Tag Archives: elusive

The Elusive Trigger Behind Parkinson’s Disease Finally Unveiled

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For the first time, researchers have successfully visualized and quantified small protein clusters in the human brain that may signal the onset of Parkinson’s disease.

These clusters, known as alpha-synuclein oligomers, have long been implicated in some of the fastest-expanding neurological disorders worldwide but had never been observed in brain tissue until now.

To identify these elusive proteins, the research team utilized a novel imaging method called Advanced Sensing of Parkinson’s Disease (ASA-PD) aggregates, which renders these nanometer-scale (one billionth of a meter) oligomers visible.

For decades, clinicians could confirm a diagnosis of Parkinson’s disease only by detecting larger deposits of proteins that build up in neurons. However, many researchers believe the disease actually initiates with these smaller oligomers.

“You can think of Lewy bodies as a sort of morbid gravestone,” stated Professor Stephen Lee from Cambridge’s Yusuf Hameed Department of Chemistry, who co-led the study. BBC Science Focus. “They indicate where the disease resides and its progression.”

To investigate the earlier phases of the disease, the team compared post-mortem brain samples from individuals with Parkinson’s disease to those from healthy individuals. Oligomers were present in both cohorts, surprising scientists, but were more abundant and vibrant in the brains of Parkinson’s patients.

“This marks the first occasion we’ve directly observed oligomers in human brain tissue at this scale, akin to spotting stars in daylight,” commented Dr. Rebecca Andrews, Co-First Author and former postdoctoral researcher in Lee’s lab.

The researchers also discovered subtle variations in the distribution of oligomers, which could signify the earliest stages of the disease prior to the onset of symptoms.

Scientists were able to visualize and count α-synuclein oligomers (shown in red) in brain tissue samples. Interestingly, these puncta were present in both Parkinson’s patients and healthy individuals, as depicted in the images of two Parkinson’s patients (top) and two healthy controls (bottom) – credits: Andrews et al. (2025)

Lee emphasized that while this study is a significant advancement, it should not be misconstrued as a means to directly find treatments. “We’re not at that stage,” he noted. “This research actually allows us to engage with the very early stages of the disease. From a therapeutic standpoint, it lays the groundwork for future developments.”

Currently, over 10 million people globally suffer from Parkinson’s disease, which lacks a treatment that addresses the underlying condition. Existing medications can manage symptoms like tremors, but none target the disease’s root cause or halt its progression.

A collaborative team from the University of Cambridge, the University of London, the Francis Crick Institute, and Polytechnique Montreal aims to utilize these findings to enhance methods for monitoring the efficacy of diagnostic tests and experimental treatments.

This imaging technique is also applicable beyond just Parkinson’s disease. “This approach provides more than just a snapshot,” said Professor Lucian Weiss from Polytechnique Montréal, who co-led the study. “It maps protein changes throughout the brain and similar techniques can be applied to other neurodegenerative disorders such as Alzheimer’s and Huntington’s diseases.”

“Oligomers were once like needles in a haystack, and now that we know their precise locations, it enables us to target specific cell types in designated areas of the brain.”

The findings of this study have been published in Nature Biomedical Engineering.

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Source: www.sciencefocus.com

Rediscovery of a Tiny Elusive Gecko in the Galapagos Islands

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Leaf-toed Gecko from Rabida Island

Rory Stansbury/Island Conservation

A small gecko has been rediscovered on Rabida Island in the Galapagos, previously believed to have been eradicated by invasive rats.

The leaf-toed gecko (Phyllodactylus maresi) measures just 8 centimeters in length, with a fossil record indicating its presence on Rabida over 5,000 years ago. However, live specimens were collected during expeditions in 2019 and 2021, confirming its survival as a species.

The gecko’s reappearance is linked to a successful restoration project led by the US-based nonprofit Island Conservation, which commenced in 2011. Collaborating with Galapagos National Park, the Charles Darwin Foundation, and the Raptor Center, the initiative also targets 10 other islands in the Galapagos, employing helicopters for large-scale distribution of poison bait to control invasive species.

By 2012, rats were officially deemed eradicated on Rabida, enabling a rapid ecological recovery, including the return of the gecko species. “We conducted thorough monitoring before the removal of invasive rats and found none,” stated Paula Castaño, an island conservation officer. “Initially, we had a small population, and without invasive predators, we finally had the chance to restore and expand that population, marking one of the most significant comebacks in history.”

Using DNA analysis, Castaño and her team discovered that the Rabida population is closely related to P. maresi from a neighboring island, yet it is classified as a distinct lineage known as evolutionarily significant units, emphasizing the critical need for conservation efforts.

The case of Rabida exemplifies the advantages of island restoration and invasive species removal, says Castaño. “We found a ‘extinct’ gecko alongside the last identified snail species from 1906. Furthermore, two additional snail species, once thought to be lost, were rediscovered on the island. “Nature is remarkable. It allows for rebirth and regeneration.”

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Source: www.newscientist.com

Webb discovers the highly elusive “Einstein Ring”

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Light from the very distant spiral galaxy was bent and expanded by the gravity of the members of the Galaxy Cluster SMACSJ0028.2-7537 to form a ring-like structure known as the Einstein ring.

This composite image combines data from Webb’s near-infrared camera (Nircam), Hubble’s Widefield Camera 3 (WFC3), and advanced cameras for survey (ACS) equipment, showing Einstein’s rings around the elliptical galaxy of the Galaxy Cluster. Image credits: NASA/ESA/CSA/Webb/G. Mahler.

Einstein RingAlso known as Einstein-Chwolson Rings or Chwolson Rings, occurs when light from very distant objects bend around a large intermediate object.

“This is possible because space-time, the fabric of the universe itself, is bent by mass, so light passing through space and time is also bent,” said Guillaume Mahler, an astronomer at the University of Ligiju and a colleague.

“This effect is too subtle to observe at a local level, but dealing with the curvature of light on a huge astronomical scale can make it clearly observable.”

“When light from one galaxy is bent around another galaxy or cluster of galaxies.”

“If the lensed and lens objects are perfectly aligned, the result is a unique Einstein ring.”

“This will appear as a complete circle or a partial circle of light around the lens object, depending on the accuracy of the alignment.”

“Objects like this are the ideal laboratory for studying how galaxies are so faintly far away.”

New images were captured by Webb’s Nircam (near infrared) instrument As part of Powerful lens and cluster evolution (slice) investigation.

“The lens galaxy at the heart of this Einstein ring is an oval galaxy that can be seen by the galaxy’s bright core, smooth, uncharacteristic body,” the astronomer said.

“This galaxy belongs to a galaxy cluster named smacsj0028.2-7537.”

“Galaxies with lenses wrapped in elliptical galaxies are spiral galaxies.”

“The image is distorted as the light travels around the galaxy in its path, but the individual star clusters and gas structures are clearly visible.”

Source: www.sci.news

Rare footage of a mother polar bear and her cubs emerging from their den shed light on their elusive behavior

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It's published today International Polar Bear Daynew research will answer questions by showing the first combination of satellite tracking colors and remote camera traps Polar bear (Ursus Maritimus)) Denning is notoriously difficult to study as polar bear moms create dens under the snow in remote areas.

Shooter et al. It reveals the first detailed view of polar bear cults coming out of their burrows. Image credits: Jon Aars/Norwegian Polar Institute.

Turnip survival supports species survival, and denning is the most vulnerable period of life. Less than 50% of Cubs can become adults.

As industry expands in the Arctic, this study highlights the importance of uninterrupted Denning regions to protect polar bear populations.

“Polar bear mothers have increased difficulty replicating due to climate-based changes and could face additional challenges associated with expanding human footprints in the Arctic,” said Dr. Louise Archer, a researcher at the University of Toronto Scarborough University.

“We are excited to introduce new tools to monitor bears during this vulnerable period and gain insight into action across the Arctic.

“Every den we monitor has its own story, and every data point adds to this critical understanding of time and supports a more effective conservation strategy.”

In their study, the authors monitored the behavior of the polar bears in Den Emans held in Svalbad, Norway.

Female polar bears were equipped with GPS satellite collars recording their location, temperature and activity.

Researchers used these collar data to find burrows and traveled through the mountains of Svalbad to deploy time-lapse camera traps at 13 densites over six years.

They found that camera traps provide fine-scale insight into the behavior of the maternal Den, and that satellite collars are accurate and useful for monitoring bears in more remote locations for longer periods of time.

https://www.youtube.com/watch?v=fcf0fyq_e_i

The family appeared in Svalbarbad around March 9th and appeared to abandon the burrow earlier than previously recorded in this group, and further monitoring was needed to establish whether this was a continuing trend.

Changing the timing of denning can put a risk to the cubs' survival as they will less time to develop before they can proceed further towards the sea ice.

In some cases, the bears appeared from the burrow in less than a minute before returning inside, while other appearances lasted for several hours.

In terms of departing den forever, camera footage showed that polar bears remained near the burrow to stay on average for 12 days.

However, this ranged between 2-31 days and was very different among polar bear families.

Some moms switched dens – they were observed leaving their original dens and moving their families to new dens.

Cubs are heavily dependent on their mothers and rarely venture out in their dens alone. The Cubs were only seen in 5% without mothers. In Svalbad, they rely on their mothers for up to 2.5 years.

“This study gives us a total glimpse into one of the most vulnerable and important periods of polar bear life and provides insights that will help guide our collective conservation efforts.”

“Combining innovative technology and long-term research gives us a deeper understanding of the challenges faced by polar bear moms and cubs in the rapidly changing Arctic.”

“Conserving Denning's habitat is essential for population health, and this study provides invaluable insights that can help guide conservation management.”

“There were few studies that included observational data at polar bear burrow sites, and therefore this study contributes significantly to our knowledge of denning ecology,” said Dr. John Arles, a senior researcher at the Norwegian Polar Institute.

Furthermore, data from the satellite radio collar was available to all mothers, and observational data allowed us to communicate how recorded activity and temperature changes corresponded to behavior. ”

study It will be displayed in Journal of Wildlife Management.

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Louise C. Archer et al. Monitoring the phenology and behavior of polar bears during the emergence of den using cameras and satellite telemetry. Journal of Wildlife ManagementPublished online on February 26th, 2025. doi: 10.1002/jwmg.22725

Source: www.sci.news

Is it possible for them to ignite Uranus and steal the elusive diamonds?

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Dead Planets Society is a podcast that takes some crazy ideas for how to tinker with the universe and tests their effects against the laws of physics, from snapping the moon in half to causing doomsday events with gravitational waves. apple, Spotify Or check out our podcast page.

Uranus and Neptune are so similar that we don't need both. That's the idea behind this episode of Dead Planets Society, in which hosts Chelsea Whyte and Leah Crane decide to light Uranus on fire.

There's a scientific justification for this, of course. For one thing, burning material and examining the light from it, a process called spectroscopy, is one of the best ways to determine its chemical composition. And because the depths of ice giants remain murky and mysterious, burning up the outer layers could reveal what's underneath.

Before you reach for the matches, let's talk about our special guest, planetary scientist Pole Barn That could be tricky, says a researcher at Washington University in St. Louis, Missouri: Uranus' outer layers lack the oxygen needed for combustion, he explains, so pumping in more oxygen than is contained in the entire solar system might not be helpful.

But the interior of Uranus isn't just shrouded in mystery – it may also be full of iceberg-like diamond chunks. This quickly changes the host's focus: this is no longer a fireworks mission, but a heist.

While the planet's outer layers would still need to be removed, the most efficient way would probably be to collide it with another planet. Viewed from Earth, this would be seen as a flash of light, a glowing cloud of steam, and perhaps a bright tail forming behind Uranus. The impact would need to be carefully planned so as not to shatter the planet and its diamonds.

But a suitable collision could accomplish both the new goal of obtaining Uranus' diamonds and the original goal of exposing and studying its depths. It could also destroy the entire solar system, but when has the Society of Dead Planets ever worried about that?

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Source: www.newscientist.com

Researchers Nearing Discovery of Elusive ‘Chameleon’ Particle Associated with Dark Energy

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A team of physicists at the University of California, Berkeley has developed the most sophisticated instrument ever designed to search for dark energy, the mysterious force that is accelerating the expansion of the universe.

The results of their experiment were published today in a prestigious journal. Nature – targets a hypothetical particle known as the chameleon, which could hold the key to unlocking this mysterious cosmic force.

First identified in 1998, dark energy makes up about 70 percent of all matter and energy in the universe, and despite many theories, its true nature remains a mystery.

One leading hypothesis is that there is a fifth force that is distinct from the four fundamental forces known in nature (gravity, electromagnetism, and the strong and weak nuclear forces).

This power is thought to be mediated by particles known as chameleons due to their ability to hide in plain sight.

In an experiment at the University of California, Berkeley, Professor Holger Muller utilizes an advanced atom interferometer combined with an optical lattice.

If that sounds technical, it is. Essentially, this setup allows for precise gravity measurements by holding free-falling atoms in place for a set period of time.

Physicists at UC Berkeley have clamped a small cluster of cesium atoms (the pink blob) in a vertical vacuum chamber and split each atom into a quantum state where half of the atom is close to the tungsten weight (the shiny cylinder) and the other half (the split sphere below the tungsten) is close to the tungsten weight. – Image credit: Cristian Panda/UC Berkeley

The longer we can keep the atoms there, the greater our chances of finding (or not finding) a trace of the chameleon.

“Atom interferometry is the technology and science that exploits the quantum properties of particles – their properties as both particles and waves. We split the waves so that the particles take two paths at the same time, and then we interfere with them at the end,” Muller said.

“The waves are either in phase and add, or out of phase and cancel each other out. The key is that whether they are in phase or out of phase depends very sensitively on the quantities you want to measure, such as acceleration, gravity, rotation, or fundamental constants.”

Whereas previous experiments have only been able to move atoms for a few milliseconds at a time, the new device can keep them in motion for much longer periods – from seconds to tens of seconds – a major improvement that improves the most precise measurements by a factor of five.

In a recent paper published in the journal Natural Physics Muller and his colleagues extended the hold time to a whopping 70 seconds.

To reveal whether chameleon particles are indeed the dark energy mastermind, scientists would need to find holes in the outcomes predicted by the accepted theory of gravity — something no one has managed to do since Isaac Newton formulated it 400 years ago.

Muller and his team found no deviations from Newtonian gravity in their recent tests, suggesting that if chameleons exist, their effects are quite subtle.

Still, the researchers are optimistic: The improved precision of their instruments means future experiments may provide the evidence needed to confirm or disprove the existence of chameleons and other hypothesized particles that contribute to dark energy.

About the Experts

Holger Muller At the age of 14, he successfully filed his first patent. He then wrote his undergraduate thesis under the supervision of Jürgen Mullinek at the University of Konstanz in Germany. He graduated from the Humboldt University in Berlin with Achim Peters as his supervisor. Müller received a fellowship from the Alexander von Humboldt Foundation and joined Steven Chu’s group at Stanford University as a postdoctoral researcher. In July 2008, he joined the Physics Department at the University of California, Berkeley, where he is currently a Professor of Physics and Principal Investigator. He is currently the Principal Investigator of his research group, the Müller Group.

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Source: www.sciencefocus.com

Researchers successfully decode the genome of the elusive night parrot

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CSIRO researchers first genome of night parrot (Pezoporus occidentalis)one of the rarest and most elusive birds in the world.

night parrot (Pezoporus occidentalis). Image credit: Arianna Urso / Western Australian Museum.

The night parrot is a relatively small, short-tailed parrot species endemic to Australia.

This species is also known as the porcupine parrot, nocturnal ground parakeet, midnight parrot, solitaire, spinifex parrot, and nocturnal parakeet. first explained It was published in 1861 by British ornithologist John Gould.

The night parrot is one of the most elusive and mysterious birds in the world, with no confirmed sightings from 1912 to 1979.

They were once widespread in the arid regions of Australia, but their numbers have declined due to environmental changes such as predation by cats and foxes.

It is now known only from localized areas in south-west Queensland and Western Australia.

“Dozens of scientific specimens were collected in the 19th century, with one specimen collected in 1912. A specimen was then discovered in south-west Queensland in 1990,” says the CSIRO Australian National Wildlife Collection. said Dr. Leo Joseph, Director.

“A live bird was reported from the same area in 2013, and a live parrot was finally captured and tagged in 2015.”

“This genome will allow us to explore the genetic basis of why parrots are nocturnal, a trait that is very rare in parrots,” he added.

“We investigate functions such as navigation, sense of smell, beak shape, and suboptimal night vision.”

“Researchers will also be able to perform statistical analysis of this individual's genome to estimate the historical population size of Australia's night parrot.”

“We can now compare this annotated genome with other closely related parrot species, revealing the reasons behind its rarity and limited distribution compared to many closely related species. You can.”

Dr Joseph and his colleagues sequenced the armyworm genome using tissue obtained from specimens found in the Pilbara region.

“Access to high-throughput sequencing technology through CSIRO's Applied Genomics Initiative is accelerating genomics research in Australia,” said Dr Gunjun Pandey, CSIRO Environment Directorate Night Parrot Genomics Project Leader.

“We can now generate very high-quality genomes from very small tissue samples, as small as an ant's head or a single mosquito.”

“This level of quality and detail was not possible even five years ago.”

“Genetic data can be used to maximize diversity in conservation programs, so species are resilient and have the best chance of long-term survival.”

The night parrot genome is an exciting scientific resource for understanding more about this bird, but protecting this species from cats, foxes, fire, and habitat loss is also important for its conservation.

“The night parrot genome will open up many opportunities for further research that will help protect this species,” Dr. Pandey said.

“This will allow scientists to develop a plan to save the night parrot, with the ultimate goal of sequencing and publishing the genome.”

Source: www.sci.news