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Tiny DNA circles are key drivers of cancer

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Tiny DNA circles are key drivers of cancer

Tiny circles of DNA harbor cancer-associated oncogenes and immunomodulatory genes promoting cancer development. They arise during transformation from pre-cancer to cancer, say Stanford Medicine-led team.

Tiny circles of DNA that defy the accepted laws of genetics are key drivers of cancer formation, according to an international study led by researchers at Stanford Medicine.

Tiny circles of DNA (small rings) upend conventional genetic principles that govern inheritance of genes on chromosomes (oblongs). The large blue circles are cell nuclei. Image credit: Paul Mischel lab

The circles called extrachromosomal DNA or ecDNA, often harbor cancer-associated genes called oncogenes. Because they can exist in large numbers in a cell, they deliver a super-charged growth signal that can override a cell’s natural programming. The researchers found they also contain genes likely to dampen the immune system’s response to nascent cancer.

Previous research had suggested that the circles, which are widespread in human cancers but rarely found in healthy cells, primarily arise in advanced tumors as the abnormal cells increasingly botch the intricate steps required to copy their DNA before each cell division.

But the new study shows that the roly-poly circles can be found even in precancerous cells — and their presence jump-starts a cancerous transformation. The researchers believe that blocking their formation, or their effect on the cells that carry them, might stop cancers from developing.

DNA analysis in a medical lab – illustrative photo. Image credit: CDC

“This study has profound implications for our understanding of ecDNA in tumor development,” said professor of pathology Paul Mischel, MD. “It shows the power and diversity of ecDNA as a fundamental process in cancer. It has implications for early diagnosis of precancers that put patients at risk, and it highlights the potential for earlier intervention as treatments are developed.” 

Mischel is one of six senior authors of the research, which was published in NatureHoward Chang, MD, PhD, professor of genetics and Virginia and D.K. Ludwig Professor in Cancer Research, is also a senior author.

Other senior authors include senior staff scientist Thomas Paulson, PhD, from Seattle’s Fred Hutchison Cancer Center; assistant professor of pediatrics Sihan Wu, PhD, assistant professor at Children’s Medical Center Research Institute at the University of Texas Southwestern Medical Center; professor of computer science and engineering Vineet Bafna, PhD, from UC San Diego; and professor of cancer prevention and director of the Early Cancer Institute Rebecca Fitzgerald, MD, from the University of Cambridge.  

“People with ecDNA in their precancerous cells are 20 to 30 times more likely than others to develop cancer,” Chang said.

“This is a huge increase, and it means we really need to pay attention to this. Because we also found that some ecDNAs carry genes that affect the immune system, it suggests that they may also promote early immune escape.”

A grand challenge

Deciphering ecDNA’s role in cancer was one of four Cancer Grand Challenges awarded by the National Cancer Institute and Cancer Research UK in 2022. The grand challenges program was launched to bring together researchers from around the world to tackle complex research topics too daunting for any one group.

Mischel was awarded $25 million to lead a team of international researchers to learn more about the circles. But first they had to jettison some key genetic principles that have guided the field for nearly 200 years.

“When we think about how a tumor evolves in a patient and in response to treatment, we think of the branching trees of life proposed by Charles Darwin,” Mischel said.

“This idea is so powerful that researchers often sequence the DNA from multiple parts of a tumor and draw these trees to learn about its evolution. If a mutation is there at the trunk of the tree and in all of its branches, we assume it is a key driver event in the formation of the tumor; if it is in only some branches, we assume it happened later in tumor development and may not be a good target for drug development.”

But these assumptions hinge on the idea that all of a tumor’s DNA is neatly contained on chromosomes, which are evenly divided among daughter cells each time a cancer cell divides — ensuring that each new cell gets one, and only one, copy of each chromosome.

In contrast, the tiny ecDNA circles swirl in a dividing cell like bubbles circling a bathtub drain and are portioned willy-nilly between the new daughter cells. One may get nearly all the circles; the other, almost none. As the generations accumulate, the evolutionary tree favored by Darwin begins to look decidedly odd, with the appearance of ecDNA-bearing cells sprinkled among the branches like haphazardly hung Christmas lights.

“Some researchers have looked at the evolutionary trees and decided that, because you see it here, but not there, it must be that ecDNA formation is a late event and probably isn’t important when considering treatments,” Mischel said. “Our team thought that interpretation was wrong.”

Pinpointing a reason

To get to the bottom of the tiny circles, Mischel, Chang and their collaborators turned to a specific example of cancer development — people with a condition known as Barrett’s esophagus, which occurs when the cells lining the lower part of the esophagus are damaged by acid reflux and become more like cells lining the intestine than healthy esophageal tissue.

About 1% of these people develop esophageal cancer, which is difficult to treat and has a high mortality rate. Because the outcome is so poor, people with Barrett’s esophagus are routinely monitored with endoscopies and biopsies of the abnormal tissue. Because of these frequent biopsies, the researchers had access to tissue samples collected both before and after cancers developed.

The researchers assessed the prevalence of ecDNA, and identified the genes they carried, in biopsies from nearly 300 people with Barrett’s esophagus or esophageal cancer treated at the University of Cambridge or at Seattle’s Fred Hutchison Cancer Center, where individual patients were studied as the cancer developed.

They found that the prevalence of ecDNA increased from 24% to 43% in early- versus late-stage esophageal cancer, indicating the continual formation of the DNA circles during cancer progression. More tellingly, they found that 33% of people with Barrett’s esophagus who developed esophageal cancer had ecDNA in their precancerous cells.

In contrast, only one out of 40 people who didn’t develop cancer had cells with ecDNA, and that individual passed away due to another cause.

“The conclusions were remarkable,” Mischel said. “We see that ecDNA can arise in these precancerous cells, and that if it is there, the patient is going to get cancer. We also saw the continuous formation of ecDNA as the cancer progresses, indicating that it is advantageous to cancer growth. Finally, we saw that the ecDNA can contain immune-modulatory genes in addition to oncogenes.”

“If a gene is carried on ecDNA, it is very likely to be important for cancer,” Chang said. “These circles are not only giving us new targets for cancer diagnosis and drug development; they are also teaching us what is important for tumor growth.”

What to look at next

The researchers are planning to explore more about how ecDNAs arise in cancer cells and how they work together to make proteins that drive cancer cell growth.

They saw that cancers with ecDNA were likely to also have mutations in a protein called p53. Sometimes called “the guardian of the genome,” p53 temporarily halts the cell cycle to allow cells to repair damage or mutations to their DNA before beginning to divide.

“We want to learn more about the landscape of ecDNA in precancers and the risks it confers,” Mischel said.

“We also want to know if we can stop its formation or activity; how to improve our ability to detect their presence; how they affect the immune system; and whether there are opportunities for new, novel therapies. There is much more to learn, and our team is excited to tackle all these issues. But what we do know for certain is that these tiny DNA circles are a very big deal in cancer.” 

Source: Stanford University


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The promise – and pitfalls – of medical AI headed our way

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The promise – and pitfalls – of medical AI headed our way

Stanford researchers lay out a framework for engineers as they expand and build new medical artificial intelligence models.

Robot-assisted surgery. Image credit: فاطمه درستی via Wikimedia, CC-BY-SA-4.0

A patient lies on the operating table as the surgical team reaches an impasse. They can’t find the intestinal rupture. A surgeon asks aloud: “Check whether we missed a view of any intestinal section in the visual feed of the last 15 minutes.”

An artificial intelligence medical assistant gets to work reviewing the patient’s past scans and highlighting video streams of the procedure in real time. It alerts the team when they’ve skipped a step in the procedure and reads out relevant medical literature when surgeons encounter a rare anatomical phenomenon.

Doctors across all disciplines, with assistance from artificial intelligence, may soon have the ability to quickly consult a patient’s entire medical file against the backdrop of all medical healthcare data and every published piece of medical literature online. This potential versatility in the doctor’s office is only now possible due to the latest generation of AI models.

“We see a paradigm shift coming in the field of medical AI,” said Jure Leskovec, professor of computer science at Stanford Engineering. “Previously, medical AI models could only address very small, narrow pieces of the health care puzzle. Now we are entering a new era, where it’s much more about larger pieces of the puzzle in this high stakes field.”

Stanford researchers and their collaborators describe generalist medical artificial intelligence, or GMAI, as a new class of medical AI models that are knowledgeable, flexible, and reusable across many medical applications and data types. Their perspective on this advance is published in the issue of Nature.

Leskovec and his collaborators chronicle how GMAI will interpret varying combinations of data from imaging, electronic health records, lab results, genomics, and medical text well beyond the abilities of concurrent models like ChatGPT. These GMAI models will provide spoken explanations, offer recommendations, draw sketches, and annotate images.

“A lot of inefficiencies and errors that happen in medicine today occur because of the hyper-specialization of human doctors and the slow and spotty flow of information,” said co-first author Michael Moor, an MD and now postdoctoral scholar at Stanford Engineering. “The potential impact of generalist medical AI models could be profound because they wouldn’t be just an expert in their own narrow area, but would have more abilities across specialties.”

Medicine without borders

Of the more than 500 AI models for clinical medicine approved by the FDA, most only perform one or two narrow tasks, such as scanning a chest X-ray for signs of pneumonia. But recent advances in foundation model research promise to solve more diverse and challenging tasks.

“The exciting and the groundbreaking part is that generalist medical AI models will be able to ingest different types of medical information – for example, imaging studies, lab results, and genomics data – to then perform tasks that we instruct them to do on the fly,” said Leskovec.

“We expect to see a significant change in the way medical AI will operate,” continued Moor. “Next, we will have devices that, rather than doing just a single task, can do maybe a thousand tasks, some of which were not even anticipated during model development.”

The authors, which also include Oishi Banerjee and Pranav Rajpurkar from Harvard University, Harlan Krumholz from Yale, Zahra Shakeri Hossein Abad from University of Toronto, and Eric Topol at the Scripps Research Translational Institute, outline how GMAI could tackle a variety of applications from chatbots with patients, to note-taking, all the way to bedside decision support for doctors.

In the radiology department, the authors propose, models could draft radiology reports that visually point out abnormalities, while taking the patient’s history into account. Radiologists could improve their understanding of cases by chatting with GMAI models: “Can you highlight any new multiple sclerosis lesions that were not present in the previous image?”

In their paper, the scientists describe additional requirements and capabilities that are needed to develop GMAI into a trustworthy technology. They point out that the model needs to consume all of the personal medical data, as well as historical medical knowledge, and refer to it only when interacting with authorized users. It then needs to be able to hold a conversation with a patient, much like a triage nurse, or doctor to collect new evidence and data or suggest various treatment plans.

Concerns for future development

In their research paper, the co-authors address the implications of a model capable of 1,000 medical assignments with the potential to learn even more. “We think the biggest problem for generalist models in medicine is verification. How do we know that the model is correct – and not just making things up?” Leskovec said.

They point to the flaws already being caught in the ChatGPT language model. Likewise, an AI-generated image of the pope wearing a designer puffy coat is funny. “But if there’s a high-stake scenario and the AI system decides about life and death, verification becomes really important,” said Moor.

The authors continue that safeguarding privacy is also a necessity. “This is a huge problem because with models like ChatGPT and GPT-4, the online community has already identified ways to jailbreak the current safeguards in place,” Moor said.

“Deciphering between the data and social biases also poses a grand challenge for GMAI,” Leskovec added. GMAI models need the ability to focus on signals that are causal for a given disease and ignore spurious signals that only tend to correlate with the outcome.

Assuming that model size is only going to get bigger, Moor points to early research that shows larger models tend to exhibit more social biases than smaller models. “It is the responsibility of the owners and developers of such models and vendors, especially if they’re deploying them in hospitals, to really make sure that those biases are identified and addressed early on,” said Moor.

“The current technology is very promising, but there’s still a lot missing,” Leskovec agreed. “The question is: can we identify current missing pieces, like verification of facts, understanding of biases, and explainability/justification of answers so that we give an agenda for the community on how to make progress to fully realize the profound potential of GMAI?”

Source: Stanford University


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The quest for an autonomous EU-China relationship generates tensions among the EU 27

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Composition by The European Times. Photo of Macron is © of Rémi Jouan, CC-BY-SA, GNU Free Documentation License, Wikimedia Commons

The French president makes European partners uncomfortable with his statements on the need to distance himself from the US on foreign policy, with reference to Taiwan. Poland revolts as Germany says the EU cannot be “indifferent”.

Article by Irene Castro – Correspondent in Brussels for ELDIARIO.ES – Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) Translated by The European Times.

A cooperative partner, a difficult competitor and a systemic rival. Three definitions that may even seem contradictory to define the EU’s relationship with China. These are the rules of the game that the leaders of the EU-27 established last October in the run-up to the preparations for the search for a rapprochement with the Asian giant, which is revealing the differences in the European club and even bringing tensions to the surface.

The EU has long been searching for its place in a polarised world. While Brussels has been engaged in preparing for the US-China trade war and much of its policies in recent months have been aimed at minimising dependence on Xi Jinping’s regime in the face of mistrust, the EU has been reviving diplomatic relations at various levels without losing sight of the strategic relationship with the United States.

“Efforts are moving in the same direction. Nobody in Europe, whatever you call the government or the member of the Commission, wants to disengage from China and go to two blocs in this world. Everyone says we need to engage with China, but do it responsibly and on the basis of European interests. We cannot be blind to the risks and dependencies’, summarises a European source.

This is what European Commission President Ursula Von der Leyen argued in a speech in which she laid the groundwork for the relationship before travelling to Beijing. There she repeated the same message. Before Xi Jinping, the head of the EU executive complained about the “imbalances” in trade relations. Moreover, the German leader made it clear that the EU’s relationship with China will depend on the position it maintains with Russia regarding the war in Ukraine. The EU has come to the conclusion that only Xi Jinping can convince Vladimir Putin.

Von der Leyen’s tone was much harsher than that of French President Emmanuel Macron, whom she accompanied on that visit. “I know I can count on you to bring Russia to its senses and to bring everyone to the negotiating table,” said the liberal leader, who was received in luxury by Xi Jinping not only in Beijing but also at a dinner in Canton. Macron, who travelled accompanied by businessmen, secured economic benefits, including an order for 160 aircraft from the Chinese leasing company CASC to Airbus.

It was Macron, whose visit had already raised suspicions among allies since the announcement, who sparked the storm. If Beijing is asking for greater autonomy for the EU vis-à-vis the United States, it is precisely what the French president defended as soon as he took off after his trip to China. In an interview granted to the newspapers Les Echos and Politico during the flight home, Macron defended the need for the EU-27 to have “strategic autonomy” and to be a “third pole” with respect to these two opposing powers.

Macron argued that Europeans cannot be “vassals” of their allies, in reference to the US. And he was referring specifically to Taiwan, which is one of the focal points of tension between China and the US. “The worst thing would be to believe that we Europeans would have to follow in this matter and adapt to the pace of the United States and to an overreaction by China”, Macron argued at a time when China had deployed military manoeuvres with simulated attacks from aircraft carriers around the island in response to the trip by the president, Tsai Ing-wen, to California.

“We want good friends, we want partners, but we always want to be in a position to choose them, not depend on them”, he reaffirmed at an event a few days later in The Hague, where he warned the Europeans that if sovereignty is lost and dependence on other powers “they will no longer decide on their own”.

The position on Taiwan placed Brussels in a complex position and strained partners on both sides of the Atlantic. The EU government was at pains to make clear that the EU’s position on the island has not changed. “There is a well-established ‘one China’ policy and we continue to call for peace and stability in the Taiwan Strait and take a clear position against any desire to unilaterally change the status quo, in particular through the use of force,” the spokesperson responded. The EU has important trade relations with Taiwan, but does not recognise it as a sovereign state.

The most vocal against Macron was Polish Prime Minister Mateusz Morawiecki, who was just starting a trip to the US. “They are looking short-sightedly at China in order to sell more EU products there at a huge geopolitical cost, making us more dependent on China, not less,” he said in Washington, with whom he is more closely aligned. “You can’t protect Ukraine today and tomorrow by saying that Taiwan is none of your business,” he warned, according to AFP: “I think that, God forbid, if Ukraine falls, if Ukraine is conquered, the next day China could attack, can attack, Taiwan. EPP leader Manfred Weber had spoken in similar terms in an interview in which he said the EU should “be on the side of Ukraine and Taiwan”.

Once again, these statements made Brussels uncomfortable, where it was pointed out that the EU is not involved in a war situation over the island.

More diplomatic was the German foreign minister, Annalena Baerbock, who distanced herself from Macron by assuring that Europe “cannot be indifferent” to the tensions over Taiwan during her visit to China and defended the establishment of alliances with partners who share European values in reference to the US when facing “security threats” such as Russia, reports Politico.

The US government avoided drawing blood with Macron’s position. “France is our oldest ally. The values we share have guided our relationship and continue to do so today,” State Department spokesman Vedant Patel told a press conference, reports Agencia EFE. However, his words did not go unnoticed and were questioned by Republican politicians.

Brussels is trying to calm the waters and play down the tensions. “We have a number of member states with a significant variation of emphasis, but they all agree with the general policy towards China, which was reaffirmed at the October European Council,” says a European source on the trinomial “partner”, “competitor” and “rival” on the basis of which the EU is seeking its own relationship with China.

From the Field: Haiti’s ‘hostage population’ struggle to survive

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From the Field: Haiti’s ‘hostage population’ struggle to survive

The 2023 Humanitarian Needs Overview (HNO) for Haiti describes life in the country as a daily, terrifying struggle for survival, the result of three consecutive years of economic recession, a political impasse, and unprecedented levels of gang violence.

Every day, more and more people fall into extreme poverty; 31 per cent of the population lives on less than US$2.15 a day, and some 4.8 million are food-insecure, which means that they struggle to meet their daily nutritional needs.

Artwork from Francisco Silva, featured in a UN humanitarian report on Haiti.

Find out more about the report to which three Haitian artists agreed to contribute their artwork, and read the stories of some of those caught up in the violence, here.

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SpaceX Starship debut flight to space received official approval

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SpaceX Starship debut flight to space received official approval

SpaceX headed by billionaire Elon Musk has finally received an official license to launch the Starship rocket to space for the first time in history. The license will be valid for five years.

SpaceX Starship rocket ready for its launch. Image credit: SpaceX

The license was granted by the U.S. Federal Aviation Administration last Friday. This license was the final frontier that limited the progress of testing the novel launch technology in practice.

The launch should happen tomorrow, April 17. The precise hour was not disclosed, but it should happen from 5:30 a.m. to 2 p.m. Central time. It will be performed from the SpaceX Starbase facility in Boca Chica, Texas – this schedule has been confirmed by the company itself on Twitter.

 

“After a comprehensive license evaluation process, the FAA determined SpaceX met all safety, environmental, policy, payload, airspace integration and financial responsibility requirements,” stated FAA in its official announcement.

Previously, SpaceX targeted earlier dates for the launch of its Starship rocket, but the licensing process delayed the original plans.  The rocket is expected to demonstrate its orbital flight capabilities.


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German defense maker Rheinmetall hit by a cyber attack

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German defense maker Rheinmetall hit by a cyber attack

German defense industry company Rheinmetall said it was attacked by hackers, but assured that its military business was not affected.

Military vehicle Boxer, produced by Rheinmetall Defence – illustrative photo. Image credit: Rab Lawrence via Flickr, CC BY-NC-ND 2.0

According to the company’s spokesman, the cyber attack was directed against its division dealing with industrial non-military customers, mainly working in the automotive sector.

“Rheinmetall is currently investigating the extent of the damages and is in close contact with the relevant authorities,” commented representatives of the company.

State prosecutors are currently investigating the origin of the attack, but do not provide any specific details, or if this incident was related to the company’s support for Ukraine.

Rheinmetall AG is a German technology group that specializes in security and mobility solutions. The company has two main business segments: Rheinmetall Automotive and Rheinmetall Defence.

Rheinmetall Automotive produces components and systems for the automotive industry, including engine systems, emission reduction technologies, and electric mobility solutions. Rheinmetall Defence offers a range of products and services for the defense sector, including armored vehicles, weapons systems, and simulation and training systems.


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UN chief and officials condemn fighting between Sudanese forces

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UN chief and officials condemn fighting between Sudanese forces

The senior officials were responding to the outbreak of armed clashes between the Rapid Support Forces (RSF) and Sudanese Armed Forces (SAF) in many parts of the capital Khartoum and other areas outside the capital, on Saturday morning.

According to media reports, the RSF claimed that it had taken control of Khartoum international airport, Merowe airport, al-Obeid airport and the presidential palace.

The RSF, an independent Sudanese military force, grew out of the Janjaweed militia, formerly active in the Darfur region of the country. The organization has been involved in talks aimed at a transition from the military rule in place since the 2021 military coup, to a civilian government.

‘Immediately cease hostilities’

A statement attributable to the Spokesperson for the Secretary-General noted the UN chief’s call for the leaders of the Rapid Support Forces and the Sudanese Armed Forces to “immediately cease hostilities, restore calm and initiate a dialogue to resolve the current crisis,” and for Member States in the region to support efforts to restore order and return to the path of transition to civilian rule. 

The integration of the RSF into the armed forces has been one of the issues under discussion, as part of a UN-backed political agreement reached in February, following months of negotiations.

However, in a Security Council briefing on 20 March, Volker Perthes, the Special Representative of the Secretary-General for Sudan and Head of the United Nations Integrated Transition Assistance Mission in Sudan (UNITAMS), warned that tensions between the Sudanese Army and the RSF have risen in recent weeks, and called for de-escalation.

In his statement on the current fighting, Mr. Perthes reached out to both parties asking them for an immediate cessation of fighting, to ensure the safety of the Sudanese people, and spare the country from further violence.

‘More violence will only make things worse’

Mr. Guterres also raised concerns over the “devastating” impact that any further escalation in the fighting would have on civilians, further aggravating the already precarious humanitarian situation in the country. 

Similar concerns were raised on Saturday by Martin Griffiths, the UN Emergency Relief Coordinator. In a Tweet, Mr. Griffiths said that more violence would only makes things worse for the nearly 16 million people, around a third of the population, in need of humanitarian aid.

An update on the humanitarian situation in Sudan, released on 13 April by the UN Office for the Coordination of Humanitarian Affairs (OCHA), noted that humanitarian needs across Sudan are at an all-time high, with conflict one of the four most significant risks, alongside natural disasters, disease outbreaks, and economic deterioration.

Volker Türk, the UN rights chief, expressing alarm at the unfolding situation, Tweeting on Saturday that the people of Sudan “deserve better.” Mr. Türk wrote that a “voice of reason” is urgently needed, in order to stop violence and “revert to earlier promising path towards peace and civilian transition.”

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A new type of photonic time crystal gives light a boost

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A new type of photonic time crystal gives light a boost

The researchers created photonic time crystals that operate at microwave frequencies, and they showed that the crystals can amplify electromagnetic waves.

Researchers have developed a way to create photonic time crystals, showing that these bizarre, artificial materials amplify the light that shines on them. These findings could lead to more efficient and robust wireless communications and significantly improved lasers.

Time varying interface and light, photonic crystal – artistic interpretation. Image credit: Viktar Asadchy, Aalto University

Time crystals were first conceived by Nobel laureate Frank Wilczek in 2012. While conventional natural crystals have a structural pattern that repeats in space, in a time crystal, the pattern repeats in time instead.

Although some physicists were initially skeptical that time crystals could exist, recent experiments have succeeded in creating them. Last year, researchers at Aalto University’s Low Temperature Laboratory created paired time crystals that could be useful for quantum devices.

Now, another team has made photonic time crystals, which are temporal analogues of conventional optical materials. The researchers created photonic time crystals that operate at microwave frequencies and showed that they can amplify electromagnetic waves.

This ability has potential applications in various technologies, including wireless communication, integrated circuits, and lasers. 

So far, research on photonic time crystals has focused on bulk materials – that is, three-dimensional structures. This has proven enormously challenging, and the experiments haven’t gotten past model systems with no practical applications.

Now, the team including researchers from Aalto University, the Karlsruhe Institute of Technology (KIT), and Stanford University tried a new approach: building a two-dimensional photonic time crystal.

‘We found that reducing the dimensionality from a 3D to a 2D structure made the implementation significantly easier, which made it possible to realise photonic time crystals in reality,’ says Xuchen Wang, the study’s lead author, who was a doctoral student at Aalto and is currently at KIT.

The new approach enabled the team to fabricate a photonic time crystal and experimentally verify the theoretical predictions about its behaviour. ‘We demonstrated for the first time that photonic time crystals can amplify incident light with high gain,’ says Wang.

‘In a photonic time crystal, the photons are arranged in a pattern that repeats over time. This means that the photons in the crystal are synchronized and coherent, which can lead to constructive interference and amplification of the light,’ explains Wang. 

Two-dimensional photonic time crystals have a range of potential applications. By amplifying electromagnetic waves, they could make wireless transmitters and receivers more powerful or more efficient.

Wang points out that coating surfaces with 2D photonic time crystals could also help with signal decay, which is a significant problem in wireless transmission. Photonic time crystals could also simplify laser designs by removing the need for bulk mirrors that are typically used in laser cavities.

Another application emerges from the finding that 2D photonic time crystals don’t just amplify electromagnetic waves that hit them from surrounding space but also waves travelling along surfaces. Surface waves are used for communication between electronic components in integrated circuits.

‘When a surface wave propagates, it suffers from material losses, and the signal strength is reduced. With 2D photonic time crystals integrated into the system, the surface wave can be amplified, and communication efficiency enhanced,’ says Professor Viktar Asadchy, who has generated the idea of 2D photonic time crystals.

Source: University of Amsterdam


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Light pollution may extend mosquitoes’ biting season

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Light pollution may extend mosquitoes’ biting season

A new study’s finding that urban light pollution may disrupt the winter dormancy period for mosquitoes that transmit West Nile virus could be considered both good and bad.

Example of the light pollution – illustrative photo. Image credit: Yassine Khalfalli via Unsplash, free license

The good news is that the disease-carrying pests may not survive the winter if their plans to fatten up are foiled. The bad news is their dormancy period, known as diapause, may simply be delayed – meaning they’re biting humans and animals longer into the fall. 

“We see the highest levels of West Nile virus transmission in Ohio’s late summer and early fall. If you have mosquitoes postponing or delaying diapause and continuing to be active longer in the year, that’s at a time when the mosquitoes are most likely to be infected with West Nile virus and people could be at greatest risk of contracting it,” said Megan Meuti, senior author of the study and an assistant professor of entomology at The Ohio State University. 

This study and earlier findings by Meuti and her colleagues are among the first to show that artificial light at night could significantly impact mosquito behavior – including effects that aren’t necessarily predictable. 

“We’re finding that the same urban light at night can have very different effects under different seasonal contexts,” she said. 

Meuti conducted the study with first author Matthew Wolkoff and Lydia Fyie, both PhD candidates in entomology at Ohio State. The research was published recently in the journal Insects

Diapause for female Northern house mosquitoes (Culex pipiens) is not quite a winter slumber, but rather a period of dormancy when the insects live in caves, culverts, sheds and other semi-protected locations. Prior to winter’s arrival, mosquitoes convert sugary sources, such as plant nectar, into fat.

As days get longer, females begin foraging for blood meals to enable egg production. Some get infected with West Nile virus by feeding on infected birds, and later transmit the virus when they feed on people, horses and other mammals. 

This study builds upon two previous findings from Meuti’s lab: For her dissertation, Meuti found that circadian clock genes differ between diapausing and non-diapausing mosquitoes, strongly suggesting that day length dictates when diapause should start.

And more recent work led by Fyie found that female mosquitoes exposed to dim light at night averted diapause and became reproductively active – even when short days indicated they should be dormant. 

In the current study authored by Wolkoff, the researchers pursued both lines of inquiry, comparing daily activity and nutrient accumulation by mosquitoes reared in two lab conditions – long days mimicking the insects’ active season and short days that induced dormancy – with and without exposure to artificial light at night. 

The study provided more evidence associated with a circadian pattern to mosquito behavior, showing that insects’ activity decreases during diapause, but the circadian rhythmicity of that activity is sustained even during this dormant period. 

The introduction of artificial light at night was found to affect those activity patterns and to influence mosquitoes’ acquisition of nutrient reserves needed for fattening up and weathering winter temperatures. 

Exposure to light pollution suppressed the amount of water-soluble carbohydrates – sugars that are an essential food source during winter – that were accumulated by mosquitoes in both long- and short-day conditions.

Patterns of accumulation of the sugar glycogen were reversed by exposure to artificial light at night: Under normal conditions, non-dormant mosquitoes had lots of glycogen in their bodies but diapausing bugs did not – but in mosquitoes subjected to light pollution, the long-day mosquitoes didn’t accumulate much glycogen and short-day mosquitoes showed an increase in glycogen accumulation.

The researchers observed consistent trends in activity-related effects of light at night, with slight increased activity among the dormant mosquitoes and slightly suppressed activity among long-day mosquitoes expected to be busy looking for food.

Though the findings weren’t statistically significant, Wolkoff said the combined observations suggest light pollution causes mosquitoes to ward off diapause – perhaps by scrambling signals from their circadian clock.

“This could be bad for mammals in the short term because mosquitoes are potentially biting us later in the season, but it could also be bad for mosquitoes in the long term because they might be failing to fully engage in preparatory activities they need to survive the winter during diapause, and that might reduce their survival rate,” Wolkoff said. 

The researchers plan to carry out field studies to see if these lab findings hold true in the wild.

Source: Ohio State University


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Newly revealed properties of melanin ‘ingredient’ could advance bioelectronics

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Newly revealed properties of melanin ‘ingredient’ could advance bioelectronics

After nearly a century of scientific inquiry, scientists have finally characterized a key component in the substance called melanin responsible for giving countless living organisms their color. 

A scientist working in a lab – illustrative photo. Image credit: Edward Jenner via Pexels, free license

In the study, published online in the journal Nature Chemistryan international team of researchers isolated a key molecule involved in the synthesis of melanin, a substance in the human body that produces pigmentation in the hair and skin and protects the cells from being damaged by ultraviolet radiation from the sun.

The molecule they studied has many physical properties of eumelanin, a type of melanin that typically produces only black and brown pigments. 

Despite what researchers know about melanin, its chemical structure has remained elusive, said Bern Kohler, an Ohio Eminent Scholar and professor of chemistry and biochemistry at The Ohio State University, one of three senior authors.  

“Melanin is as plain as the nose on our face and we still don’t know exactly what it’s made of and how it works,” said Kohler. “It’s thought to be a material made of large numbers of interacting components, and so what my collaborators and I are trying to get at is, what are melanin’s underlying chemical units and what are the interactions that give rise to its properties?”

In the lab, melanin can be made naturally from just a few simple chemical substances that combine or react to form the pigmented material. Thanks to the efforts of Jean-Philip Lumb of McGill University and Lluis Blancafort of the University of Girona, the team was able to successfully synthesize and analyze one of its molecule-sized ingredients. They found that it had many of the same properties as the final product melanin, even without further transformation.

“Melanin is like a complex dish that you cook from just a few ingredients,” said Kohler. “Given that melanin granules in skin contain billions of atoms, it was surprising to see melanin-like properties emerge in a molecule containing only a few dozen atoms.”

As a spectroscopist – or a scientist who investigates the interactions between matter and light – Kohler said what he finds most remarkable is the brilliant green color of the melanin-like molecule, which is able to absorb deep red light. 

“That’s very hard for a small molecule to do,” said Kohler. “This is one of the smallest organic molecules known that can absorb long wavelengths all the way out into the infrared.”

Its unusual optical and magnetic properties make the melanin-mimicking molecule an attractive prospect for advancing bioelectronics research, a field that aims to connect electronics and living biological materials to fabricate new technologies or therapies for medical treatments, said Kohler.

The study results also suggest that harnessing the power of melanin could be used to change the way humans harvest energy from our environment.

“Like solar energy conversion, part of our strategy for alternative energy is to absorb photons of light from across the solar spectrum,” Kohler said. “That’s what eumelanin does, rather naturally.”

Future research will aim to study melanin-like properties in similar kinds of molecules. Such strides could offer greater accessibility to synthetic biomaterial alternatives, but in the short term, Kohler imagines the team’s work uncovering a melanin-like molecule will inspire other labs to look more closely at how melanin’s properties may emerge from other unexpectedly small molecular units. 

“Our team is excited that further progress at understanding the structure of melanin can succeed by studying tailorable small molecules like the one we write about in this paper,” he said. “The chemistry is still tremendously complex, but interest should grow in small molecules as melanin models and the promise they hold for generating new, melanin-inspired materials.”

Source: Ohio State University


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