Lifeboat Foundation

A new study carried out by an international team of researchers, using the chemistry of ocean sediments has highlighted a widespread picture of Atlantic circulation changes associated with rapid climate change in the past.

The new integrated dataset, published today in the journal Nature Communications, provides new insights into the interactions of melting ice, ocean circulation and climate change, with potential implications for future long-term changes in the Earth systems with global climate change.

Dr. Hong Chin Ng from the University of Bristol’s School of Earth Sciences, is the study’s lead author.

Continue reading “Deglacial changes in western Atlantic Ocean circulation” »

From liquid laundry detergent packaged in cardboard to compostable plastic cups, consumer products these days are increasingly touting their sustainable and renewable origins.

Now researchers at Georgia Institute of Technology have created a material derived from crab shells and tree fibers that has the potential to replace the flexible plastic packaging used to keep food fresh.

The new material, which is described July 23 in the journal ACS Sustainable Chemistry and Engineering, is made by spraying multiple layers of chitin from crab shells and cellulose from trees to form a flexible film similar to plastic packaging film.

Continue reading “Material formed from crab shells and trees could replace flexible plastic packaging” »

A glimpse at the coming AI researchers. (AI’s that do research).

A new type of artificial-intelligence-driven chemistry could revolutionise the way molecules are discovered, scientists claim.

In a new paper published today in the journal Nature, chemists from the University of Glasgow discuss how they have trained an artificially-intelligent organic chemical synthesis robot to automatically explore a very large number of chemical reactions.

Continue reading “Robot chemist discovers new molecules and reactions” »

In a new study published in “Geochemistry, Geophysics, Geosystems” an international team of scientists explain that there may be more than a quadrillion tons of diamonds scattered throughout the Earth, buried in ancient slabs of rocks known as cratonic roots. They came across these by studying seismic wave movement.

Groundbreaking research shows that neurological health depends as much on signals sent by the body’s large, leg muscles to the brain as it does on directives from the brain to the muscles. Published today in Frontiers in Neuroscience, the study fundamentally alters brain and nervous system medicine — giving doctors new clues as to why patients with motor neuron disease, multiple sclerosis, spinal muscular atrophy and other neurological diseases often rapidly decline when their movement becomes limited.

“Our study supports the notion that people who are unable to do load-bearing exercises — such as patients who are bed-ridden, or even astronauts on extended travel — not only lose muscle mass, but their body chemistry is altered at the cellular level and even their nervous system is adversely impacted,” says Dr. Raffaella Adami from the Università degli Studi di Milano, Italy.

The study involved restricting mice from using their hind legs, but not their front legs, over a period of 28 days. The mice continued to eat and groom normally and did not exhibit stress. At the end of the trial, the researchers examined an area of the brain called the sub-ventricular zone, which in many mammals has the role of maintaining nerve cell health. It is also the area where neural stem cells produce new neurons.

Continue reading “Leg Exercise is Critical to Brain and Nervous System Health” »

“Every time you miss a protein crystal, because they are so rare, you risk missing on an important biomedical discovery.”

- Patrick Charbonneau, Duke University Dept. of Chemistry and Lead Researcher, MARCO initiative.

Protein crystallization is a key step to biomedical research concerned with discovering the structure of complex biomolecules. Because that structure determines the molecule’s function, it helps scientists design new drugs that are specifically targeted to that function. However, protein crystals are rare and difficult to find. Hundreds of experiments are typically run for each protein, and while the setup and imaging are mostly automated, finding individual protein crystals remains largely performed through visual inspection and thus prone to human error. Critically, missing these structures can result in lost opportunity for important biomedical discoveries for advancing the state of medicine.

Continue reading “Automating Drug Discoveries Using Computer Vision” »

Chemical innovation plays a key role in developing cutting-edge technologies for the military. Research chemists design and synthesize new molecules that could enable a slew of next-generation military products, such as novel propellants for spacecraft engines; new pharmaceuticals and medicines for troops in the field; lighter and longer-lasting batteries and fuel cells; advanced adhesives, coatings and paints; and less expensive explosives that are safer to handle. The problem, however, is that existing molecule design and production methods rely primarily on experts’ intuition in a laborious, trial-and-error research process.

DARPA’s Make-It program, currently in year three of a four-year effort, is developing software tools based on machine learning and expert-encoded rules to recommend synthetic routes (i.e., the “recipe” to make a particular molecule) optimized for factors such as cost, time, safety, or waste reduction. The program seeks to free chemists so that they may focus their energy on chemical innovation, rather than testing various molecular synthesis pathways. The program also is developing automated devices that uniformly and reproducibly create the desired chemical based on the software-generated recipe – this one-device, many-molecules concept is a departure from the traditional dedicated reactors in chemical production. Make-It research teams have recently demonstrated significant progress toward fully automated rapid molecule production, which could speed the pace of chemical discovery for a range of defense products and applications.

“A seasoned research chemist may spend dozens of hours designing synthetic routes to a new molecule and months implementing and optimizing the synthesis in a lab,” said Anne Fischer, program manager in DARPA’s Defense Sciences Office. “Make-It is not only freeing chemists to expend brain power in other areas such as molecular discovery and innovation, it is opening chemical synthesis and discovery to a much broader community of scientific researchers who will benefit from faster development of new molecules.”

Continue reading “The Right Chemistry, Fast: Employing AI and Automation to Map Out and Make Molecules” »

An interview with Dr. Vadim Gladyshev, Harvard University.

We have recently had occasion to have a chat with Dr. Vadim Gladyshev, Professor of Medicine and Director of Redox Medicine at Brigham and Women’s Hospital, Harvard Medical School, in Boston, Massachusetts. He is an expert in aging and redox biology and is known for his characterization of the human selenoproteome. His research laboratory focuses on comparative genomics, selenoproteins, redox biology, and, naturally, aging and lifespan control.

Dr. Gladyshev graduated from Moscow State University, in Moscow, Russia; his postdoctoral studies in the 1990s took place at the National Heart, Lung, and Blood Institute, and the National Cancer Institute, in Bethesda, Maryland. Even when he was young, he was very much interested in chemistry and experimental science: he twice won the regional Olympiad in chemistry and graduated from high school with a gold medal. He also graduated with the highest honors from Moscow State University. This enviable track record is even more impressive considering that Dr. Gladyshev completed music school and high school at the same time and became a chess player equivalent to national master during his college years.

Continue reading “Dr. Vadim Gladyshev – Harvard University” »

Microsoft is “all-in” on building a quantum computer and is making advancements “every day”, according to one of the company’s top experts on the technology.

Julie Love (above), Director of Quantum Computing, called the firm’s push to build the next generation of computer technology “one of the biggest disruptive bets we have made as a company”.

Continue reading “Microsoft making progress on quantum computer ‘every day’” »