of the complex spray just millimeters from a high-pressure industrial spray nozzle, gaining information that is an important first step down the road toward improved industrial spray systems.OCTOBER 12, 2006
Researchers using Argonne and University of Chicago beamlines at the U.S. Department of Energy’s Advanced Photon Source have deciphered the 3-D structure of an enzyme that is a promising target for new drugs to treat Alzheimer's disease and diabetes.SEPTEMBER 8, 2006
The macroscopic flow properties of a wide assortment of disordered soft materials can change dramatically from fluid-like to solid-like with seemingly subtle changes in microscopic characteristics. Research at Advanced Photon Source is providing insights to the reasons glass ages, and could also help improve technologies such as paints, foods, and personal-care products.AUGUST 29, 2006
Figuring out how bacteria chemically modify and neutralize toxic metals without apparent harm to themselves could have an important impact on the bioremediation of radionuclide-contaminated environments. For some time, scientists have wondered how on earth these microbes do it. Brilliant x-ray beams from the Advanced Photon Source have helped researchers from the Pacific Northwest National Laboratory move closer to an answer.AUGUST 29, 2006
What makes certain types of bacteria resistant to a specific antibiotic? While looking for answers to that question, researchers using three beamlines at the Advanced Photon Source at Argonne have gained insights into the cause of a rare form of brain degeneration among children.AUGUST 3, 2006
The application of intense submicron-sized x-ray beams at the Advanced Photon Source has led to a discovery that has profound implications for understanding the mechanical strength and behavior of metals.AUGUST 1, 2006
Far above Earth, single-cell creatures embedded in nanostructures ride on the International Space Station to test whether nanostructures whose formations were directed by single cells can create secure homes for their occupants even in outer space.JULY 31, 2006
Digital video disc (DVD) technology isn’t new, but that doesn’t mean we know everything about the way these devices store our movies and data. Research carried out at the Advanced Photon Source offers new insights into the way this mature technology works and could lead to advances in data storage as well as within the computer industry as a whole.JULY 17, 2006
A gold-silicon alloy useful in nanotechnology exhibits unexpected and unusual liquid-like structures at its surface, a team of researchers has learned from experiments carried out at the U.S. Department of Energy’s Advanced Photon Source.JULY 14, 2006
Scientists using the Advanced Photon Source at Argonne National Laboratory have discovered surprising information about the way ions interact with mineral surfaces in water, opening the door to new knowledge on how contaminants travel in the environment and impact water quality.JULY 14, 2006
A sensitive x-ray diffraction imaging technique recently tested at the U.S. Department of Energy’s Advanced Photon Source can help the manufacturers of strained-silicon films avoid the bunching up of crystal defects caused by the manufacturing process.JULY 13, 2006
Important new information about the way melanoma cancer cells fight for their lives has been uncovered by researchers from the National Cancer Institute and the U.S. Department of Energy’s Argonne National Laboratory. This discovery could help improve current therapeutic approaches to stopping this pernicious disease.JULY 12, 2006
Complex, three-dimensional images of the interior of a nanocrystal have, for the first time, been obtained by researchers at the APS employing a new technique: inversion of coherent x-ray diffraction patterns.JUNE 13, 2006
Researchers using the Structural Biology Center 19-ID beamline at the APS have determined the structure of a key protein believed to play a role in a deadly infection that afflicts the lungs of patients with cystic fibrosis. This finding may lead to a new drug to treat the bacterial infection.MAY 23, 2006
Innovative synchrotron x-ray research techniques used at APS beamlines have yielded new information on the molecular structure of collagen. Because this ubiquitous protein is involved in cancer and heart disease, the data obtained in this study may help in the fight against these deadly ailments.MAY 15, 2006
Due to their unique structural properties, metals are ubiquitous in every-day life and are of central importance for competitive industries such as aviation and automobile manufacturing. Researchers using XOR beamline 1-ID have collected data that provide new insights into the ways metals deform, and establish decisive tests of advanced models of the strength of metals.APRIL 18, 2006
In the 31 March Physical Review Letters, researchers using the XOR 3-ID-C beamline at the APS report a surprising effect in a crystalline solid: a few-atom-wide vibration that refuses to spread through the material. Although predicted 20 years ago, the effect has never been conclusively seen in a three-dimensional crystal. The result seems to demonstrate the surprising ability of a uniform material to concentrate energy spontaneously.APRIL 14, 2006
Sharper focusing of hard x-rays has been achieved with a device developed at the Advanced Photon Source.APRIL 13, 2006
Researchers from the University of Illinois at Chicago; Northern Illinois University; the University of California, Santa Cruz; and ChemMatCARS (sector 15 at the APS) used x-ray reflectivity from ion distributions at the liquid-liquid interface to provide strong evidence that the interfacial structure of a liquid alters the ion distributions near a charged interface, contrary to earlier theories about ions at charged surfaces.APRIL 13, 2006
University of Tennessee scientists using the Industrial Macromolecular Crystallography Association and BioCARS beamlines at the APS have made a molecular discovery that can greatly improve the medicines used to treat cancer.APRIL 12, 2006
The transistor, which shaped so much of our modern technology and economics, grew out of scientists’ desire to gain a greater understanding of the interfaces between different materials. In the same way, today’s materials scientists seek to expand our understanding of complex oxides by creating new states at the interface of two materials.MARCH 13, 2006
Like modern-day alchemists, materials scientists often turn unassuming substances into desirable ones. But instead of working metal into gold, they create strange new compounds that could make the electronic components of the future smaller, faster, and more durable. Researchers from the Carnegie Institution’s Geophysical Laboratory, Lawrence Livermore National Laboratory, and the Atomic Weapons Establishment in England, using an HP-CAT beamline at the APS, have made two durable compounds possessing traits that could prove quite valuable to industry.FEBRUARY 20, 2006
Micron and nanosized magnets are of great interest for their potential applications in new electronic devices, such as magnetic random access memories. Researchers from Argonne National Laboratory have made some surprising discoveries about the behavior of these materials that may lead to a greater understanding of complex materials on the nanoscale.FEBRUARY 7, 2006
Important new information on methods for imaging the complex wave fields at the focus of x-ray zone plates without the need for conventional x-ray lenses has been obtained by researchers using the XOR beamline 2-ID at the Advanced Photon Source. The report of this discovery is the cover article for the February 2006 issue of Nature Physics.JANUARY 27, 2006
Scientists from Northwestern University and the Howard Hughes Medical Institute, using the sector 32 and sector 5 beamlines at the Advanced Photon Source and beamlines at the Advanced Light Source, have determined the molecular structure of a viral protein that is part of a family of viruses that causes everything from pneumonia, croup and bronchiolitis to cold-like illness and is responsible for many hospitalizations and deaths each year. Knowing the structure of this protein will aid in understanding all members of the virus family, which are among the most significant human and animal pathogens, causing both respiratory and systemic disease.JANUARY 18, 2006
High-speed radiography images of a sand jet created by dropping a marble into loose sand show that the sand briefly behaves like a special type of dense fluid. The images were captured by scientists from The University of Chicago and Universidad de Chile using the GSECARS 13-BM-D beamline at the APS. As noted on the researchers’ Web site, “Understanding the peculiar behavior of granular materials is vital for predicting and controlling them under a variety of industrial, civil engineering, and scientific conditions.”