Microsoft has announced to solve’ cancer within the next decade by ‘reprogramming’ diseased cells like computer virus.
Researchers were able to prevent the death of neurons that causes ALS by introducing a genetic mutation to prevent the SOD1 protein from clumping.
The growing resistance of Gonorrhea, alarmed the researchers.
Awesome; how about Elephant tusks, etc.
In Brief.
California biotech company Pembient has announced its production of synthetic rhino horns, in the hopes of providing an ethical alternative to purchasing from poachers. Conservationist groups express worries over any unintended impact.
Although everyone was thrilled at the birth of a white rhinoceros calf, the fact still remains that the rhino is one of the world’s most endangered animals in the world (3 out of 5 species are critically endangered). This is largely due to intense poaching, which targets the rhino for its distinctive horns.
Just like checking your bag on a commercial airline, space travel comes with some pretty big weight restrictions. How big? According to estimates, reaching space costs a whopping $10,000 per pound, which means that every ounce saved has a big impact on the bottom line.
That’s where a group of Danish researchers comes in. The team is working on a synthetic biology project called CosmoCrops, which hopes to use bacteria to make it possible to 3D print everything needed for a respectable space mission, using a cutting-edge co-culturing system. And it could even make life better for those of us back on Earth in the process.
“We are trying to make space exploration cheaper, because many inventions we use in our daily life were invented because of space exploration, like Velcro and solar energy,” Joachim Larsen, one of the students working on the project, told Digital Trends. “The way we want to achieve this is to [be] able to produce everything from food to medicine and bioplastic for 3D printers out in space — making the space rocket a lot lighter.”
A 3D printed house, does it really exist? Here are the most fascinating 3D printed houses in the world, from tiny town cabins to an entire village.
“What’s wrong with brick and mortar, glass and concrete?”, you might ask. “Why to build a 3D printed house?” Apart from the obvious answer – because we can -, there are various good reasons for using 3D printing methods in constructing buildings:
My new story for VentureBeat on the coming of robot bodyguards. I’ll be speaking about this next week at RoboBusiness 2016, a major robotics conference in San Jose:
I recently consulted with the US Navy on all things “transhuman.” In those conversations about how science and technology can help the human race evolve beyond its natural limits, it was clear that military is keen on replacing human soldiers with both fighting and peacekeeping machines so American military lives never have to come under fire or be in harm’s way.
However, it’s the peacekeeping technology that is particularly interesting for many civilians. While you wouldn’t want an armed Terminator in your home, you might like a robot that travels with you and offers personal protection, like a bodyguard. In a survey by Travelzoo of 6,000 participants, nearly 80 percent of people said they expect robots to be a significant part of their lives by 2020 — and that those robots might even join them on holidays.
The robotics industry is already considering this, and recently debuted some security models. A few months ago China came out with its Anbot, which can taser people and be used for riot control. And South Korea already uses mobile robot guards in its prisons. Even in San Francisco, you can rent out robot guards to protect your businesses and property. However, the rent-a-robot company, Knightscope, recently came under fire for accidentally running over a toddler at the Stanford Shopping Center.
TAIPEI — Leading graphics chip designer Nvidia said on Wednesday that it had formed a partnership with Foxconn Technology Group and Quanta Computer to develop servers that offer artificial intelligence capabilities.
“In the long term, artificial intelligence computing has the largest market potential, as every data center in the future will have artificial intelligence,” Chief Executive Jen-Hsun Huang told an audience at a tech forum in Taipei on Wednesday.
The development of next-generation technologies including connected devices, driverless cars and smart cities require servers that can handle massive amounts of data, images and videos.
According to the Kardashev scale, a Type III civilization is a society that has managed to harness (and control) the energy output of a galaxy. Here’s what that means.
To measure the level of a civilization’s advancement, the Kardashev scale focuses on the amount of energy that a civilization is able to harness. Obviously, the amount of power available to a civilization is linked to how widespread the civilization is (you can’t harness the power of a star if you are confined to your home planet, and you certainly can’t harness the power of a galaxy if you can’t even get out of your solar system).
In a recent experiment, a Swedish scientist, Fredrik Lanner, a developmental biologist at the Karolinska Institute in Stockholm, attempted to modify the genes of a human embryos injecting a gene-editing tool known as CRISPR-Cas9 into carefully thawed five human embryos donated by couples who had gone through in vitro fertilization (IVF). One did not survive the cooling and thawing process, while another one was severely damaged while being injected. The remaining three embryos, which were two-days old when they were injected, survived in good shape, with one of them dividing immediately after being injected.
Scientists have viewed modifying a human embryo as over the line for safety and ethical concerns. The fear is that Lanner’s work could open the door to others attempting to use genetically modified embryos to make babies. One mistake could introduce a new disease in the human gene pool that can be inherited by future generations. Scientists are also concerned on the possibility of “designer babies,” where parents could choose traits they want for their babies.
Fredrik Lanner (right) of the Karolinska Institute in Stockholm and his student Alvaro Plaza Reyes examine a magnified image of an human embryo that they used to attempt to create genetically modified healthy human embryos. (Credit: Rob Stein/NPR)
Multiferroics – materials that exhibit both magnetic and electric order – are of interest for next-generation computing but difficult to create because the conditions conducive to each of those states are usually mutually exclusive. And in most multiferroics found to date, their respective properties emerge only at extremely low temperatures.
Two years ago, researchers in the labs of Darrell Schlom, the Herbert Fisk Johnson Professor of Industrial Chemistry in the Department of Materials Science and Engineering, and Dan Ralph, the F.R. Newman Professor in the College of Arts and Sciences, in collaboration with professor Ramamoorthy Ramesh at UC Berkeley, published a paper announcing a breakthrough in multiferroics involving the only known material in which magnetism can be controlled by applying an electric field at room temperature: the multiferroic bismuth ferrite.
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