The latest idea to cross our desks comes from Gabriel Ferraz, a computer engineer and TechPowerUp’s SSD database maintainer, who turned a 512GB QLC SATA III SSD into a 120GB SLC one.
You probably know this, but just as refresher, SLC NAND holds one bit of data per cell, resulting in faster data writing, lower power consumption, and higher cell endurance than QLC NAND which stores four bits per cell. QLC NAND is denser and cheaper, but with the downside of compromised longevity and speed.
3000% endurance increase
Ferraz’s idea was to trade capacity for massively improved performance and endurance. He took 512GB a Crucial BX500 SSD which has a Silicon Motion SM2259XT2 controller and NAND flash dies from Micron. Using an app called MPtools for the Silicon Motion SM2259XT2 controller, he identified the precise die used in the SSD and inputted in new die reference numbers.
Was it worth it? Well, while Ferraz lost a lot of drive space, he says “the SSD endurance jumps to 4000 TBW (write cycles), which is about a 3000% increase. Additionally, performance increased as well.”
Ferraz explains his process here, and you can also watch him perform his clever trick in the video below, which includes benchmarking results.
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Apple’s newest Pro and Air iPads do not feature a physical SIM slot. Photo: Apple
Following the iPhone’s footsteps, Apple has switched entirely to eSIM on the 2024 iPad Pro and Air. The two tablets’ cellular models lack a physical SIM slot altogether.
With this move, Apple has transitioned two major product categories to eSIMs.
2024 iPad Pro and iPad Air jump on the eSIM bandwagon
In markets outside the US, you can purchase the iPhone 15 Pro series with a physical SIM slot. However, that’s not the case with the new M4 iPad Pros and M2 iPad Airs. Apple’s tablet listing in the EU and the UK only mentions eSIM support and incompatibility with physical SIM cards.
This move from Apple will only help accelerate its transition entirely to eSIM worldwide or at least across major markets.
An eSIM-only option on the iPad makes much more sense than on the iPhone. Once you set up a cellular connection on the tablet, you are unlikely to switch operators soon. Plus, eSIM makes it easy to handle multiple networks while roaming.
However, the lack of a physical SIM slot can be an issue if your operator or MVNO does not support eSIMs. If nothing else, this might force them to speed up their transition to eSIMs.
No Apple stickers with new iPads
The physical SIM slot is not the only thing missing from the 2024 iPads. Apple has also stopped bundling its iconic stickers with them.
While Apple did not discuss this during its “Let Loose” event, it mentioned the change in a memo distributed to Apple Store employees, as seen by 9to5Mac. The report says the company removed the stickers to make the tablet’s packaging plastic-free and reach its environmental goals.
When buying a new iPad Pro or iPad Air, you can request an Apple Store employee for a sticker. Reportedly, Apple is shipping out a small batch of stickers so employees can provide them to customers upon request. But this benefit only appears to be available when you purchase the new iPads directly from an Apple store and not a third-party retailer.
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A population of neurons in the brain stem, the stalk-like structure that connects the bulk of the brain to the spinal cord, acts as the master dial for the immune system.Credit: Voisin/Phanie/Science Photo Library
Scientists have identified cells in the brainstem of mice that sense immune cues from the periphery of the body and act as master regulators of the body’s inflammatory response. The study “shows that there is a whole layer of biology that we haven’t even anticipated”, says immunologist Ruslan Medzhitov. Experiments revealed two groups of neurons in the vagal nerve that respond to pro-inflammatory and anti-inflammatory immune signals respectively. These neurons send messages to the brain, allowing it to monitor, and possibly modify, the immune response as it unfolds. How the brain sends signals back to the immune system remains unclear.
Dozens of cases of identical phrases found in peer-review reports across 19 journals could be just “the tip of the iceberg” of plagiarism, say the researchers. In the worst example, a single quote appeared in 50 review reports. The amount of duplication increased every year between 2021 and 2023, though it’s unclear whether this is because the number of open-access peer-review reports increased during this time or whether it indicates a growing problem. Scientific publishers say they are taking action to prevent reviewer misconduct.
Running around a giant wooden barrel — dubbed the ‘wall of death’ by the motorbike stunt performers who use it for fairground acts — could keep people fit on the Moon. Under Earth’s gravity, it’s impossible to run around the cylinder without falling down. But in tests that simulated the much lower lunar gravity by suspending participants from a bungee cord, people could run around the horizontal walls. A few laps a day should be enough to stave off bone and muscle wasting, the researchers suggest.
Lunar explorers could be housed in circular habitats whose walls double as vertical running track. (Alberto E. Minetti et al./R. Soc. Open Sci. (CC BY 4.0))
In the latest of a series of public hearings convened by US politicians to spar over the origins of COVID-19, infectious disease specialist Peter Daszak was interrogated over his ties to China and inconsistencies in testimonies and documents. Daszak has been a lightning rod in the COVID-19 origins debate: he heads a non-profit organisation that studied bat coronaviruses with a virology lab located in Wuhan, China, where the first COVID-19 cases were reported. The hearing’s intense scrutiny could disincentivize other US scientists from proposing collaborations with colleagues in China and other countries, a process that is considered essential for pandemic prevention, says health-law specialist Lawrence Gostin.
In a Nature Podcast special, three researchers cut through the misinformation around sex and gender in search of a positive future for this long-neglected area of research. “There’s almost an inherent tension between the drive to simplification that gives experimental methods their power and the recognition of the complexity of sex and gender,” says biomedical researcher Stacy Ritz. It’s important not to abandon the comparison of males and females in biomedical studies, but researchers need to find the appropriate level of nuance, adds neuroscientist Peg McCarthy. “What I would really love is for the studies to at least have this reporting of how they actually categorized the individuals or the animals,” says jurist and bioethicist Florence Ashley.
Physical activity is a fundamentally stressful process that our body has learnt to benefit from. “With each bout of exercise, you provoke an anti-inflammatory response,” says exercise researcher Bente Klarlund Pedersen. Scientists are starting to untangle the elaborate ‘choreography’ of cellular processes that exercise triggers. This could eventually help clinicians to develop tailored exercise prescriptions for people with chronic diseases — or even develop therapeutics that mimic some of the health-boosting effects. “That’s not to say that we will have exercise in a pill, but there are certain aspects of exercise that could be druggable,” says exercise physiologist Bret Goodpaster.
Barbie and other plastic toys don’t age well. The material they are made from deteriorates over time, leading to afflictions such as ‘sticky leg syndrome’: tacky deposits or white blooms of exuded plasticisers — additives that make plastics softer. “One school of thought is that you just leave it and you keep [the doll] in an enclosed area so that dust and dirt doesn’t settle on [it],” says conservation scientist Brenda Keneghan. “The other school of thought is that you do remove the plasticiser [marks], with the knowledge that more is going to come over the years.”
In 2002, electrochemist Allen Bard said that scientists’ true legacy lies in the people that they worked with and mentored. Bard died in February, aged 90. (Nature | 5 min read)
Today, I’m excited to discover why warm alcoholic drinks taste more ‘boozy’: as temperature increases, water and ethanol molecules shift from compact, pyramid-like to chain-like structures.
Help to keep this newsletter fresh and cool by sending your feedback to [email protected].
With contributions by Flora Graham, Smriti Mallapaty and Sarah Tomlin
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May the Fourth, also known as Star Wars day, is today and for Meta Quest 3 (or Oculus Quest 2) owners there are some far better ways to celebrate than simply watching one of the classic films. That’s because you can immerse yourself in a galaxy far far away with some stellar Star Wars VR titles.
What’s more there are some superb savings to be had on my favorite Star Wars VR game – Star Wars Pinball – right now, making it the best time to pick this title up if you haven’t already. There are others you can check out too that aren’t discounted like Vader Immortal and Tales from the Galaxy’s Edge, as even at full-price there’s a lot to love about them.
Alternatively you can celebrate Star Wars day the traditional way with a marathon of the Star Wars films in order, or by reading up on Star Wars: Skeleton Crew which is set to land later this year.
Star Wars Pinball VR
Okay, okay, I know pinball won’t leave you feeling like a lightsaber-wielding badass, or a slick space pirate, but I promise you have to try this game out. If only because it’s currently massively on sale – coming in at just $8.49 / £6.79 instead of $24.99 / £19.49 just for Star Wars day.
Star Wars Pinball VR reimagines the iconic digital cabinets Zen Studios has crafted over the past few years in a full VR experience. They are situated in a fan’s dream hangout space you can decorate with collectible goodies that you unlock by getting high scores and competing challenges, and the pinball machines themselves are a delight.
They capture the retro-chic flair that real world pinball machines offer, while delivering on digital expectations by featuring interactive elements that wouldn’t be possible in real life. There are 10 total cabinets to master, but if you want to mix things up further you can explore the Career mode; it adds various restrictions and powers to your gameplay that force you to mix up your playstyle.
I’ve enjoyed this game since it first released, and will admit to almost falling over a few times because I’ve been so immersed in the game that I tried to lean on a cabinet that wasn’t there. If you haven’t tried it already you absolutely should right now, especially because it’s at a bargain price.
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Vader Immortal
No villain, nor character in general, is more iconically Star Wars than Darth Vader. So what better way is there to celebrate Star Wars day than with a trilogy inspired by the Sith Lord himself.
As a smuggler who picked the wrong planet to explore – the fiery world of Mustafar which Vader calls home – you must use your lightsaber skills and latent force powers in order to survive the adventure that fate has thrust you into, including an encounter with Vader himself.
This series is far from fault-free – chief among its issues is it’s fairly brief even spread across three games – but the lightsaber combat feels exactly like you always dreamed it would. The force abilities are clunkier, but again it’ll be exactly what everyone who’s ever tried (and failed) to pull an out-of-reach object closer by willing it towards them ever wanted.
The other downside of grabbing Vader Immortal right now if you’re interested is you can only pick each entry up individually. They’re often bundled together in a package that comes with a big discount but that’s currently not the case – so if you’re not desperate to play this game today you might want to hold off until it’s on sale.
Supernatural
If you want to swing a lightsaber around – or at least something like one – and get a little fitter whirl you’re at it, then check out Supernatural. I got hooked on the VR fitness app during my month-long VR workout experiment with my Meta Quest 3, and recently I’ve been enjoying its limited time Star Wars-themed Flow sessions.
My personal favorite one is the Dark Side list because it features Duel of the Fates – it’s so much fun to do battle while this tune blasts through my headset’s speakers. But there’s also a general Star Wars and a Light Side mix if you don’t want to embrace the Sith’s teachings.
Just act fast as these Star Wars levels are leaving very soon.
Star Wars: Tales from the Galaxy’s Edge
If you’re less interested in being a laser sword-wielding space wizard, and would rather be like the blaster touting characters in The Mandalorian or Andor, then Tales from the Galaxy’s Edge will be right up your street.
Set in Batuu – the same location you can travel to at Disney World in Orlando Florida – you must help some familiar droids as you adventure through the wilds of this Outer Rim settlement. Once you’re done you can continue this quintessentially Star Wars story with the Last Call DLC, and if you’ve enjoyed the main game I know you’ll enjoy this expansion too.
As an extra bonus, you can additionally explore tales from Star Wars’ rich history, with short bonus IG-88 and Ady’Sun Zee (a Jedi Padawan) missions. They’re very much secondary to the main game’s plot, but they’re great minigames especially if you’re sharing the experience with friends and family who just want a quickfire burst of Star Wars.
The march of lower-cost laptops that offer some measure of artificial intelligence-focused tuning continues with the Asus Zenbook 14 OLED, the latest in a line of affordable, no-nonsense, ultralight laptops that has been kicking around for more than a decade. Like the Acer Swift Go 14, the Asus Zenbook 14 (model UM3406HA) hits the market at a price that’s comfortably less than $1,000. But unlike the Swift Go, the Zenbook is built around AMD’s latest Ryzen CPU. Among other questions, I was curious to see how the two directly compared.
The Acer and Asus laptops have more than a little in common. Both feature 14-inch touchscreens at 1,920 x 1,200-pixel resolution, 16 GB of RAM, and integrated graphics. The Zenbook has a more basic 512-GB solid-state drive compared to the 1-terabyte model on the Acer, but the biggest difference is the CPU, an AMD Ryzen 7 8840HS on the Asus instead of Acer’s Intel Core Ultra 7.
Photograph: Asus
Walk around the laptop and you’ll see a considerably less well equipped port lineup too. Two USB-C ports (one USB 4, one USB 3.2; one is used for charging), a single USB-A port, and a full-size HDMI output are your connectivity options, altogether a clear step down from what Acer has on offer. Again, all ports are side-mounted here, as the design of the screen causes the rear edge of the LCD to cover up the backside of the chassis when the screen is opened.
The aluminum frame feels much sturdier than you typically find in this price bracket, but I wasn’t in love with the overall design. It’s entirely black with a lid that’s etched with seemingly random lines, creating a haphazard geometric pattern that feels more and more like it was drawn from the ’80s the more you stare at it.
I like the keyboard, which is compact but thoughtfully laid out and offers acceptable key travel, including a Copilot key and functional, half-height arrow keys. The keyboard backlighting is understated. The touchpad is large but just shy of being too big; my palms tended to brush against the corners when typing, but this fortunately didn’t adversely impact the user experience. The Harman Kardon speakers are loud and offer plenty of range for any entertainment needs.
Photograph: Asus
The big question surrounds performance, and I’m happy to report that compared to the Acer Swift Go, the two laptops turned in similar results. On a few tests, the Zenbook would score moderately higher, on others, the crown would go to Acer. Quite a few benchmarks saw results that were functionally identical, including big ones like PCMark 10, which measures mainstream application performance.
Good Lock, Samsung’s impressive One UI customization suite, is now available on the Google Play Store. Earlier, Good Lock and its modules were available exclusively through Samsung’s own Galaxy Store.
Good Lock arrives on the Google Play Store
The Good Lock app is now available directly via the Google Play Store. You can install it via the Play Store if you don’t want to download apps from the Galaxy Store. This app listing was recently spotted by X user @Litto31102469 (via @tarunvats33). We also discovered that the Good Lock’s One Hand Operation + module is available on the Play Store. Hopefully, all other Good Lock modules will make it to the Play Store, offering a choice for Galaxy users.
Samsung has mentioned ‘Early Access’ to Good Lock’s name in the Play Store, so the company is clearly testing the waters right now. It is possible that it may remove the Early Access tag after things get stable.
Good Lock is a group of apps officially supported by Samsung. They can be used to change the design and behavior of several UI elements and sections inside One UI. For example, you can change the home screen, keyboard, lock screen, notifications, and a lot more, depending on which Good Lock module you use.
When Bente Klarlund Pedersen wakes up in the morning, the first thing she does is pull on her trainers and go for a 5-kilometre run — and it’s not just about staying fit. “It’s when I think and solve problems without knowing it,” says Klarlund Pedersen, who specializes in internal medicine and infectious diseases at the University of Copenhagen. “It’s very important for my well-being.”
Whether it’s running or lifting weights, it’s no secret that exercise is good for your health. Research has found that briskly walking for 450 minutes each week is associated with living around 4.5 years longer than doing no leisure-time exercise1, and that engaging in regular physical activity can fortify the immune system and stave off chronic diseases, such as cancer, cardiovascular disease and type 2 diabetes. But, says Dafna Bar-Sagi, a cell biologist at New York University, the burning question is how does exercise deliver its health-boosting effects?
“We know that it is good, but there is still a huge gap in understanding what it is doing to cells,” says Bar-Sagi, who walks on a treadmill for 30 minutes, five days a week.
In the past decade, researchers have started to build a picture of the vast maze of cellular and molecular processes that are triggered throughout the body during — and even after — a workout. Some of these processes dial down inflammation, whereas others ramp up cellular repair and maintenance. Exercise also prompts cells to release signalling molecules that carry a frenzy of messages between organs and tissues: from muscle cells to the immune and cardiovascular systems, or from the liver to the brain.
But researchers are just beginning to work out the meaning of this cacophony of crosstalk, says Atul Shahaji Deshmukh, a molecular biologist at the University of Copenhagen. “Any single molecule doesn’t work alone in the system,” says Deshmukh, who enjoys mountain biking during the summer. “It’s an entire network that functions together.”
Endurance exercise causes a multi-organ full-body molecular reaction
Exercise is also attracting attention from funders. The US National Institutes of Health (NIH), for instance, has invested US$170 million into a six-year study of people and rats that aims to create a comprehensive map of the molecules behind the effects of exercise, and how they change during and after a workout. The consortium behind the study has already published its first tranche of data from studies in rats, which explores how exercise induces changes across organs, tissues and gene expression, and how those changes differ between sexes2–4.
Building a sharper view of the molecular world of exercise could reveal therapeutic targets for drugs that mimic its effects — potentially offering the benefits of exercise in a pill. However, whether such drugs can simulate all the advantages of the real thing is controversial.
The work could also offer clues about which types of physical activity can benefit people with chronic illnesses, says Klarlund Pedersen. “We think you can prescribe exercise as you can prescribe a medicine,” she says.
Hard-wired for exercise
Exercise is a fundamental thread in the human evolutionary story. Although other primates evolved as fairly sedentary species, humans switched to a hunter-gatherer lifestyle that demanded walking long distances, carrying heavy loads of food and occasionally running from threats.
Those with better athletic prowess were better equipped to live longer lives, which made exercise a core part of human physiology, says Daniel Lieberman, a palaeoanthropologist at Harvard University in Cambridge, Massachusetts. The switch to a more active lifestyle led to changes in the human body: exercise burns up energy that would otherwise be stored as fat, which, in excess amounts, increases the risk of cardiovascular disease, type 2 diabetes and some cancers. The stress induced by running or pumping iron has the potential to damage cells, but it also kick-starts a cascade of cellular processes that work to reverse those effects. This can leave the body in better shape than it would be without exercise, says Lieberman.
Researchers have been exploring some of the biological changes that occur during exercise for more than a century. In 1910, pharmacologist Fred Ransom at the University of Cambridge, UK, discovered that skeletal muscle cells secrete lactic acid, which is created when the body breaks down glucose and turns it into fuel5. And in 1961, researchers speculated that skeletal muscle releases a substance that helps to regulate glucose during exercise6.
More clues were in store. In 1999, Klarlund Pedersen and her colleagues collected blood samples from runners before and after they took part in a marathon and found that several cytokines — a type of immune molecule — spiked immediately after exercise and that many remained elevated for up to 4 hours afterwards7. Among these cytokines were interleukin-6 (IL-6), a multifaceted protein that is a key player in the body’s defence response. The following year, Klarlund Pedersen and her colleagues discovered8 that IL-6 is secreted by contracting muscles during exercise, making it an ‘exerkine’ — the umbrella term for compounds produced in response to exercise.
Exercising regularly can strengthen the immune system and stave off disease.Credit: Mike Kemp/Getty
High levels of IL-6 can be beneficial or harmful, depending on how it is provoked. At rest, too much IL-6 has an inflammatory effect and is linked to obesity and insulin resistance, a hallmark of type 2 diabetes, says Klarlund Pedersen. But when exercising, the molecule activates its more calming family members, such as IL-10 and IL-1ra, which tone down inflammation and its harmful effects. “With each bout of exercise, you provoke an anti-inflammatory response,” says Klarlund Pedersen. Although some physical activity is better than none, high-intensity, long-duration exercise that engages large muscles — such as running or cycling — will crank up IL-6 production, adds Klarlund Pedersen.
Exercise is a balancing act in other ways, too. Physical activity produces cellular stress, and certain molecules counterbalance this damaging effect. When mitochondria — the powerhouses that supply energy in cells — ramp up production during exercise, they also produce more by-products called reactive oxygen species (ROS), which, in excessive amounts, can damage proteins, lipids and DNA. But these ROS also kick-start a horde of protective processes during exercise, offsetting their more toxic effects and fortifying cellular defences.
Among the molecular stars in this maintenance and repair arsenal are the proteins PGC-1α, which regulates important skeletal muscle genes, and NRF2, which activates genes that encode protective antioxidant enzymes. During exercise, the body has learnt to benefit from a fundamentally stressful process. “If stress doesn’t kill you it makes you stronger,” says Ye Tian, a geneticist at the Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing.
Exerkines everywhere
Since IL-6 ushered in the exerkine era, the explosion of multiomics — an approach that combines various biological data sets, such as the proteome and metabolome — has allowed researchers to go beyond chasing single molecules. They can now begin untangling the convoluted molecular web that lies behind exercise, and how it interacts with different systems across the body, says Michael Snyder, a geneticist at Stanford University in California, who recently switched from running to weightlifting. “We need to understand how these all work together, because [humans] are a homeostatic machine that needs to be properly tuned,” he says.
In 2020, Snyder and his colleagues took blood samples from 36 people aged between 40 and 75 years old before, during and at various time intervals after the volunteers ran on a treadmill. The team used multiomic profiling to measure more than 17,000 molecules, more than half of which showed significant changes after exercise9. They also found that exercise triggered an elaborate ‘choreography’ of biological processes such as energy metabolism, oxidative stress and inflammation. Creating a catalogue of exercise molecules is an important first step in understanding their effects on the body, says Snyder.
How an exercise habit paves the way for injured muscles to heal
Other studies have probed how exercise affects cell types. A 2022 study in mice led by Jonathan Long, a pathologist at Stanford University, identified more than 200 types of protein that were expressed differently by 21 cell types in response to exercise10. The researchers were expecting to find that cells in the liver, muscle and bone would be most sensitive to exercise, but to their surprise, they found that a much more widespread type of cell, one that appears in many tissues and organs, showed the biggest changes in the proteins that it cranked out or turned down. The findings suggest that more cell types shift gears during a workout than was previously thought, although what these changes mean for the body is still an open question, says Long.
The findings also showed that after exercise, the mice’s liver cells squeezed out several types of carboxylesterase enzyme, which are known to ramp up metabolism. When Long and his colleagues genetically tweaked mice so that their livers expressed elevated levels of these metabolism-enhancing enzymes, and then fed them a diet of fatty foods, the mice didn’t gain weight. They also had increased endurance when they ran on a treadmill. “The improvement in exercise performance by these secreted carboxylesterases was not known before,” says Long, whose weekly exercise regime involves swimming and lifting weights. He adds that if the enzymes could be produced in the right quantities and purity, they could possibly be used as exercise-mimicking compounds.
During a workout, distant organs and tissues communicate with each other through molecular signals. Along with exerkines, extracellular vesicles (EVs) — nanosized, bubble-shaped structures that carry biological material — could be one of the mechanisms behind organ and tissue crosstalk, says Mark Febbraio, a former triathlete who is now an exercise physiologist at Monash University in Melbourne, Australia. In 2018, Febbraio and his team inserted tubes into the femoral arteries of 11 healthy men and drew blood before and after they rode an exercise bike at an increasing pace for an hour. During and after exercise, but not at rest, they found a spike in the levels of more than 300 types of protein that compose or are carried by EVs11.
When the team then collected EVs from mice that had run on a treadmill and injected them into another group of healthy mice, most of the EVs ended up in liver cells. In a separate mouse study that is yet to be published, Febbraio and his colleagues found hints that the contents of these liver-bound EVs can arrest a type of liver disease. A big question is whether EVs also deposit genetic material into different cells, and if so, what that means for the body. “We still don’t know a great deal,” he says.
Exercise as medicine
Larger efforts are under way to build a detailed molecular snapshot of how exercise exerts its health-boosting effects across tissues and organs. In 2016, the NIH established the Molecular Transducers of Physical Activity Consortium (MoTrPAC), a six-year study on around 2,600 people and more than 800 rats that aims to generate a molecular map of exercise. The effort — one of the largest studies on physical activity — is teasing apart the effects of aerobic and endurance exercise on multiple tissue types across different ages and fitness levels.
The first data set is from rats that completed one to eight weeks of treadmill training, and had blood and tissue samples collected at the end. The researchers pinpointed thousands of molecular changes throughout the rats’ bodies, many of which could have a protective effect on health, such as dialling down inflammatory bowel disease and tissue injury2. A separate study3 found that the effects of endurance training differed across sexes: markers associated with the breakdown of fat increased in male fat tissue, driving fat loss, whereas female fat tissue showed an increase in markers related to fat-cell maintenance and insulin signalling, which might protect against cardiometabolic diseases. A third study4 found that exercise alters the expression of genes linked to diseases such as asthma, and could help to trigger similar adaptive responses.
Focus on exercise metabolism and health
A big goal is to uncover why exercise has such varied effects on people of different sexes, ages and ethnic backgrounds, says Snyder, who is a member of the MoTrPAC team. “It’s very obvious that some people benefit better than others,” he says.
Researchers hope that the reams of molecular data will eventually help clinicians to develop tailored exercise prescriptions for people with chronic diseases, says MoTrPAC team member Bret Goodpaster, an exercise physiologist at the University of Pittsburgh in Pennsylvania. Farther down the track, such insights could be used to develop therapeutics that mimic some of the beneficial effects of exercise in people who are too ill to work out, he says. “That’s not to say that we will have exercise in a pill, but there are certain aspects of exercise that could be druggable,” says Goodpaster, who has taken part in triathlons, marathons and cycling races.
Several teams are already in the early stages of developing exercise-mimicking therapeutics. In March 2023, a team led by Thomas Burris, a pharmacologist at the University of Florida in Gainesville, identified a compound that targets proteins called oestrogen-related receptors, which are known to trigger key metabolic pathways in energy-intensive tissues, such as heart and skeletal muscle, particularly during exercise12. When the researchers administered the compound — called SLU-PP-332 — to mice, they found that the treated rodents were able to run 70% longer and 45% farther than untreated mice. Six months later, a separate study, also led by Burris, found that obese mice treated with the drug lost weight and gained less fat than those that didn’t receive the treatment — even though their diet was the same and they didn’t exercise any more than usual13.
There is already evidence that exercise itself acts like medicine. In 2022, Bar-Sagi and her colleagues found that mice with pancreatic cancer had elevated levels of CD8 T cells — which destroy cancerous and virus-infected cells — when they did 30 minutes of aerobic exercise for 5 days a week14. These killer cells express a receptor for IL-15, another exerkine released by muscles during exercise. The researchers found that when CD8 T cells bind to IL-15, they unleash a more powerful immune response on tumours in the pancreas. This effect prolonged survival of mice with tumours by around 40%, compared with that of control mice. The findings held up when Bar-Sagi and her team analysed tumour tissue taken from people with pancreatic cancer. Those who did 60 minutes of aerobic and strength training each week had more CD8 T cells, and were twice as likely to survive for up to 5 years, than were people in the control group.
Although exercising more is a no-brainer for improving health, around 25% of adults globally do not meet the World Health Organization’s recommended levels of exercise each week: 150–300 minutes or more of moderate-intensity exercise, such as a brisk walk; or 75–150 minutes of vigorous-intensity exercise, such as running. David James, an exercise physiologist at the University of Sydney in Australia, who rides his bike to work each day, says that understanding the inner workings of exercise could help to develop clearer public-health messages about why physical activity is important and how it can offset the risk of getting chronic diseases. “That’s a powerful message,” says James.
The Arc browser, a web browser originally designed for macOS and iOS, has finally made its way to Windows 11 after leaving closed beta testing. After testing it out, I’m finding myself enjoying it much better than Google Chrome and especially Microsoft Edge — despite them both being Chromium-based. In fact, in due time it could easily be one of the best browsers around.
I found that it’s incredibly speedy and responsive while using far less memory than Chrome, and that’s with both browsers having the same amount of tabs open. As most Chrome users are aware, memory drain is one of Chrome’s major drawbacks, so a Chromium browser that hogs up far less of it while still running efficiently is a huge deal.
Meanwhile, the obvious positive over Edge is the lack of ads and other massive clutter that’s been plaguing it, making it obnoxious at best and nearly unusable at worst. This includes a current bug from the most recent update that makes Edge almost completely unusable, at least until the next update that fixes it.
Since it was originally made for macOS, Arc uses Swift instead of C++, the latter of which is used in both Google Chrome and Microsoft Edge. While both are excellent programming languages, Swift’s advantage is that it offers automatic memory management which pairs well with increasingly faster processors. Automatic memory management means that developers do not need to write code to perform memory management tasks for managed applications.
Arc also uses native Windows frameworks, making it an incredibly fast and smooth experience. This also means that there is plenty of the Windows 11-like user interface baked in like menu design, toggles, Mica materials, and Acrylic support for a more transparent UI.
One of my favorite features is the split view, which instantly lets you split up tabs two, three, and four ways. You can also choose the format of the tab-splitting. It’s an especially handy feature for those with large monitors, as you can take advantage of it for multitasking without having to toggle through settings.
And no matter how many tabs I opened, I noticed almost no slowdown. Plus, the management system for tabs on the left side of the browser was easy to pick up on and kept all of my tabs perfectly organized, with split tabs and normal tabs separated for easy tracking.
Of course, things aren’t all sunshine and rainbows. Being that this is still a Chromium browser, the looming privacy threat of Manifest V3 is very real as it could break down all ad blocking once it replaces Manifest V2. Then there’s the fact that the browser still tracks users with ad block installed. So as always, download and use Arc with that in mind.
The Arc team, also known as The Browser Company, has promised even more updates for the web browser to eventually bring it to the macOS version’s level, as well as Windows 10 support. It sounds like Arc is shaping up to be a truly unbeatable browser, and it could possibly beat out even the likes of Mozilla Firefox if it’s able to address those privacy issues.
If you’re interested in trying out Arc out for yourself, you can download it for free here.
Hybrid access as a service (HAaaS) provider Cloudbrink has created a new tool that can measure packet loss impact, revealing the deep-seated causes of network and application performance problems affecting the hybrid workforce.
Cloudbrink’s own research reveals as little as 0.0047% packet loss in conjunction with 30ms latency can cause a dramatic decline in speed, reducing effective throughput by up to 95%. This underlines how any latency increase from VPN or ZTNA services can lead to massive degradation in performance.
Cloudbrink points out that packet loss typically occurs in the “last mile” – the distance from the user to the broadband network or the nearest cell tower – or between the user’s device and Wi-Fi router.
Mimics home networking conditions
Focused on remote workforce optimization, the free Packet Loss Tool allows IT departments to see how the use of VPN or ZTNA solutions impact their essential business applications and the overall user experience.
Prakash Mana, CEO of Cloudbrink said, “The shift to hybrid work models brings new hurdles. Remote users often experience lag and connection inconsistencies (latency and jitter) that disrupt their workflow and create frustration with technology. This new tool empowers IT teams to identify these bottlenecks and implement solutions that optimize application performance and end worker frustration.”
Cloudbrink’s tool mimics the network conditions home-based workers and those on the move are projected to face on typical broadband connections, or via cellular networks and public Wi-Fi access points. It also tests the influence of varying network conditions on private and SaaS applications.
Steve Broadhead, Director of Broadband Testing said, “Seeing is believing. This tool provides a great way of enabling the CTO to witness at first hand the effects of network degradation and how it can impact application performance.”
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Packet Loss Tool is available as a free download on the Cloudbrink website. You will need to complete a short survey before gaining access to it.
Google recently underwent a major internal reorganization. The company merged its Android and Hardware (Pixel) teams as part of this reorganization. If you don’t know already, the Android team was responsible for developing the Android OS and related platforms, while the Hardware team was responsible for Pixel smartphones, smartwatches, tablets, and other hardware products.
This could be good or bad news for Samsung and other Android OEMs, depending on what Google does next.
Google claims merger of Android and Hardware teams will help it bring better features faster
This new team within Alphabet is now called Platforms and Devices and is headed by Rick Osterloh. It will now develop software for the Android ecosystem and Google’s hardware products. Earlier, Google maintained a distance between Android and Pixel products so that Android could be seen as a neutral provider for all brands, including Pixel. This meant that Google’s Pixel team wouldn’t have the upper hand compared to other smartphone OEMs. That distance is no longer present, with Android and Hardware teams being merged.
So, should Samsung be worried? Apparently not.
Google says its partner brands (like Honor, OnePlus, OPPO, Samsung, Vivo, and Xiaomi) shouldn’t worry. The company says the merger should be seen as a positive, as the Android ecosystem can now develop things faster. Rick Osterloh met with Samsung MX CEO TM Roh recently and claimed the companies’ relationship has never been stronger.
In an interview with TheVerge, Rick Osterloh and Hiroshi Lockheimer (the previous head of Android, Chrome, and ChromeOS) revealed that they have been discussing this merger with Alphabet CEO Sundar Pichai for over two years. He said consolidating teams “helps us to be able to do full-stack innovation when that’s necessary.” He also said that with this merger, it can now bring AI to all its products faster.
Can we trust Google to follow through, though?
Google recently brought some of its features (Circle to Search and Wear OS) to Samsung first and then to Pixel devices. This move could be a way for Google to stop OEMs from worrying. However, we must wait and watch Google’s moves longer to know if it will stick to its promise. We know how many good products Google has killed over the years (check Google Graveyard), including the nifty little Chromecast.
If Google follows through with its promise, the Android ecosystem will improve greatly. The company has streamlined many of its platforms and services over the past few years. In collaboration with Samsung, it improved Google Home, Nearby Share, and Wear OS. However, it has also ruined many products, including Fitbit and Nest. Many of us know how quickly sometimes Google decides to throw in the towel (looking at you, Stadia).
If Google doesn’t follow through, it would be disastrous for Samsung and all other Android OEMs. Hopefully, Samsung is keeping a close eye on Google and how it is approaching Android and Wear OS.
