Study: Ingestion of taurine delays aging

Treating mice with taurine led to increased lifespans and healthspans, a study in Science shows. Henning Wackerhage, Professor of Exercise Biology provided data on human test subjects hinting at similar mechanisms in humans.
Photo Credit: Andreas Heddergott / TUM

Taurine deficiency is one of the driving forces in the aging process of humans and animals. This is one of the results of a study which has now been published in the prestigious journal Science. Treatment with taurine extends the lifespan of mice by 10 percent. Monkeys that receive the treatment remain healthy for longer. It is not known whether these two results apply to humans. However, the study demonstrates a link between some age-related diseases and low taurine levels.

Treating mice with taurine led to increased lifespans and healthspans, a study in Science shows. Henning Wackerhage, Professor of Exercise Biology provided data on human test subjects hinting at similar mechanisms in humans.

Ancient herbivore’s diet weakened teeth leading to eventual starvation

Reconstruction of the rhynchosaur Bentonyx from the Middle Triassic of Devon, about 245 million years ago.
Illustration Credit: Reconstruction artwork by Mark Witton

A team of researchers from the University of Bristol have shed light on the life of the ancient reptile Rhynchosaur, which walked the earth between 250-225 million years ago, before being replaced by the dinosaurs.

Rhynchosaurs are a little-understood group of roughly sheep-sized ancient reptiles that thrived during the Triassic Period, a time of generally warm climates and tough vegetation.  

In the new study, the researchers studied specimens found in Devon and used CT scanning to see how the teeth wore down as they fed, and how new teeth were added at the backs of the tooth rows as the animals grew in size.

The findings, published today in Palaeontology, show that these early herbivores likely eventually starved to death in old age, the vegetation taking its toll on their teeth.

“I first studied the rhynchosaurs years ago,” said team-leader Professor Mike Benton from Bristol’s School of Earth Sciences, “and I was amazed to find that in many cases they dominated their ecosystems. If you found one fossil, you found hundreds.

Key clue to what causes cancer

Photo Credit: PDPics

Australian cancer researchers have made an important new connection between a person’s cancer risk and the functions of circular RNAs, a recently discovered family of genetic fragments present within our cells. 

A new Flinders University-led study published in Cancer Cell, one of the world’s top cancer journals, finds that specific circular RNAs within many of us can stick to the DNA in our cells and cause DNA mutations which result in cancer. 

“While environmental and genetic factors have long been believed the major contributors to cancer, this revolutionary finding – which we call ‘ER3D’ (from ‘endogenous RNA directed DNA damage’) – ushers in an entirely new area of medical and molecular biology research,” says Flinders University Professor Simon Conn, who leads the Circular RNAs in Cancer Laboratory at the Flinders Health and Medical Research Institute. 

“This is the first example of a genetic molecule present within many of us which has the capacity to mutate our very own DNA and drive cancer from inside.  

“This opens the door to use these molecules as new therapeutic targets and markers of disease at a very early stage, when the likelihood of curing cancers is much higher.”  

Study finds the best plants and bee hotels for boosting urban bee numbers

Photo Credit: Dr Kit Prendergast

The presence of more native Australian flowering plants in urban areas can help boost declining bee numbers, with new Curtin University research finding them to be the preferred source of food for both native bees and the introduced European honeybee.

The study focused on 14 sites across the Perth metropolitan area, including bushland remnants and home gardens,

Researcher Dr Kit Prendergast from the Curtin School of Molecular and Life Sciences, said the study found Australian and introduced bees preferred to visit and feed from native flowers and plants rather than exotic species, with the former particularly reliant on native flora.

“With wild bees facing a global decline, largely due to habitat loss through urbanization, it is vital to understand their preferences. Although urban areas often have a diversity of flowers compared to natural habitats, many of these flowers are exotic species,” Dr Prendergast said.

The research also helps homeowners, landscapers, landcare communities and councils with a “top ten” species to plant.

Scientists Discover what Influences Seawater Freezing Rates

Sea ice freezes faster when temperatures fluctuate.
Photo Credit: Cassie Matias

Seawater freezes faster in the presence of wind and underwater currents at temperatures below zero. This was found out by experts from the Laboratories of Multiscale Mathematical Modeling, and Climate and Environmental Physics of the Ural Federal University. They created a mathematical model and calculated the conditions of seawater freezing. The description of the model and its conclusions were published in the European Physical Journal.

"It turns out that at temperatures around zero and below, even a slight breeze affects the rate of ice formation. The fact is that the wind, just like the underwater current, causes fluctuations (jumps) in temperature, and this in turn leads to faster formation of ice crystals. In other words, with wind or underwater currents, ice freezes faster, the ice layer becomes thicker. Yes, it is looser, not as dense, but the rate of formation increases," explains study co-author Evgeniya Makoveeva, Lead Researcher at the Laboratory of Multi-Scale Mathematical Modeling of the Ural Federal University.

This happens at any temperature suitable for crystallization, the scientist adds. The effect of temperature is amplified by external noises - wind and underwater currents - that "bring" different temperatures.

Some Gut Bacteria Linked to Precancerous Colon Polyps

Scientific Frontline stock graphic

A new study by Harvard Medical School investigators at Massachusetts General Hospital has linked certain types of gut bacteria to the development of precancerous colon polyps. Their results are published in Cell Host & Microbe.

“Researchers have done a lot of work to understand the relationship between the gut microbiome and cancer. But this new study is about understanding the microbiome’s influence on precancerous polyps,” said co-corresponding author Daniel C. Chung, HMS professor of medicine, medical co-director of the Center for Cancer Risk Assessment at Mass General Cancer Center, and a faculty member of the gastroenterology division at Mass General.

“Through the microbiome, we potentially have an opportunity to intervene and prevent colorectal cancer from forming,” he said.

Colorectal cancer is the second-leading cause of cancer-related deaths in the U.S., and rates of colorectal cancer are rising among young adults.

Nearly all colorectal cancers arise from a precancerous polyp. One of the best ways to reduce the incidence of colorectal cancer is to stop the growth at the polyp stage.

New model offers a way to speed up drug discovery

Researchers can screen more than 100 million compounds in a single day — much more than any existing model.
Photo Credit: Myriam Zilles

Huge libraries of drug compounds may hold potential treatments for a variety of diseases, such as cancer or heart disease. Ideally, scientists would like to experimentally test each of these compounds against all possible targets, but doing that kind of screen is prohibitively time-consuming.

In recent years, researchers have begun using computational methods to screen those libraries in hopes of speeding up drug discovery. However, many of those methods also take a long time, as most of them calculate each target protein’s three-dimensional structure from its amino-acid sequence, then use those structures to predict which drug molecules it will interact with.

Researchers at MIT and Tufts University have now devised an alternative computational approach based on a type of artificial intelligence algorithm known as a large language model. These models — one well-known example is ChatGPT — can analyze huge amounts of text and figure out which words (or, in this case, amino acids) are most likely to appear together. The new model, known as ConPLex, can match target proteins with potential drug molecules without having to perform the computationally intensive step of calculating the molecules’ structures.

Researchers warn of future ‘fish wars’ as consequence of climate change

Photo Credit: Sabrina Eickhoff

How climate change could give rise to “fish wars” between nations is the subject of a new research project awarded a £1.1m grant by the US Department of Defense.

The project, entitled “Future Fish Wars: Chasing Ocean Ecosystem Wealth”, is one of 11 to receive a total funding of $18m as part of the US Department of Defense's Minerva Research Initiative, which supports research in social and behavioral sciences on topics relevant to US national security.

The researchers aim to develop new economic theory and approaches to measure the economic value of fisheries in the context of climate change and growing geopolitical ocean conflict.

They say illegal fishing, contested claims to fishing rights and future conflicts are likely outcomes as fish swim for the poles as a result of climate change warming the oceans. 

Over three years, the research team will develop new economic theory for valuing multiple stocks of marine resources, which they will use alongside novel data on conflict and cooperative events to achieve a deeper understanding of future fisheries conflict.

MethaneMapper is poised to solve the problem of underreported methane emissions

A central difficulty in controlling greenhouse gas emissions to slow down climate change is finding them in the first place.

Such is the case with methane, a colorless, odorless gas that is the second most abundant greenhouse gas in the atmosphere today, after carbon dioxide. Although it has a shorter life than carbon dioxide, according to the U.S. Environmental Protection Agency, it’s more than 25 times as potent as CO2 at trapping heat, and is estimated to trap 80 times more heat in the atmosphere than CO2 over 20 years.

 For that reason, curbing methane has become a priority, said UC Santa Barbara researcher Satish Kumar, a doctoral student in the Vision Research Lab of computer scientist B.S. Manjunath.

“Recently, at the 2022 International Climate Summit, methane was actually the highlight because everybody is struggling with it,” he said.

Even with reporting requirements in the U.S., methane’s invisibility means that its emissions are likely going underreported. In some cases, the discrepancies are vast, such as with the Permian Basin, an 86,000-square-mile oil and natural gas extraction field located in Texas and New Mexico that hosts tens of thousands of wells. Independent methane monitoring of the area has revealed that the site emits eight to 10 times more methane than reported by the field’s operators.

Greenhouse gas emissions at ‘an all-time high’, warn scientists

Photo Credit: Chris LeBoutillier

Human-caused global warming has continued to increase at an “unprecedented rate” since the last major assessment of the climate system published two years ago, say 50 leading scientists.

The research, published in the journal Earth System Science Data, found that human-induced warming averaged 1.14°C over the last decade and a record level of greenhouse gases is being emitted each year, equivalent to 54 billion tons of carbon dioxide. The remaining carbon budget - how much carbon dioxide can be emitted to have a better than 50% chance of holding global warming to 1.5°C - has halved over three years  

One of the researchers said the study was a “timely wake-up call” that the pace and scale of climate action has been insufficient, and it comes as climate experts meet in Bonn to prepare the ground for the major COP28 climate conference in the UAE in December, which will include a stock take of progress towards keeping global warming to 1.5°C by 2050.   

Given the speed at which the global climate system is changing, the scientists argue that policymakers, climate negotiators and civil society groups need to have access to up-to-date and robust scientific evidence on which to base decisions.