New Genetic Cause of Microcephaly Identified

Huu Phuc Nguyen, Pauline Ulmke, and Tran Tuoc (from left) contributed significantly to the work. 
Photo Credit: © RUB, Marquard

Microcephaly is a congenital malformation that leads to a significantly reduced brain size and is often accompanied by developmental delay. An international research team led by Dr. Tran Tuoc from the Department of Human Genetics at Ruhr University Bochum, Germany, has discovered a previously unknown genetic cause for this condition. Mutations in the EXOSC10 gene – a central component of the RNA degradation complex (“exosome”) – cause primary microcephaly. The work was published in the journal BRAIN. 

Precise balance of stem cells

During human brain development, neural stem cells must balance self-renewal and differentiation to build the cerebral cortex – the brain’s outer layer responsible for cognition and perception. If this balance is disturbed, malformations occur. “Recent advances in genome sequencing and genetic engineering are transforming our understanding of neurodevelopmental disorders”, Tuoc Tran says.

Coronal mass ejections at the dawn of the solar system

Artist's depiction of a coronal mass ejection from EK Draconis. The hotter and faster ejection is shown in blue, while the cooler and slower ejection is shown in red.
Image Credit: National Astronomical Observatory of Japan

Down here on Earth we don't usually notice, but the Sun is frequently ejecting huge masses of plasma into space. These are called coronal mass ejections (CMEs). They often occur together with sudden brightenings called flares, and sometimes extend far enough to disturb Earth's magnetosphere, generating space weather phenomena including auroras or geomagnetic storms, and even damaging power grids on occasion.

Scientists believe that when the Sun and the Earth were young, the Sun was so active that these CMEs may have even affected the emergence and evolution of life on the Earth. In fact, previous studies have revealed that young Sun-like stars, proxies of our Sun in its youth, frequently produce powerful flares that far exceed the largest solar flares in modern history.

The Power of Geckos: TU Wien Solves the Puzzle of Large Molecules

An example for large molecules with Van-der-Waals forces
Image Credit: Technische Universität Wien

A puzzle in theoretical chemistry has been solved at TU Wien: a new computational method now makes it possible to calculate the forces between large molecules with unprecedented accuracy.

Why can geckos walk up walls? Why does nitrogen become liquid at –196 °C? Many everyday phenomena can be explained by van der Waals forces – weak bonds between molecules that are notoriously difficult to calculate. For years, scientists have struggled with the fact that different computational methods produced conflicting results.

Now, researchers at TU Wien have resolved this discrepancy and found a solution. Ironically, it was the very method long considered the “gold standard” of quantum chemistry that turned out to be the source of the error: it systematically overestimates the energy contained in certain molecular bonds. With an improved variant, the TU Wien team can now correctly predict the behavior of large molecules – an essential step for understanding biological systems and for advancing renewable energy technologies.

Rare Brain Cell May Hold the Key to Preventing Schizophrenia Symptoms

A new study from the University of Copenhagen shows that a targeted intervention in a specific type of brain cell can change behavior in mice with symptoms resembling schizophrenia. The researchers hope that this knowledge may eventually pave the way for more targeted treatments for conditions such as schizophrenia.
Image Credit: Scientific Frontline / AI generated

A specific type of brain cell is abnormally active in mice exhibiting behavior reminiscent of schizophrenia, according to a new study from the University of Copenhagen. By dampening the activity of these cells, researchers were able to restore the animals’ behavior—an insight that may pave the way for a new preventive treatment.

Difficulty completing everyday tasks. Failing memory. Unusually poor concentration.

For many people living with schizophrenia, cognitive challenges are part of daily life. Alongside well-known symptoms such as hallucinations and delusions, these difficulties can make it hard to live the life they want. That is why researchers at the University of Copenhagen are working to find ways to prevent such symptoms - and they may now be one step closer.

In a new study, researchers discovered that a specific type of brain cell is abnormally active in mice displaying schizophrenia-like behavior. When the researchers reduced the activity of these cells, the mice’s behavior changed.

“Current treatments for cognitive symptoms in patients with diagnoses such as schizophrenia are inadequate. We need to understand more about what causes these cognitive symptoms that are derived from impairments during brain development. Our study may be the first step toward a new, targeted treatment that can prevent cognitive symptoms,” says Professor Konstantin Khodosevich from the Biotech Research and Innovation Center at the University of Copenhagen, and one of the researchers behind the study.

Trillions of insects fly above us - weather radar reveals alarming declines

The marmalade hoverfly is a well known migrant that comes across the Channel each year.
Photo Credit: Christopher Hassall

Scientists have made a breakthrough in monitoring insect populations across the UK using an unexpected tool: weather radar.

Traditionally used to track rainfall and storms, these radars are now helping researchers monitor the daily movements and long-term numbers of flying and floating creatures - including bees, moths, flies, spiders, and other arthropods.

The study, published in the peer-reviewed journal Global Change Biology, examined radar data collected between 2014 and 2021 over 35,000 square kilometers of the UK. It found that while daytime insect numbers have remained relatively stable or even increased in southern regions, nighttime-airborne insects have declined overall - especially in the far north.

Scientists develop an efficient method of producing proteins from E. coli

Proteins are synthesized through two processes involving DNA: transcription, which converts DNA into mRNA; and translation, where ribosomes read the mRNA and sequentially link amino acids to form proteins. This image illustrates the translation process accelerated to produce proteins more efficiently.
 Image Credit: Teruyo Ojima-Kato

Proteins sourced from microorganisms are attracting attention for their potential in biomanufacturing a variety of products, including pharmaceuticals, industrial enzymes, and diagnostic antibodies. These proteins can also be used for converting resources into biofuels and bioplastics, which could serve as viable alternatives to petroleum-based fuels and products. Therefore, efficiently producing microbial proteins could make a significant contribution to sustainable manufacturing.

Producing proteins from Escherichia coli (E. coli) has become popular due to its cost-effectiveness and efficiency. However, yields of protein production in E. coli may be reduced depending on the specific gene sequence of the target protein.

New findings on how breastfeeding affects the skeleton could boost development of drugs against osteoporosis

Within six months or less after the women stopped breastfeeding, the researchers observed a seven percent difference in bone density.
Photo Credit: Wendy Wei

Pregnancies do not weaken a woman’s skeleton. Breastfeeding, however, can reduce bone density considerably. These are findings from a research report produced at Lund University in Sweden. But breastfeeding women need not worry.

“There is a dip, but the body is absolutely fantastic at making up the loss,” says Kristina Åkesson, professor of orthopedics.

Breastfeeding and pregnancy both require large amounts of calcium. That is why Lund University researchers Lisa Egund and Kristina Åkesson wanted to examine how the reproductive cycle affects the bone density of women. The study followed 750 women over a ten-year period to investigate the effect of pregnancy and breastfeeding on the skeleton. 

The women were 25 years old when the study began – an age when bone density is normally highest. Ten years later, the data was collected: How many had been pregnant and had children? If so, how many children? Were the children breastfed, and if so for how long?

How unlocking ‘sticky’ chemistry may lead to better, cleaner fuels

Chemistry powered by renewable electricity offers a promising route to produce sustainable fuels and chemicals.
Photo Credit: Chokniti Khongchum

In a new study, chemists have developed a novel framework for determining how effectively carbon monoxide sticks to the surface of a catalyst during conversion from carbon dioxide. 

This stickiness, known as carbon monoxide (CO) adsorption energy, is a property that can often decide the final product of a chemical reaction. Using a widely accessible advanced electroanalytical technique, researchers found that the strength of this energy actually relies on a mix of reaction factors, including the type of catalyst material, applied voltage, and the surface’s structure.

This is a major step for the field, as gaining a better understanding of how CO adsorption works in real-time can help scientists search for innovative ways to recycle its counterpart, carbon dioxide, into useful fuel products, like methanol and ethanol. By designing better catalysts, these new insights could be used to accelerate the development of cleaner technologies that support a more sustainable future, said Zhihao Cui, lead author of the study and a postdoctoral student in chemistry at The Ohio State University.

New test can flag drugs that could be harmful to cats

Shelby
Photo Credit: Heidi-Ann Fourkiller

A new test developed at Washington State University will help pharmaceutical companies, veterinarians and regulatory agencies identify drugs that may trigger severe — but preventable — neurological side effects in some cats.

Even in healthy cats, many commonly prescribed drugs can cause dangerous reactions when administered in specific combinations or when given to felines born with a mutation in their MDR1 gene. This mutation disrupts a protein called P-glycoprotein, which normally helps remove harmful substances from the brain and body, putting affected cats at risk for serious reactions from drugs that are perfectly safe for most cats.

Developed by WSU veterinary pharmacologist Dr. Katrina Mealey and laboratory supervisor Neal Burke, the test can determine if a drug relies on P-glycoprotein to be safely processed. Using the test, Mealey and Burke identified 10 new drugs that pose a risk to affected cats. The findings were detailed in the journal Frontiers in Veterinary Science. The method is available as a fee-for-service through WSU, or companies and governing agencies can use the published procedure to run their own screenings.

Spotted lanternfly may use ‘toxic shield’ to fend off bird predators

Entomologists in Penn State’s College of Agricultural Sciences examined the potential for birds to feed on spotted lanternflies.
Photo Credit: Anne Johnson / Pennsylvania State University
(CC BY-NC-ND 4.0)

Spotted lanternflies may season themselves to the distaste of potential bird predators, according to a new study led by entomologists in Penn State’s College of Agricultural Sciences.

The findings, which were published in the Journal of Chemical Ecology, showed that several species of birds were less likely to eat spotted lanternflies that had fed on the pest’s preferred host, Ailanthus altissima, commonly known as tree of heaven. This suggests the pest stores nasty-tasting chemicals when they feed on the invasive plant that birds can detect, according to the research team.

Further, they said, the extent to which birds may play a role in pecking away at spotted lanternfly populations remains up in the air and depends on various factors.

Led by postdoctoral researcher Anne Johnson, the team investigated whether birds could serve as natural predators of the spotted lanternfly. This Asian planthopper causes damage to vineyards, orchards and the nursery industry.