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The tech that the US Post Office gave us

The tech that the US Post Office gave us

Tech-news , , ,

When you crack open your mailbox, it’s almost as if your letters just appear. Long before the days of speedy, overnight mail deliveries, postal service workers meticulously sorted through letters by hand and transported mail on horseback. For more than 250 years, the US Postal Service has worked behind the scenes to build a faster delivery network, and this mission has quietly pushed it to the forefront of technology.

“Most people treat the Postal Service like a black box,” USPS spokesperson Jim McKean tells The Verge. “You take your letter, you put it in a mailbox, and then it shows up somewhere in a couple of days. The truth is that that piece of mail gets touched by a lot of people and machines and transported in that period of time — it’s a modern marvel.”

One of its big breakthroughs took place in 1918 with the introduction of airmail. The USPS worked with the Army Signal Corps to use leftover World War I aircraft to launch the service, and the planes were as barebones as they could get. An excerpt from a 1968 issue of Postal Life called the early aircraft “a nervous collection of whistling wires” with “linen stretched over wooden ribs, all attached to a wheezy, water-cooled engine.”

JR-1B mail planes were the first used by the USPS (1918).
Photo: National Archives and Records Administration

At the time, pilots literally risked their lives delivering mail — 34 of them died between 1918 and 1927. “There was no commercial aviation, no airports. There was no radio. There was no navigation,” USPS historian Stephen Kochersperger says. “The Postal Service had to develop all of those things just for getting the mail delivered.”

Once the USPS established that it could reliably deliver mail by plane, Congress allowed it to contract airmail service to commercial aviation companies, laying the groundwork for the major airlines that we know today, like American Airlines and United Airlines. Along with getting paid for delivering mail, contractors found that they could make even more money by carrying passengers with their cargo. “That was where commercial aviation took off,” Kochersperger says.

Airmail routes gradually began to expand internationally, first to Canada and then to Cuba. But a couple decades later, the USPS experimented with a novel form of delivery: mail-by-missile. In 1959, the USPS and the US Navy loaded a Regulus I missile with two mail containers that had 3,000 letters in total. The missile traveled 100 miles in around 23 minutes, successfully landing at a Navy base in Mayport, Florida, with the help of a parachute. Despite its success, the idea never took off. It turns out missiles just can’t carry that much mail. And overall, this rather ridiculous demonstration was more of a stunt to show force during the Cold War, according to the Smithsonian.

The Regulus I missle carried 3,000 pieces of mail (1959).

The Regulus I missle carried 3,000 pieces of mail (1959).
Photo: Collection of United States Postal Service

Back on the ground, the USPS set its sights on improving the speed of mail processing. Though it began experimenting with a mail canceling machine in the 1920s, which put a mark on used postage, it wasn’t until the 1950s that it deployed an electromechanical sorting machine. Instead of manually sorting mail using the “pigeonhole” method, in which workers would insert pieces of mail into different compartments inside the post office depending on the address, the machine could do that for them.

“The Postal Service is a driver of technological change.”

The Transorma multi-position letter sorting machine measured 13 feet high and was split across two levels. It carried mail on a conveyor belt from its lower level to a group of five postal workers at the upper level. The clerks would then use a keyboard to enter information about their destination. Based on the inputted information, the machine would then transport letters to different trays and drop them into chutes that brought them back to the lower level. But as the volume of mail increased in the years after World War II — going from 33 billion pieces of mail per year to 66.5 billion between 1943 and 1962 — the USPS needed a way to keep up.

For years, the USPS had depended on clerks to memorize dozens of delivery schemes that they would use to sort letters, preparing them for carriers to distribute throughout town. “That changed dramatically in 1963, [with] probably the biggest innovation the Postal Service has ever rolled out, called the ZIP code,” Kochersperger says. “For the first time, mailing lists could be digitized in computers and sorted in new ways.”

The ZIP code — short for Zone Improvement Plan — uses its first digit to indicate which region of the US a parcel is headed, the second and third to signal a nearby major city, and the final two to indicate a specific delivery area. The pace of innovation at the USPS ramped up following the introduction of the ZIP code, with many subsequent innovations building on its foundation.

The “Mr. Zip” character helped the USPS promote the ZIP code (1968).

The “Mr. Zip” character helped the USPS promote the ZIP code (1968).
Image: The United States Postal Service

That includes the USPS’s adoption of optical character recognition (OCR), a widely used technology that converts written or printed words into machine-readable text. In 1965, the USPS began to send large volumes of mail through OCR machines, allowing a “digital eye” to recognize addresses and automatically sort letters. If the machine couldn’t make out a person’s handwriting, the USPS would send an image to a remote encoding center (REC) for human review.

At one point, the USPS had as many as 55 RECs, but now only one remains in Salt Lake City, Utah. “As our computer systems have gotten better at recognizing handwriting, we’ve gotten to the point where it’s significantly reduced the number of letters that have to go to remote coding,” McKean says. Today, the USPS’s OCR technology can read handwritten mail at nearly 98 percent accuracy, while machine-printed addresses bump its accuracy to 99.5 percent.

That’s thanks to advances in machine learning, which the USPS, too, has been using in the background for more than 20 years; it first started using a handwriting recognition tool in 1999. The USPS is currently in the middle of a 10-year modernization plan, which includes investments in technology, such as AI. However, the plan has faced criticism for raising the price of stamps and causing service disruptions in some areas.

“The Postal Service is a driver of technological change,” McKean says. “It’s hard to overstate the amount of technology that the Postal Service has been involved in either popularizing or innovating over the last 250 years.”

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Leading the lineup is the ASUS Chromebook CM32, a 2-in-1 device designed for users who want the flexibility of both a tablet and a laptop. The device features a 2.5K touchscreen display, a detachable keyboard, a magnetic kickstand, and support for the ASUS Pen. This makes it suitable for everything from note-taking and studying to media consumption and light gaming.

ASUS has also focused on portability and durability. Despite its lightweight design, the Chromebook comes with military-grade durability certifications and Corning Gorilla Glass protection, making it better equipped to handle everyday wear and tear.

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If you prefer a traditional laptop design, ASUS is also offering the Chromebook CM14 and Chromebook CM15. The two laptops feature 14-inch and 15-inch displays, respectively, and are powered by the MediaTek Kompanio 540 processor. While these aren’t performance-focused machines, they should be more than capable of handling web browsing, document editing, online classes, and other everyday workloads.

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#ASUS #Expands #Chromebook #Lineup #India #CM14 #CM15 #CM32 #ModelsAsus">ASUS Expands Chromebook Lineup in India With New CM14, CM15, and CM32 Models Chromebooks aren’t exactly the most exciting laptops on the market, but they continue to be a popular option for students and anyone who primarily works in the cloud. Looking to capitalize on that demand, ASUS has launched three new Chromebooks in India, including a detachable 2-in-1 model that doubles as a tablet. The new lineup consists of the ASUS Chromebook CM32 Detachable, Chromebook CM14, and Chromebook CM15. All three devices run ChromeOS and come with Google’s latest AI-powered features, along with cloud-first productivity tools aimed at students, educators, and young professionals. ASUS is also bundling three months of Google AI Pro with the devices, giving buyers access to Google’s AI tools and 5TB of cloud storage. ASUS Chromebook CM32 Detachable Leads the Lineup Leading the lineup is the ASUS Chromebook CM32, a 2-in-1 device designed for users who want the flexibility of both a tablet and a laptop. The device features a 2.5K touchscreen display, a detachable keyboard, a magnetic kickstand, and support for the ASUS Pen. This makes it suitable for everything from note-taking and studying to media consumption and light gaming. ASUS has also focused on portability and durability. Despite its lightweight design, the Chromebook comes with military-grade durability certifications and Corning Gorilla Glass protection, making it better equipped to handle everyday wear and tear. Chromebook CM14 and CM15 Focus on Battery Life If you prefer a traditional laptop design, ASUS is also offering the Chromebook CM14 and Chromebook CM15. The two laptops feature 14-inch and 15-inch displays, respectively, and are powered by the MediaTek Kompanio 540 processor. While these aren’t performance-focused machines, they should be more than capable of handling web browsing, document editing, online classes, and other everyday workloads. One of the standout features is battery life. ASUS claims both laptops can deliver up to 20 hours of usage on a single charge, which should easily get most users through a full day of work or study. The laptops also include a 180-degree hinge, allowing users to lay the display flat for easier collaboration during meetings, presentations, or classroom sessions. Price and Availability The new ASUS Chromebook lineup is now available through Amazon and the ASUS eShop. Pricing starts at ₹26,990 for the Chromebook CM14, while the larger Chromebook CM15 starts at ₹28,990. The more premium Chromebook CM32 Detachable is priced at ₹37,990. ASUS is also offering No Cost EMI and ASUS Easy Pay financing options. Monthly installments start at ₹5,165 for the CM14, ₹5,665 for the CM15, and ₹6,332 for the CM32 Detachable. #ASUS #Expands #Chromebook #Lineup #India #CM14 #CM15 #CM32 #ModelsAsus

ASUS Chromebook CM32, a 2-in-1 device designed for users who want the flexibility of both a tablet and a laptop. The device features a 2.5K touchscreen display, a detachable keyboard, a magnetic kickstand, and support for the ASUS Pen. This makes it suitable for everything from note-taking and studying to media consumption and light gaming.

ASUS has also focused on portability and durability. Despite its lightweight design, the Chromebook comes with military-grade durability certifications and Corning Gorilla Glass protection, making it better equipped to handle everyday wear and tear.

Chromebook CM14 and CM15 Focus on Battery Life

If you prefer a traditional laptop design, ASUS is also offering the Chromebook CM14 and Chromebook CM15. The two laptops feature 14-inch and 15-inch displays, respectively, and are powered by the MediaTek Kompanio 540 processor. While these aren’t performance-focused machines, they should be more than capable of handling web browsing, document editing, online classes, and other everyday workloads.

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#ASUS #Expands #Chromebook #Lineup #India #CM14 #CM15 #CM32 #ModelsAsus">ASUS Expands Chromebook Lineup in India With New CM14, CM15, and CM32 Models

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ASUS Chromebook CM32 Detachable Leads the Lineup

ASUS Expands Chromebook Lineup in India With New CM14, CM15, and CM32 Models Chromebooks aren’t exactly the most exciting laptops on the market, but they continue to be a popular option for students and anyone who primarily works in the cloud. Looking to capitalize on that demand, ASUS has launched three new Chromebooks in India, including a detachable 2-in-1 model that doubles as a tablet. The new lineup consists of the ASUS Chromebook CM32 Detachable, Chromebook CM14, and Chromebook CM15. All three devices run ChromeOS and come with Google’s latest AI-powered features, along with cloud-first productivity tools aimed at students, educators, and young professionals. ASUS is also bundling three months of Google AI Pro with the devices, giving buyers access to Google’s AI tools and 5TB of cloud storage. ASUS Chromebook CM32 Detachable Leads the Lineup Leading the lineup is the ASUS Chromebook CM32, a 2-in-1 device designed for users who want the flexibility of both a tablet and a laptop. The device features a 2.5K touchscreen display, a detachable keyboard, a magnetic kickstand, and support for the ASUS Pen. This makes it suitable for everything from note-taking and studying to media consumption and light gaming. ASUS has also focused on portability and durability. Despite its lightweight design, the Chromebook comes with military-grade durability certifications and Corning Gorilla Glass protection, making it better equipped to handle everyday wear and tear. Chromebook CM14 and CM15 Focus on Battery Life If you prefer a traditional laptop design, ASUS is also offering the Chromebook CM14 and Chromebook CM15. The two laptops feature 14-inch and 15-inch displays, respectively, and are powered by the MediaTek Kompanio 540 processor. While these aren’t performance-focused machines, they should be more than capable of handling web browsing, document editing, online classes, and other everyday workloads. One of the standout features is battery life. ASUS claims both laptops can deliver up to 20 hours of usage on a single charge, which should easily get most users through a full day of work or study. The laptops also include a 180-degree hinge, allowing users to lay the display flat for easier collaboration during meetings, presentations, or classroom sessions. Price and Availability The new ASUS Chromebook lineup is now available through Amazon and the ASUS eShop. Pricing starts at ₹26,990 for the Chromebook CM14, while the larger Chromebook CM15 starts at ₹28,990. The more premium Chromebook CM32 Detachable is priced at ₹37,990. ASUS is also offering No Cost EMI and ASUS Easy Pay financing options. Monthly installments start at ₹5,165 for the CM14, ₹5,665 for the CM15, and ₹6,332 for the CM32 Detachable. #ASUS #Expands #Chromebook #Lineup #India #CM14 #CM15 #CM32 #ModelsAsus

Leading the lineup is the ASUS Chromebook CM32, a 2-in-1 device designed for users who want the flexibility of both a tablet and a laptop. The device features a 2.5K touchscreen display, a detachable keyboard, a magnetic kickstand, and support for the ASUS Pen. This makes it suitable for everything from note-taking and studying to media consumption and light gaming.

ASUS has also focused on portability and durability. Despite its lightweight design, the Chromebook comes with military-grade durability certifications and Corning Gorilla Glass protection, making it better equipped to handle everyday wear and tear.

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published late last week in the journal Nature Microbiology.

Good guy prions?

Prions are some of the strangest things around. They’re the misfolded form of a protein naturally found in the body. When a prion comes across its “normal” counterpart, it can somehow induce the latter to turn into a prion itself, almost like a zombie infection.

Classic prion disorders like mad cow disease and Creutzfeldt-Jakob disease are caused by the steady accumulation of one particular type of protein, aptly named the prion protein; these disorders are universally fatal. Some scientists have also argued that other neurodegenerative conditions, such as Alzheimer’s disease, are caused by other kinds of misfolded proteins that act in a similar way to prions.

According to the study researchers, there’s growing evidence that prions and prion-like proteins are more than just harbingers of death. Studies have found that the normal prion protein and the prion-like amyloid beta (one of the drivers of Alzheimer’s) can have antimicrobial activity, for instance. So the team decided to conduct a sweeping analysis looking for antimicrobial peptide fragments within these proteins.

The researchers had previously built an AI model intended to predict the antimicrobial activity of any given peptide fragment, named APEX 1.1. Then they let APEX scan through 19.3 million short peptide fragments found in 2,897 prion and prion-like proteins. They initially uncovered 1,179 candidates, which the team narrowed down to 75 that showed the most potential. Of these, 59 were able to inhibit the growth of at least one bacterial germ in the lab, including 42 that did so at low levels (important for dosing considerations).

Finally, the researchers tested two of the strongest candidates on the skin of mice infected with Acinetobacter baumannii, a common source of drug-resistant infections in people. The candidates appeared to be roughly as effective as polymyxin B, an existing antibiotic often used as a last resort drug for certain drug-resistant infections.

The researchers have coined these antibacterial fragments collected from prions as “prionins.”

The future of prionins

More research is obviously needed to verify whether the team’s prionins can actually work as hoped—and safely—in people. The researchers also note their findings don’t settle the open question as to whether prions or prion-like proteins naturally tackle bacterial infections in our body.

At the same time, they do argue their work provides a strong proof of concept that prionins identified through AI can be viable antibiotic candidates for further testing.

“For a long time, drug discovery has been limited not only by what we can test, but by where we choose to look,” said senior study author César de la Fuente, director of the Machine Biology Group at the University of Pennsylvania Perelman School of Medicine, in a statement from the university. “AI is changing that. It gives us a way to search the hidden layers of biology and ask whether molecules associated with one story—in this case, disease—may also carry another story with therapeutic potential.”

With any luck, the proteins known for causing the scariest diseases around could someday turn into our antibacterial allies.

#Deadly #Proteins #Mad #Cow #Disease #Fight #Superbugsantibiotic resistance,experimental drugs,prions">Deadly Proteins Behind Mad Cow Disease Might Help Us Fight Superbugs The next frontier of antibiotics might come from an unexpected place. Recent research identifies potential antibiotic candidates from inside prions—proteins capable of causing some of the deadliest brain infections ever known, such as mad cow disease. Scientists at the University of Pennsylvania used artificial intelligence to rapidly search hundreds of prions and prion-like proteins for peptides with antibacterial activity. They found several dozen promising candidates, two of which have already shown results treating bacterial infections in mice. The team’s findings establish “prion-related proteins as a productive source space for antibiotic discovery,” the scientists wrote in their paper, published late last week in the journal Nature Microbiology. Good guy prions? Prions are some of the strangest things around. They’re the misfolded form of a protein naturally found in the body. When a prion comes across its “normal” counterpart, it can somehow induce the latter to turn into a prion itself, almost like a zombie infection. Classic prion disorders like mad cow disease and Creutzfeldt-Jakob disease are caused by the steady accumulation of one particular type of protein, aptly named the prion protein; these disorders are universally fatal. Some scientists have also argued that other neurodegenerative conditions, such as Alzheimer’s disease, are caused by other kinds of misfolded proteins that act in a similar way to prions. According to the study researchers, there’s growing evidence that prions and prion-like proteins are more than just harbingers of death. Studies have found that the normal prion protein and the prion-like amyloid beta (one of the drivers of Alzheimer’s) can have antimicrobial activity, for instance. So the team decided to conduct a sweeping analysis looking for antimicrobial peptide fragments within these proteins. The researchers had previously built an AI model intended to predict the antimicrobial activity of any given peptide fragment, named APEX 1.1. Then they let APEX scan through 19.3 million short peptide fragments found in 2,897 prion and prion-like proteins. They initially uncovered 1,179 candidates, which the team narrowed down to 75 that showed the most potential. Of these, 59 were able to inhibit the growth of at least one bacterial germ in the lab, including 42 that did so at low levels (important for dosing considerations). Finally, the researchers tested two of the strongest candidates on the skin of mice infected with Acinetobacter baumannii, a common source of drug-resistant infections in people. The candidates appeared to be roughly as effective as polymyxin B, an existing antibiotic often used as a last resort drug for certain drug-resistant infections. The researchers have coined these antibacterial fragments collected from prions as “prionins.” The future of prionins More research is obviously needed to verify whether the team’s prionins can actually work as hoped—and safely—in people. The researchers also note their findings don’t settle the open question as to whether prions or prion-like proteins naturally tackle bacterial infections in our body. At the same time, they do argue their work provides a strong proof of concept that prionins identified through AI can be viable antibiotic candidates for further testing. “For a long time, drug discovery has been limited not only by what we can test, but by where we choose to look,” said senior study author César de la Fuente, director of the Machine Biology Group at the University of Pennsylvania Perelman School of Medicine, in a statement from the university. “AI is changing that. It gives us a way to search the hidden layers of biology and ask whether molecules associated with one story—in this case, disease—may also carry another story with therapeutic potential.” With any luck, the proteins known for causing the scariest diseases around could someday turn into our antibacterial allies. #Deadly #Proteins #Mad #Cow #Disease #Fight #Superbugsantibiotic resistance,experimental drugs,prions

published late last week in the journal Nature Microbiology.

Good guy prions?

Prions are some of the strangest things around. They’re the misfolded form of a protein naturally found in the body. When a prion comes across its “normal” counterpart, it can somehow induce the latter to turn into a prion itself, almost like a zombie infection.

Classic prion disorders like mad cow disease and Creutzfeldt-Jakob disease are caused by the steady accumulation of one particular type of protein, aptly named the prion protein; these disorders are universally fatal. Some scientists have also argued that other neurodegenerative conditions, such as Alzheimer’s disease, are caused by other kinds of misfolded proteins that act in a similar way to prions.

According to the study researchers, there’s growing evidence that prions and prion-like proteins are more than just harbingers of death. Studies have found that the normal prion protein and the prion-like amyloid beta (one of the drivers of Alzheimer’s) can have antimicrobial activity, for instance. So the team decided to conduct a sweeping analysis looking for antimicrobial peptide fragments within these proteins.

The researchers had previously built an AI model intended to predict the antimicrobial activity of any given peptide fragment, named APEX 1.1. Then they let APEX scan through 19.3 million short peptide fragments found in 2,897 prion and prion-like proteins. They initially uncovered 1,179 candidates, which the team narrowed down to 75 that showed the most potential. Of these, 59 were able to inhibit the growth of at least one bacterial germ in the lab, including 42 that did so at low levels (important for dosing considerations).

Finally, the researchers tested two of the strongest candidates on the skin of mice infected with Acinetobacter baumannii, a common source of drug-resistant infections in people. The candidates appeared to be roughly as effective as polymyxin B, an existing antibiotic often used as a last resort drug for certain drug-resistant infections.

The researchers have coined these antibacterial fragments collected from prions as “prionins.”

The future of prionins

More research is obviously needed to verify whether the team’s prionins can actually work as hoped—and safely—in people. The researchers also note their findings don’t settle the open question as to whether prions or prion-like proteins naturally tackle bacterial infections in our body.

At the same time, they do argue their work provides a strong proof of concept that prionins identified through AI can be viable antibiotic candidates for further testing.

“For a long time, drug discovery has been limited not only by what we can test, but by where we choose to look,” said senior study author César de la Fuente, director of the Machine Biology Group at the University of Pennsylvania Perelman School of Medicine, in a statement from the university. “AI is changing that. It gives us a way to search the hidden layers of biology and ask whether molecules associated with one story—in this case, disease—may also carry another story with therapeutic potential.”

With any luck, the proteins known for causing the scariest diseases around could someday turn into our antibacterial allies.

#Deadly #Proteins #Mad #Cow #Disease #Fight #Superbugsantibiotic resistance,experimental drugs,prions">Deadly Proteins Behind Mad Cow Disease Might Help Us Fight SuperbugsDeadly Proteins Behind Mad Cow Disease Might Help Us Fight Superbugs The next frontier of antibiotics might come from an unexpected place. Recent research identifies potential antibiotic candidates from inside prions—proteins capable of causing some of the deadliest brain infections ever known, such as mad cow disease. Scientists at the University of Pennsylvania used artificial intelligence to rapidly search hundreds of prions and prion-like proteins for peptides with antibacterial activity. They found several dozen promising candidates, two of which have already shown results treating bacterial infections in mice. The team’s findings establish “prion-related proteins as a productive source space for antibiotic discovery,” the scientists wrote in their paper, published late last week in the journal Nature Microbiology. Good guy prions? Prions are some of the strangest things around. They’re the misfolded form of a protein naturally found in the body. When a prion comes across its “normal” counterpart, it can somehow induce the latter to turn into a prion itself, almost like a zombie infection. Classic prion disorders like mad cow disease and Creutzfeldt-Jakob disease are caused by the steady accumulation of one particular type of protein, aptly named the prion protein; these disorders are universally fatal. Some scientists have also argued that other neurodegenerative conditions, such as Alzheimer’s disease, are caused by other kinds of misfolded proteins that act in a similar way to prions. According to the study researchers, there’s growing evidence that prions and prion-like proteins are more than just harbingers of death. Studies have found that the normal prion protein and the prion-like amyloid beta (one of the drivers of Alzheimer’s) can have antimicrobial activity, for instance. So the team decided to conduct a sweeping analysis looking for antimicrobial peptide fragments within these proteins. The researchers had previously built an AI model intended to predict the antimicrobial activity of any given peptide fragment, named APEX 1.1. Then they let APEX scan through 19.3 million short peptide fragments found in 2,897 prion and prion-like proteins. They initially uncovered 1,179 candidates, which the team narrowed down to 75 that showed the most potential. Of these, 59 were able to inhibit the growth of at least one bacterial germ in the lab, including 42 that did so at low levels (important for dosing considerations). Finally, the researchers tested two of the strongest candidates on the skin of mice infected with Acinetobacter baumannii, a common source of drug-resistant infections in people. The candidates appeared to be roughly as effective as polymyxin B, an existing antibiotic often used as a last resort drug for certain drug-resistant infections. The researchers have coined these antibacterial fragments collected from prions as “prionins.” The future of prionins More research is obviously needed to verify whether the team’s prionins can actually work as hoped—and safely—in people. The researchers also note their findings don’t settle the open question as to whether prions or prion-like proteins naturally tackle bacterial infections in our body. At the same time, they do argue their work provides a strong proof of concept that prionins identified through AI can be viable antibiotic candidates for further testing. “For a long time, drug discovery has been limited not only by what we can test, but by where we choose to look,” said senior study author César de la Fuente, director of the Machine Biology Group at the University of Pennsylvania Perelman School of Medicine, in a statement from the university. “AI is changing that. It gives us a way to search the hidden layers of biology and ask whether molecules associated with one story—in this case, disease—may also carry another story with therapeutic potential.” With any luck, the proteins known for causing the scariest diseases around could someday turn into our antibacterial allies. #Deadly #Proteins #Mad #Cow #Disease #Fight #Superbugsantibiotic resistance,experimental drugs,prions

The next frontier of antibiotics might come from an unexpected place. Recent research identifies potential antibiotic candidates from inside prions—proteins capable of causing some of the deadliest brain infections ever known, such as mad cow disease.

Scientists at the University of Pennsylvania used artificial intelligence to rapidly search hundreds of prions and prion-like proteins for peptides with antibacterial activity. They found several dozen promising candidates, two of which have already shown results treating bacterial infections in mice.

The team’s findings establish “prion-related proteins as a productive source space for antibiotic discovery,” the scientists wrote in their paper, published late last week in the journal Nature Microbiology.

Good guy prions?

Prions are some of the strangest things around. They’re the misfolded form of a protein naturally found in the body. When a prion comes across its “normal” counterpart, it can somehow induce the latter to turn into a prion itself, almost like a zombie infection.

Classic prion disorders like mad cow disease and Creutzfeldt-Jakob disease are caused by the steady accumulation of one particular type of protein, aptly named the prion protein; these disorders are universally fatal. Some scientists have also argued that other neurodegenerative conditions, such as Alzheimer’s disease, are caused by other kinds of misfolded proteins that act in a similar way to prions.

According to the study researchers, there’s growing evidence that prions and prion-like proteins are more than just harbingers of death. Studies have found that the normal prion protein and the prion-like amyloid beta (one of the drivers of Alzheimer’s) can have antimicrobial activity, for instance. So the team decided to conduct a sweeping analysis looking for antimicrobial peptide fragments within these proteins.

The researchers had previously built an AI model intended to predict the antimicrobial activity of any given peptide fragment, named APEX 1.1. Then they let APEX scan through 19.3 million short peptide fragments found in 2,897 prion and prion-like proteins. They initially uncovered 1,179 candidates, which the team narrowed down to 75 that showed the most potential. Of these, 59 were able to inhibit the growth of at least one bacterial germ in the lab, including 42 that did so at low levels (important for dosing considerations).

Finally, the researchers tested two of the strongest candidates on the skin of mice infected with Acinetobacter baumannii, a common source of drug-resistant infections in people. The candidates appeared to be roughly as effective as polymyxin B, an existing antibiotic often used as a last resort drug for certain drug-resistant infections.

The researchers have coined these antibacterial fragments collected from prions as “prionins.”

The future of prionins

More research is obviously needed to verify whether the team’s prionins can actually work as hoped—and safely—in people. The researchers also note their findings don’t settle the open question as to whether prions or prion-like proteins naturally tackle bacterial infections in our body.

At the same time, they do argue their work provides a strong proof of concept that prionins identified through AI can be viable antibiotic candidates for further testing.

“For a long time, drug discovery has been limited not only by what we can test, but by where we choose to look,” said senior study author César de la Fuente, director of the Machine Biology Group at the University of Pennsylvania Perelman School of Medicine, in a statement from the university. “AI is changing that. It gives us a way to search the hidden layers of biology and ask whether molecules associated with one story—in this case, disease—may also carry another story with therapeutic potential.”

With any luck, the proteins known for causing the scariest diseases around could someday turn into our antibacterial allies.

#Deadly #Proteins #Mad #Cow #Disease #Fight #Superbugsantibiotic resistance,experimental drugs,prions

PS Svarva Floor Lamp

“Some stuff I did myself, like this one. The Svarva lamp we made with the design group Front for the PS 2009 collection. They were quite newly established and so we did an armchair and this lamp. The desire was to do a wooden turned lamp, but you should also be able to twist it, articulate it.”

“I felt that that would be very difficult to do. Along with a colleague in lighting at the time, I went to Hungary to this factory that was producing lamps for us. It was all metal tubes that they were doing, so we were a little bit hesitant whether they should be able to solve this. But they made some mock-ups based on the designer drawings. So we went there to have a look, and it was standing there. It was this floor lamp, and also a table lamp where the wooden beads were going in a circle and then up, like a snake.”

“What we didn’t know was that next to the lamp factory was this factory that was doing the turned wooden beads, the small individual pieces that we put together. None of us knew that. It was just pure serendipity. So they were turning these wooden beads, and the lamp factory was putting them on the metal tubes, just like on a necklace. They had very little to do, so they were happy to get the business.”

Image may contain Furniture Home Decor Rug Clothing Footwear Shoe and Chest Of Drawers

A Sinka Cabinet resides in Ejdemo’s hallway.

Courtesy of Johan Ejdemo

PS Sinka Cabinet

“I have another favorite from that PS 2009 collection, it’s in my hallway. The PS Sinka, with the small drawers with a wooden base. Sinka means “dovetail” in Swedish, so the name explaining that construction.”

“But the problem we had with this one was the packaging volume was too big. So what we did was each drawer is slightly shallower. So four drawers stack into each other. And four more drawers stack. There’s a little bit of a stopper in the back when you push them in, so they stop evenly at the front. There’s also a hidden compartment behind the smallest drawer. Really good drawers for all this stuff that is just lying around and getting in the way. In the top one I have all my keys that I no longer know where they go.”

PS Jonsberg Vases

“I have this vase from the PS collection to hold the cables [on my Samsung Serif TV]. It was a set, the Jonsberg vases by Hella Jongerius. There were four of them in different ceramic techniques. I had all four, but the terracotta one broke, which was a pity.” [It certainly is. These $39 vases now sell secondhand for $1,700 for a full set.]

“They’re inspired by different regions, and the different techniques are beautiful. I use the big black one for toilet paper in one bathroom. It’s not disrespect for the design. It’s just such a good design to stand there, and it makes the bathroom beautiful, and it can fit the toilet roll. So, why have something like an ugly stick? It’s nice for that.”

Pax Wardrobes

“Pax. We have to mention Pax. I have Pax wardrobes in a few rooms, but also I’m a little bit peculiar. Like in the kitchen, these veneer doors have been sanded and hand-painted by me, just to make them fit my house, in my space. I repaint them sometimes.”

Chipped Spraka pepper mills.

Chipped Spraka pepper mills.

Courtesy of Johan Ejdemo

Spraka Pepper Mills

“I have these pepper mills. One for white pepper, one for black pepper. That was also in a PS collection. We did these with Marcus Arvonen. These pepper mills are beautiful, and these have been around for, like, 20 years as well. They are pretty tall. A smaller version came later on, but I like these.”

“They have their chips, yes, but this just makes them nicer. It’s age. They’ve been around and are used every day. Everything has a little bit of imperfection. You can spend your whole life bothering about that, but there should be some imperfection in life. Fix it? Then something else needs fixing. It just moves. Leave it, be proud.”

Where’s the Billy Bookcase or Kallax?

“I don’t have a Billy in the house now. But there have been! Kallax? I have owned many. Brilliant piece. Really good for vinyl, because that’s the time they come from. I listen to a lot of vinyl.”

#Ikea #Products #Companys #Design #Chief #Personally #Ownsikea,design,home,furniture,household,interviews">These Are the 12 Ikea Products the Company’s Design Chief Personally OwnsThe Svarva lamp can be twisted into different shapes. Courtesy of Johan EjdemoPS Svarva Floor Lamp“Some stuff I did myself, like this one. The Svarva lamp we made with the design group Front for the PS 2009 collection. They were quite newly established and so we did an armchair and this lamp. The desire was to do a wooden turned lamp, but you should also be able to twist it, articulate it.”“I felt that that would be very difficult to do. Along with a colleague in lighting at the time, I went to Hungary to this factory that was producing lamps for us. It was all metal tubes that they were doing, so we were a little bit hesitant whether they should be able to solve this. But they made some mock-ups based on the designer drawings. So we went there to have a look, and it was standing there. It was this floor lamp, and also a table lamp where the wooden beads were going in a circle and then up, like a snake.”“What we didn’t know was that next to the lamp factory was this factory that was doing the turned wooden beads, the small individual pieces that we put together. None of us knew that. It was just pure serendipity. So they were turning these wooden beads, and the lamp factory was putting them on the metal tubes, just like on a necklace. They had very little to do, so they were happy to get the business.”A Sinka Cabinet resides in Ejdemo’s hallway. Courtesy of Johan EjdemoPS Sinka Cabinet“I have another favorite from that PS 2009 collection, it’s in my hallway. The PS Sinka, with the small drawers with a wooden base. Sinka means “dovetail” in Swedish, so the name explaining that construction.”“But the problem we had with this one was the packaging volume was too big. So what we did was each drawer is slightly shallower. So four drawers stack into each other. And four more drawers stack. There’s a little bit of a stopper in the back when you push them in, so they stop evenly at the front. There’s also a hidden compartment behind the smallest drawer. Really good drawers for all this stuff that is just lying around and getting in the way. In the top one I have all my keys that I no longer know where they go.”PS Jonsberg Vases“I have this vase from the PS collection to hold the cables [on my Samsung Serif TV]. It was a set, the Jonsberg vases by Hella Jongerius. There were four of them in different ceramic techniques. I had all four, but the terracotta one broke, which was a pity.” [It certainly is. These vases now sell secondhand for ,700 for a full set.]“They’re inspired by different regions, and the different techniques are beautiful. I use the big black one for toilet paper in one bathroom. It’s not disrespect for the design. It’s just such a good design to stand there, and it makes the bathroom beautiful, and it can fit the toilet roll. So, why have something like an ugly stick? It’s nice for that.”Pax Wardrobes“Pax. We have to mention Pax. I have Pax wardrobes in a few rooms, but also I’m a little bit peculiar. Like in the kitchen, these veneer doors have been sanded and hand-painted by me, just to make them fit my house, in my space. I repaint them sometimes.”Chipped Spraka pepper mills. Courtesy of Johan EjdemoSpraka Pepper Mills“I have these pepper mills. One for white pepper, one for black pepper. That was also in a PS collection. We did these with Marcus Arvonen. These pepper mills are beautiful, and these have been around for, like, 20 years as well. They are pretty tall. A smaller version came later on, but I like these.”“They have their chips, yes, but this just makes them nicer. It’s age. They’ve been around and are used every day. Everything has a little bit of imperfection. You can spend your whole life bothering about that, but there should be some imperfection in life. Fix it? Then something else needs fixing. It just moves. Leave it, be proud.”Where’s the Billy Bookcase or Kallax?“I don’t have a Billy in the house now. But there have been! Kallax? I have owned many. Brilliant piece. Really good for vinyl, because that’s the time they come from. I listen to a lot of vinyl.”#Ikea #Products #Companys #Design #Chief #Personally #Ownsikea,design,home,furniture,household,interviews

Svarva lamp we made with the design group Front for the PS 2009 collection. They were quite newly established and so we did an armchair and this lamp. The desire was to do a wooden turned lamp, but you should also be able to twist it, articulate it.”

“I felt that that would be very difficult to do. Along with a colleague in lighting at the time, I went to Hungary to this factory that was producing lamps for us. It was all metal tubes that they were doing, so we were a little bit hesitant whether they should be able to solve this. But they made some mock-ups based on the designer drawings. So we went there to have a look, and it was standing there. It was this floor lamp, and also a table lamp where the wooden beads were going in a circle and then up, like a snake.”

“What we didn’t know was that next to the lamp factory was this factory that was doing the turned wooden beads, the small individual pieces that we put together. None of us knew that. It was just pure serendipity. So they were turning these wooden beads, and the lamp factory was putting them on the metal tubes, just like on a necklace. They had very little to do, so they were happy to get the business.”

Image may contain Furniture Home Decor Rug Clothing Footwear Shoe and Chest Of Drawers

A Sinka Cabinet resides in Ejdemo’s hallway.

Courtesy of Johan Ejdemo

PS Sinka Cabinet

“I have another favorite from that PS 2009 collection, it’s in my hallway. The PS Sinka, with the small drawers with a wooden base. Sinka means “dovetail” in Swedish, so the name explaining that construction.”

“But the problem we had with this one was the packaging volume was too big. So what we did was each drawer is slightly shallower. So four drawers stack into each other. And four more drawers stack. There’s a little bit of a stopper in the back when you push them in, so they stop evenly at the front. There’s also a hidden compartment behind the smallest drawer. Really good drawers for all this stuff that is just lying around and getting in the way. In the top one I have all my keys that I no longer know where they go.”

PS Jonsberg Vases

“I have this vase from the PS collection to hold the cables [on my Samsung Serif TV]. It was a set, the Jonsberg vases by Hella Jongerius. There were four of them in different ceramic techniques. I had all four, but the terracotta one broke, which was a pity.” [It certainly is. These $39 vases now sell secondhand for $1,700 for a full set.]

“They’re inspired by different regions, and the different techniques are beautiful. I use the big black one for toilet paper in one bathroom. It’s not disrespect for the design. It’s just such a good design to stand there, and it makes the bathroom beautiful, and it can fit the toilet roll. So, why have something like an ugly stick? It’s nice for that.”

Pax Wardrobes

“Pax. We have to mention Pax. I have Pax wardrobes in a few rooms, but also I’m a little bit peculiar. Like in the kitchen, these veneer doors have been sanded and hand-painted by me, just to make them fit my house, in my space. I repaint them sometimes.”

Chipped Spraka pepper mills.

Chipped Spraka pepper mills.

Courtesy of Johan Ejdemo

Spraka Pepper Mills

“I have these pepper mills. One for white pepper, one for black pepper. That was also in a PS collection. We did these with Marcus Arvonen. These pepper mills are beautiful, and these have been around for, like, 20 years as well. They are pretty tall. A smaller version came later on, but I like these.”

“They have their chips, yes, but this just makes them nicer. It’s age. They’ve been around and are used every day. Everything has a little bit of imperfection. You can spend your whole life bothering about that, but there should be some imperfection in life. Fix it? Then something else needs fixing. It just moves. Leave it, be proud.”

Where’s the Billy Bookcase or Kallax?

“I don’t have a Billy in the house now. But there have been! Kallax? I have owned many. Brilliant piece. Really good for vinyl, because that’s the time they come from. I listen to a lot of vinyl.”

#Ikea #Products #Companys #Design #Chief #Personally #Ownsikea,design,home,furniture,household,interviews">These Are the 12 Ikea Products the Company’s Design Chief Personally Owns
Image may contain Lamp Chair Furniture Art Painting and Floor Lamp

The Svarva lamp can be twisted into different shapes.

Courtesy of Johan Ejdemo

PS Svarva Floor Lamp

“Some stuff I did myself, like this one. The Svarva lamp we made with the design group Front for the PS 2009 collection. They were quite newly established and so we did an armchair and this lamp. The desire was to do a wooden turned lamp, but you should also be able to twist it, articulate it.”

“I felt that that would be very difficult to do. Along with a colleague in lighting at the time, I went to Hungary to this factory that was producing lamps for us. It was all metal tubes that they were doing, so we were a little bit hesitant whether they should be able to solve this. But they made some mock-ups based on the designer drawings. So we went there to have a look, and it was standing there. It was this floor lamp, and also a table lamp where the wooden beads were going in a circle and then up, like a snake.”

“What we didn’t know was that next to the lamp factory was this factory that was doing the turned wooden beads, the small individual pieces that we put together. None of us knew that. It was just pure serendipity. So they were turning these wooden beads, and the lamp factory was putting them on the metal tubes, just like on a necklace. They had very little to do, so they were happy to get the business.”

Image may contain Furniture Home Decor Rug Clothing Footwear Shoe and Chest Of Drawers

A Sinka Cabinet resides in Ejdemo’s hallway.

Courtesy of Johan Ejdemo

PS Sinka Cabinet

“I have another favorite from that PS 2009 collection, it’s in my hallway. The PS Sinka, with the small drawers with a wooden base. Sinka means “dovetail” in Swedish, so the name explaining that construction.”

“But the problem we had with this one was the packaging volume was too big. So what we did was each drawer is slightly shallower. So four drawers stack into each other. And four more drawers stack. There’s a little bit of a stopper in the back when you push them in, so they stop evenly at the front. There’s also a hidden compartment behind the smallest drawer. Really good drawers for all this stuff that is just lying around and getting in the way. In the top one I have all my keys that I no longer know where they go.”

PS Jonsberg Vases

“I have this vase from the PS collection to hold the cables [on my Samsung Serif TV]. It was a set, the Jonsberg vases by Hella Jongerius. There were four of them in different ceramic techniques. I had all four, but the terracotta one broke, which was a pity.” [It certainly is. These $39 vases now sell secondhand for $1,700 for a full set.]

“They’re inspired by different regions, and the different techniques are beautiful. I use the big black one for toilet paper in one bathroom. It’s not disrespect for the design. It’s just such a good design to stand there, and it makes the bathroom beautiful, and it can fit the toilet roll. So, why have something like an ugly stick? It’s nice for that.”

Pax Wardrobes

“Pax. We have to mention Pax. I have Pax wardrobes in a few rooms, but also I’m a little bit peculiar. Like in the kitchen, these veneer doors have been sanded and hand-painted by me, just to make them fit my house, in my space. I repaint them sometimes.”

Chipped Spraka pepper mills.

Chipped Spraka pepper mills.

Courtesy of Johan Ejdemo

Spraka Pepper Mills

“I have these pepper mills. One for white pepper, one for black pepper. That was also in a PS collection. We did these with Marcus Arvonen. These pepper mills are beautiful, and these have been around for, like, 20 years as well. They are pretty tall. A smaller version came later on, but I like these.”

“They have their chips, yes, but this just makes them nicer. It’s age. They’ve been around and are used every day. Everything has a little bit of imperfection. You can spend your whole life bothering about that, but there should be some imperfection in life. Fix it? Then something else needs fixing. It just moves. Leave it, be proud.”

Where’s the Billy Bookcase or Kallax?

“I don’t have a Billy in the house now. But there have been! Kallax? I have owned many. Brilliant piece. Really good for vinyl, because that’s the time they come from. I listen to a lot of vinyl.”

#Ikea #Products #Companys #Design #Chief #Personally #Ownsikea,design,home,furniture,household,interviews

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