Metallicus, the startup behind the peer-to-peer payments platform Metal Pay, received an undisclosed angel investment from the youngest bitcoin millionaire, Erik Finman.
In partnership with Metal Pay CEO Marshall Hayner, the two look to develop the first “all-in-one” cryptocurrency banking platform, which includes a 17 digital asset exchange, a digital bank and a payments application with social features similar to Venmo.
Founded in September, Metal Pay has processed approximately $11 million in total payments from nearly 130,000 registered users across 38 states. On a monthly basis, the company processes $1 million in crypto or fiat for around 30,000 active users, according to Hayner.
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Before scientists discovered the new state of matter last week, we were basically all used to just three states of matter. After all, during our daily lives we encounter some variety of solids, liquids and gases. Solids hold a definite shape without a container, liquids conform to the shape of their container, and gases not only conform to a container, but also expand to fill it.
And there’s variety amidst these three: A crystalline solid, for example, has all its atoms lined up in exactly the precise order in perfect symmetry, while a quasicrystal solid fills all its space without the tightly regulated structure. Liquid crystals, which make up the visual components of most electronic displays, have elements of both liquids and crystal structures, as anyone who has ever pushed the screen of their calculator can confirm.
Under standard conditions on Earth, solids, liquids and gasses are the vast majority of what a person will experience in life. But that doesn’t mean there’s not a whole lot more beneath the surface.
The evolving gene-editing technology CRISPR-Cas9 is useful for changing one gene, or maybe a few genes at a time. A team at ETH Zurich has tweaked the technology so they can change 25 different gene sites at once. Instead of using the Cas9 enzyme to do the DNA cutting, though, they used Cas12a. That allowed them to create a long “address list” of gene sites to target, they explained in the journal Nature Methods. They created a DNA molecule called a plasmid to store the list, inserted it in human cells and were able to modify several genes, they reported. (Release)
Chemotherapy and radiation suppress blood stem cells, often for several weeks or even months after cancer treatments are complete. This leaves patients vulnerable to infections and other health problems. Scientists at the University of California, Los Angeles have created a new drug that targets the protein tyrosine phosphatase-sigma (PTP-sigma), which is prevalent on blood stem cells. They showed that blocking the protein in rodent models with the drug, called DJ009, helped blood cells recover more quickly after they were damaged by radiation. They published their findings in the journal Nature Communications. (Release)
Supplementing psychotherapy with small doses of MDMA could be an effective strategy to prevent relapses of alcohol addiction in patients, an ongoing small clinical trial suggests. The research is yet another example of how scientists and doctors are finding or rediscovering therapeutic uses for recreational and illicit drugs.
MDMA-assisted therapy is actually an old idea, which enjoyed some popularity in the 1970s and 1980s. Though the exact mechanisms are unclear, the synthetic drug’s euphoric effects are thought to amplify the positive patterns of thinking taught by therapy, as well as make people feel less anxious during sessions. Of course, these same mood-boosting attributes made MDMA a popular recreational drug. This popularity led the U.S. government to ban MDMA in 1985, by classifying it as a Schedule 1 drug with no accepted medical use.
Ever been frustrated waiting for your YouTube video to stream quickly? A team of experts from MIT has created a system that allows multiple Wi-Fi users to stream and buffer high-quality videos.
People say, well, but we’re going to stop being human if we merge with machines. No, that is what it means to be human.
Dr. Kurtzweil, I would like to ask you. You have made hundreds of predictions out of which many already have come true, and with no doubt many more will come through. But if you would have to single out your three most important predictions for the upcoming decade, what would they be?
Well, one is health and medicine. We talked about our bodies and our bodies are basically actually information because it’s governed by our genes. They are information processes. We didn’t used to treat it that way. It was basically hit or miss. We’d find something. Oh, here’s something that lowers blood pressure. Here’s something that kills HIV. And we would find these things accidentally, so progress was linear. Still valuable. I gave a speech to 12 and 13 year old science winners recently and I said you all would be senior citizens if it hadn’t been for this progress because life expectancy was 19 a thousand years ago. But this is going to go into high gear now. The enabling factor for health and medicine to become an information technology was the genome project. That itself is a perfect exponential and we now have the software of life and we’re also making exponential progress in being able to model it, simulate it, understand it and reprogram it.
And I could speak at great length about examples of how we’re doing that. You can for example now fix a broken heart. Not yet from romance, that’ll take a few more developments in virtual reality, but from a heart attack. My father had a heart attack in the 60s, nothing you could do about it, he could hardly walk. But I’ve talked to people now who could hardly walk and are now rejuvenated. You actually have to be a medical tourist and go to a place like Israel. But that’s just one example of many and what is now a sort of a trickle of these developments, is going to be a flood ten years from now. These technologies will be a thousand times more powerful than they are today because they’re doubling in power every year. They’ll be a million times more powerful in 20 years.
