The American Society for Biochemistry and Molecular Biology is pleased to announce the winners of its annual awards, and the times and titles of their talks at ASBMB 2018 in San Diego in late April.
During a recent weeklong coding marathon at Brookhaven Lab, scientists, code developers, and computing hardware experts achieved from 2x to 40x speedups for scientific application codes running on supercomputers powered by Intel processors for high-performance computing.
Most of us don’t think about our teeth and bones until one aches or breaks. A team of engineers at Washington University in St. Louis looked deep within collagen fibers to see how the body forms new bone and teeth, seeking insights into faster bone healing and new biomaterials.
A research team led by Associate Professor He Jianzhong from the Department of Civil and Environmental Engineering at NUS Faculty of Engineering has found that a natural bacterium isolated from mushroom crop residue can directly convert cellulose to biobutanol, a biofuel.
The 2018 ASBMB Annual Meeting in San Diego will feature talks by winners of the Journal of Biological Chemistry/Herbert Tabor Young Investigator Awards, on April 22.
A simple activity will demonstrate how chemistry is essential for creating consumer products – specifically liquid hand soaps – at the American Cleaning Institute’s (ACI) booth during the USA Science & Engineering Festival April 7-8 in Washington, D.C. At the ACI booth (#6436), students will visit a series of stations to learn about the function of several ingredients found in a liquid hand soap.
It's called a nanoflower, but if you could brush your cheek against its microscopic petals, you would find them cool, hard, and...rusty. Common rust forms the inner skeleton of these lovely and intricate nanostructures, while their outer layer is a kind of plastic. Researchers at Washington University in St. Louis have developed a straightforward way to make this type of conducting polymer with high surface area that is likely to be useful for energy transfer and storage applications.
Scientists at Queen’s University Belfast who invented a liquid that can dissolve remarkably large amounts of gas, have launched a new spin out company Porous Liquid Technologies Ltd.
A team at the Department of Energy’s Oak Ridge National Laboratory has designed and synthesized a selective molecular trap that can separate the minor actinide element americium from a mixture of americium and the lanthanide elements.
• Scientists untangle the structure of a recently discovered bacterial wall-building protein, found in nearly all bacteria
• The discovery unveils potential weak spots in the protein’s molecular make-up
• Findings can pave the way to next-generation broad-spectrum drugs that disrupt the protein’s function and disarm harmful bacteria
Scientists from the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a way to print 3-D structures composed entirely of liquids. Using a modified 3-D printer, they injected threads of water into silicone oil — sculpting tubes made of one liquid within another liquid.
Scientists at the U.S. Department of Energy’s (DOE) Argonne National Laboratory have published a new study that identifies the process by which holes get trapped in nanoparticles made of zinc oxide, a material of potential interest for solar applications because it absorbs ultraviolet light.
Cells can avoid “data breaches” when letting signaling proteins into their nuclei thanks to a quirky biophysical mechanism involving a blur of spaghetti-like proteins, researchers from the Rockefeller University and the Albert Einstein College of Medicine have shown. Their study appears in the March 23 issue of the Journal of Biological Chemistry.
When it comes to the special sauce of batteries, researchers at the Department of Energy's Pacific Northwest National Laboratory have discovered it's all about the salt concentration.
There’s a class of materials responsible for the chemistry we rely on to make fertilizer for crops, create prescription drugs and refine oil into gasoline. They’re called catalysts, and they speed up chemical reactions and steer the direction of the changes that happen during the transformation from one chemical compound to another. Despite the fact that many catalysts are commonly found in biology (these catalysts are called enzymes), the chemistries of most catalysts are still not fully understood because of their complexity.
Argonne scientists and collaborators have identified another elemental actor in catalytic reactions that helps activate palladium while reducing the amount of the precious metal needed for those reactions to occur.
Michigan State University scientists are testing a promising drug that may stop a gene associated with obesity from triggering breast and lung cancer, as well as prevent these cancers from growing.
An organic chemical compound shows effective antiviral activity against Ebola virus and several other viruses, according to a study led by Georgia State University.
Researchers at the U.S. Department of Energy Joint BioEnergy Institute (JBEI) and Lawrence Berkeley National Laboratory (Berkeley Lab) have discovered a new enzyme that will enable microbial production of a renewable alternative to petroleum-based toluene, a widely used octane booster in gasoline that has a global market of 29 million tons per year.
In a news story for the Inside Science News Service this week, staff journalist and editor Jason Socrates Bardi describes a project by California scientists who genetically engineered yeast with basil and mint genes to give beer a hoppy flavor without the need to add the actual flowers. Read the story for free today.
Scientists have used the Hubble Space Telescope to chemically analyze the gas in the Leading Arm (the arching collection of gas that connects the Magellanic Clouds to the Milky Way) and determine its origin.
A team of biologists has deciphered how neurons used in the perception of motion form in the brain of a fly —a finding that illustrates how complex neuronal circuits are constructed from simple developmental rules.
A new, growing group of scientists at the University of Iowa is researching how to address the storage and potential reuse of nuclear waste. Armed with grants from various federal agencies, UI faculty also are educating undergraduate and graduate students in radiochemistry.
Researchers at the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley have discovered that as plants develop they craft their root microbiome, favoring microbes that consume very specific metabolites. Their study could help scientists identify ways to enhance the soil microbiome for improved carbon storage and plant productivity.
COSMIC, a next-generation X-ray beamline now operating at Berkeley Lab, brings together a unique set of capabilities to measure the properties of materials at the nanoscale. It allows scientists to probe working batteries and other active chemical reactions, and to reveal new details about magnetism and correlated electronic materials.
The Skaggs Graduate School of Chemical and Biological Sciences at The Scripps Research Institute is ranked among the top ten in the nation according to a recent survey by U.S. News & World Report.
Tiny floating robots could be useful in all kinds of ways, for example, to probe the human gut for disease or to search the environment for pollutants. In a step toward such devices, researchers describe a new marriage of materials, combining ultrathin 2-D electronics with miniature particles to create microscopic machines.
It’s likely not the first thing you think of when you see elephant dung, but this material turns out to be an excellent source of cellulose for paper manufacturing in countries where trees are scarce, scientists report. And in regions with plenty of farm animals such as cows, upcycling manure into paper products could be a cheap and environmentally sound method to get rid of this pervasive agricultural waste.
The average American drinks more than three cups of coffee a day, contributing to a $40 billion industry in the U.S. alone, according to the National Coffee Association. But not all coffee is created equal; flavor profiles vary. Focusing on espresso, scientists say they have now unlocked the key to creating consistent cups of java.
From moon landings to mobile phones, many of the farfetched visions of science fiction have transformed into reality. In the latest example of this trend, scientists report that they have developed a powerful printer that could streamline the creation of self-assembling structures that can change shape after being exposed to heat and other stimuli.
Bacterial infections that target the intestine can cause conditions that range from uncomfortable to deadly. While it’s easy to blame the bacteria, it’s actually the toxins the bacteria produce that trigger inflammation, diarrhea, fever and cramps.
A compound in beets that gives the vegetable its distinctive red color could eventually help slow the accumulation of misfolded proteins in the brain, a process that is associated with Alzheimer’s disease. Scientists say this discovery could lead to the development of drugs that could alleviate some of the long-term effects of the disease, the world’s leading cause of dementia.
If scientists are ever going to deliver on the promise of implantable artificial organs or clothing that dries itself, they'll first need to solve the problem of inflexible batteries that run out of juice too quickly. They're getting closer, and today researchers report that they've developed a new material by weaving two polymers together in a way that vastly increases charge storage capacity.
Stainless steel is the gold standard for kitchen appliances and cookware, described as modern and sleek. But bacteria can grow on stainless steel surfaces, contaminating food. Current coatings available on the market are pricey and potentially harmful, so scientists have now developed an affordable specialized polymer coating for such surfaces that they can recharge with bleach treatments.
The recent Thomas Fire in California was the largest wildfire in the state’s modern history. It scorched nearly 282,000 acres between December 2017 and January 2018, and serves as a reminder of how devastating such events can be. Now, researchers report that wildfires in forested watersheds can have a variable but predictable impact on the substances that are released from soils and flow into drinking water sources.
From floral perfume to fruity body wash and shampoos, scents heavily influence consumer purchases. But for most, the smell doesn’t last long after showering before it fades away. Scientists have now developed a way to get those fragrances to stick to the skin longer instead of washing down the drain immediately after being applied.
UT Southwestern Medical Center geneticist Dr. Helen Hobbs is the 2018 recipient of the Harrington Prize for Innovation in Medicine for her discovery of a novel way to reduce cholesterol. Dr. Hobbs, Director of the Eugene McDermott Center for Human Growth and Development, Professor of Internal Medicine and Molecular Genetics, is the fifth recipient of the Harrington Prize and the first woman to be honored.
A research team at the University of Delaware has developed technology to program strands of DNA into switches that turn proteins on and off. This technology could lead to the development of new cancer therapies and other drugs.
Personalized medicine is one step closer for consumers, thanks to tiny, implantable sensors that could give an early warning of a person’s developing health problems, indicate the most effective type of exercise for an individual athlete, or even help triage wounded soldiers. That’s the vision for a family of devices that scientists are now developing.
This year’s unexpectedly aggressive flu season reminds everyone that although the flu vaccine can reduce the number of people who contract the virus, it is still not 100 percent effective. Researchers report that a tweak to a small-molecule drug shows promise for future production of new antiviral therapies that could help patients, regardless of the strain with which they are infected.
Drug overdoses are taking a huge toll on public health, with potent synthetic drugs posing a particular threat. Medical professionals are scrambling to meet the growing demand for emergency room treatment, but they’re hampered by the lack of a quick and easy test to screen patients for these “designer” drugs.
The world drinks a lot of wine, and that means a lot of grapes are consumed every year. But not every part of the grape ends up in the bottle. Seeds, stalks and skins — roughly a quarter of the grapes —- are typically discarded in landfills as waste. But now, researchers say they have found some useful commercial applications, such as prolonging the shelf life of fatty foods, for these wine leftovers.
The Colonial Pipeline, which carries fuel from Texas to New York, ruptured last fall, dumping a quarter-million gallons of gas in rural Alabama. By the time the leak was detected during routine inspection, vapors from released gasoline were so strong they prevented pipeline repair for days. Now, scientists are developing technology that would alert pipeline managers about leaks as soon as failure begins, avoiding the environmental disasters and fuel distribution disruptions resulting from pipeline leaks.
Setting off smoke bombs is more than good fun on the Fourth of July. The military uses smoke grenades in dangerous situations to provide cover for people and tanks on the move. But the smoke arms race is on. Increasingly, sensors can now go beyond the visible range into the infrared (IR) region of the spectrum.
All press conferences from the American Chemical Society’s 255th National Meeting & Exposition in New Orleans will be accessible live on YouTube starting on Monday, March 19, at 9:30 a.m. CDT. The link to the live press conferences is http://bit.ly/ACSLive_NOLA (“ACSLive_NOLA” is case sensitive).
EVANSTON - A Northwestern University team has leveraged super material graphene to develop a new hair dye that is non-toxic, non-damaging and lasts through many washes without fading.