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cover art for Nature Extra: Futures April 2016

Nature Podcast

Nature Extra: Futures April 2016

Futures is Nature's weekly science fiction slot. Adam Levy and Shamini Bundell read you their favourite from April, ‘Choices, in sequential order’ by Karlo Yeager Rodríguez.

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  • Targeted mRNA therapy tackles deadly pregnancy condition in mice

    28:32|
    00:45 A potential treatment for pre-eclampsiaResearchers have shown in mice experiments that an mRNA-based therapy can reverse the underlying causes of pre-eclampsia, a deadly complication of pregnancy for which treatment options are limited. Inspired by the success of mRNA vaccines, the team behind the work designed a method to deliver the genomic instructions for a blood-vessel growth factor directly into mouse placentas. This stimulated the production of extra blood vessels reducing the very high-blood pressure associated with the condition. Pre-eclampsia causes 15% of maternal deaths and 25% of foetal and newborn deaths worldwide and although the work is early and human trials will be required, the team hope that this work demonstrates the potential of using this approach to treat pre-eclampsia.Research Article: Swingle et al.11:00 Research HighlightsStacks of, mass-produced bowls suggest that people founded, but then abandoned an ancient Mesopotamian civilization, and analysis of Venus’s gases suggests that the planet was always dry.Research Highlight: Ancient stacks of dishes tell tale of society’s dissolutionResearch Highlight: Has Venus ever had an ocean? Its volcanoes hint at an answer13:29 Programmable cellular switchesA team of scientists have created cellular switches on the surface of cells, allowing them to control their behaviour. Creating these switches has been a long-term goal for synthetic biologists — especially a group of proteins called G-protein-coupled receptors that already control many cellular processes. However, engineering these proteins has been challenging, as modifications can ruin their function. Instead, the team added another molecular component that blocked the receptors activity, but could be removed in response to specific signals. This allowed the researchers to activate these receptors on command, potentially opening up a myriad of new ways to control cell behaviour, such as controlling when neurons fire.Research Article: Kalogriopoulos et al.19:35 Google reaches a milestone in quantum computingA team at Google has shown it is possible to create a quantum computer that becomes more accurate as it scales up, a goal researchers have been trying to achieve for decades. Quantum computing could potentially open up applications beyond the capabilities of classical computers, but these systems are error-prone, making it difficult to scale them up without introducing errors into calculations. The team showed that by increasing the quality of all the components in a quantum computer they could create a system with fewer errors, and that this trend of improvement continued as the system became larger. This breakthrough could mean that quantum computers are getting very close to realising the useful applications that their proponents have long promised.Nature: ‘A truly remarkable breakthrough’: Google’s new quantum chip achieves accuracy milestoneSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.
  • Will humans ever speak wolf? A scientist unravels the complexities of animal chatter

    28:18|
    Zoologist Arik Kershenbaum has spent his career studying animals and how they communicate in the wild. In his book Why Animals Talk: The New Science of Animal Communication, Arik takes a deep dive into the various forms of communication, from wolf howls to gibbon songs, to look at how different species get their points across, why they do it the way they do, and what insights they provide into our own use of language.Why Animals Talk: The New Science of Animal Communication Arik Kershenbaum Penguin (2024)Music supplied by SPD/Triple Scoop Music/Getty ImagesWolf howl via NPS & MSU Acoustic Atlas/Jennifer JerrettSlowed down dolphin whistle via Arik KershenbaumHyrax song via Arik KershenbaumPileated gibbon song via Rushenb CC BY-SA 4.0
  • Why breast cancer treatments might work best just after your period

    30:06|
    00:48 Chemotherapy efficacy varies with the menstrual cycleBreast cancer cells are more susceptible to chemotherapy at certain points in the menstrual cycle, new data in Nature suggests. Researchers studied the equivalent hormonal cycle in mice and found that during the oestrous phase, where progesterone levels are low, tumours are more susceptible to chemotherapy. The same effect was shown in humans in a small retrospective study. The team caution that a larger clinical trial would need to be conducted, but hope that this work could open up an, easy to implement, way to boost the effect of chemotherapy.Research Article: Bornes et al.News and Views: What is the best time of the month to treat breast cancer?09:22 Research HighlightsHow coffee changes your gut microbiota, and the first amber deposits found in Antarctica hint at an ancient rainforest.Research Highlight: Do you drink coffee? Ask your gutResearch Highlight: Antarctica’s first known amber whispers of a vanished rainforest11:47 Is human-level artificial intelligence close?The latest AI system released by OpenAI, the makers of ChatGPT, is better able to break down problems into smaller chunks, making it closer to a human way of solving problems than other systems. This has reignited discussions about the likelihood of AIs achieving human-level intelligence. Although previously the realm of science fiction, researchers are now taking the idea of ‘artificial general intelligence’, or AGI, more seriously. Although this technology has the potential to help tackle humanity's biggest challenges, there are concerns about the safety of such technology if it were to become autonomous.News Feature: How close is AI to human-level intelligence?21:43 Briefing ChatHow making a bank of centenarians’ stem cells could help unlock the secrets of healthy ageing, and what some 1.5 million year old footprints reveal about how ancient hominin species may have interacted.Nature: What’s the secret to living to 100? Centenarian stem cells could offer cluesNature: These two ancient human relatives crossed paths 1.5 million years agoSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.
  • Audio long read: AI has dreamt up a blizzard of new proteins. Do any of them actually work?

    13:13|
    AI tools that help researchers design new proteins have resulted in a boom in designer molecules. However, these proteins are being churned out faster than they can be made and tested in labs.To overcome this, multiple protein-design competitions have popped up, with the aim of sifting out the functional from the fantastical. But while contests have helped drive key scientific advances in the past, it's unclear how to identify which problems to tackle and how best to select winners objectively.This is an audio version of our Feature: AI has dreamt up a blizzard of new proteins. Do any of them actually work?
  • Fossilised faeces helps explain dinosaurs' rise to dominance

    31:35|
    00:50 Fossilised faeces give news insights into dinosaurs’ diets and riseA huge collection of fossilised digestive contents has provided clues as to how dinosaurs grew to become the dominant animals on the planet. Why these animals rose to dominance has been unclear, with one theory proposing that a chance event wiped out other species, whereas another suggests that dinosaurs had adaptations that better allowed them to thrive. By analysing over 500 vomit and faeces fossils, researchers have better identified what dinosaurs ate, and their interactions with other animals. The new work suggests both of these theories are correct, with dinosaurs benefiting from one or the other at different points in time. The researchers believe this work demonstrates how useful fossilised food contents are for understanding these ancient creatures.Research Article: Qvarnström et al.News and Views: Wastes of time — faeces and vomit track how dinosaurs rose to prominenceNews: Fossilized poo and vomit shows how dinosaurs rose to rule Earth10:05 Research HighlightsBacteria found on an asteroid actually came from Earth, and why play helps chimps to cooperate.Research Highlight: Bacteria found on a space rock turn out to be Earth-grownResearch Highlight: Chimps tickle and wrestle in play to pave the way for teamwork12:46 A commensal fungus found in mouse gutsBy testing mice across the United States, researchers have identified a fungus that is well adapted to living in the gastrointestinal tracts of mice, an important step in modelling the role these microorganisms play in the body. Fungi are known to be a constituent of the gut microbiome, but very little is known about what they do. Now, a team has identified that the fungus Kazachstania pintolopesii is likely a long-term resident of mice guts, which they hope will allow them to study how these microbes interact with the immune system, and the role they play in host defence and allergies.Research Article: Liao et al.21:57 The key takeaways from COP29The United Nations annual climate change conference, COP29, finished last week. Largely the discussions revolved around climate finance — the idea that wealthier countries who have benefitted most from past carbon emissions should pay to help poorer, vulnerable countries adapt to the effects of climate change. Although a last minute agreement was hammered out at the conference, not everyone was happy with the text and promised actions. We discuss this and the other key outcomes of COP29.Nature: Is the COP29 climate deal a historic breakthrough or letdown? Researchers reactSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.
  • Squid-inspired pills squirt drugs straight into your gut

    29:19|
    00:45 A squid-inspired device for needle-free drug deliveryInspired by squids’ ability to shoot ink, a team of researchers have developed swallowable devices that can deliver tiny jets of drugs directly into the gut lining, circumventing the need for needles. Previous studies have shown that most people prefer to take medication in pill form, rather than as an injection, but many drugs are degraded as they pass through the digestive system. The team’s new swallowable devices overcome this issue, and deliver drugs directly to where they need to be. So far, this approach has shown efficacy in animal models, but more work needs to be done to ensure their safety in humans.Research Article: Arrick et al.10:50 Research HighlightsThe largest ‘terror bird’ fossil ever found, and a simple solution to help prevent premature births.Research Highlight: Huge carnivorous ‘terror bird’ rivalled the giant panda in sizeResearch Highlight: Reducing pregnancy risk could be as easy as chewing gum12:52 A milder way to break down ‘forever chemicals’.Two papers describe how light-activated catalysts could be used to break down toxic ‘forever chemicals’, hinting at a new way to clean up pollution caused by these persistent compounds. Forever chemicals contain multiple carbon-fluorine bonds that give them useful physical properties, but these bonds are some of the strongest in organic chemistry, making these compounds energetically difficult to break down. The new, light-based methods demonstrate low-energy ways to sever these bonds, a milestone that could make forever chemicals less permanent.Research Article: Zhang et al.Research Article: Liu et al.News and Views: Catalysts degrade forever chemicals with visible light21:04 Briefing ChatAnalysis of far-side soil highlights the Moon’s turbulent past, and how CRISPR can help make sweeter tomatoes.Nature: First rocks returned from Moon’s far side reveal ancient volcanic activityCNN: Findings from the first lunar far side samples raise new questions about the moon’s historyNature: CRISPR builds a big tomato that’s actually sweetSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.
  • Bone marrow in the skull plays a surprisingly important role in ageing

    35:10|
    00:46 The role of skull bone marrow in ageingDuring ageing, bone marrow in the skull becomes an increasingly important site of blood-cell production. This is in stark contrast to most bones where the ability of marrow to make blood and immune cells declines. Studies in mice and humans showed that ageing results in skull bone-marrow expanding, and in mice this marrow was more resistant to inflammation and other hallmarks of ageing. The team behind the work hope by understanding this process better it may be possible to help organs become more resistant to ageing.Research Article: Koh et al.08:56 Research HighlightsElderly big brown bats show remarkable resistance to age-related hearing loss, and why search-engine algorithms may not be the main driver steering people towards misinformation.Research Highlight: No hearing aids needed: bats’ ears stay keen well into old ageResearch Highlight: Don’t blame search engines for sending users to unreliable sites11:38 How to make lead a useful material to date the Solar SystemResearchers have overcome a major hurdle preventing the radioactive isotope lead-205 from being used as a ‘clock’ to date the age of the Solar System. 205Pb is made in some stars and thanks to its half life of around 17 million years has been proposed as a potential way to date ancient astronomical processes. However, exactly how much 205Pb can escape a star were unclear, limiting its dating potential. Now, researchers have mimicked the conditions seen in stars to pin down how much 205Pb can escape into space, paving the way for its use as a clock.Research Article: Leckenby et al.19:51 Briefing ChatHow millions of Android smartphones were used to map the Earth’s ionosphere, and the ethical implications of a virologist who treated her own cancer.Nature: Google uses millions of smartphones to map the ionosphereNature: This scientist treated her own cancer with viruses she grew in the labSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.
  • ’Rapture and beauty’: a writer's portrait of the International Space Station

    26:23|
    Samantha Harvey's Booker Prize shortlisted novel Orbital is set inside an International Space Station-like vessel circling 250 miles above Earth. It looks at a day-in-the-life of the crew, investigating the contrasts they experience during the 16 orbits they make around the planet, crossing continents, oceans and the line separating night and day.On the latest episode of Nature hits the books, Samantha joins us to discuss why the ISS is a rich setting for fiction, the challenges of putting yourself in the shoes of an astronaut, and how distance can give new perspectives on global issues like climate change.Orbital Samantha Harvey Vintage (2024)Music supplied by Airae/Epidemic Sound
  • Surprise finding reveals mitochondrial 'energy factories' come in two different types

    27:36|
    00:46 Mitochondria divide their labour to help cells thriveResearchers have uncovered that mitochondria divide into two distinct forms when cells are starved, a finding that could help explain how some cancers thrive in hostile conditions. Mitochondria are cellular powerhouses, creating energy and vital metabolic molecules, but how they are able to do this when resources are limited has been a mystery. It turns out that in nutrient-poor situations, mitochondria split into two separate types, one which concentrates on energy production, the other on producing essential cellular building blocks. Together these allow cells to make everything they need. The team showed that this also happens in certain cancer cells, which may help them survive and grow under hostile conditions in the body.Research Article: Ryu et al.News and Views: Division of labour: mitochondria split to meet energy demandsVideo: A new kind of mitochondrion07:53 Research HighlightsA tidy genome may explain naked mole rats’ long lifespans, and why the midlife crisis may not be as ubiquitous as previously thought.Research Highlight: Naked mole rats vanquish genetic ghosts — and achieve long lifeResearch Highlight: The midlife crisis is not universal10:41 A smashing way to snapshot an atomic nuclei’s shapePhysicists have revealed a new technique to image the shape of atomic nuclei — by smashing them together. The nucleus of an atom doesn’t really resemble what is shown in textbooks — they actually come in a variety of shapes, which drive an element’s behaviour. Current methods essentially take a long-exposure photo of an atom’s nucleus, which doesn’t capture the subtle variations in how the protons and neutrons arrange themselves. The new method overcomes this by colliding nuclei together and then using information on the resulting debris to reconstruct the shape of the nucleus. The researchers hope that this technique can help physicists resolve many more mysteries about atomic nuclei.Research Article: STAR CollaborationNews: Scientists worked out the shapes of atomic nuclei — by exploding them19:51 Briefing ChatAnalysing the genome of an ancient clone forest has revealed it could be up to 80,000 years old, and how putting limits on the famous infinite monkey theorem means they probably wouldn’t churn out Shakespeare before the end of the Universe.Nature: The world’s oldest tree? Genetic analysis traces evolution of iconic Pando forestThe Guardian: Universe would die before monkey with keyboard writes Shakespeare, study findsSubscribe to Nature Briefing, an unmissable daily round-up of science news, opinion and analysis free in your inbox every weekday.