Lifeboat Foundation: Safeguarding Humanity
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Elon Musk took to Twitter Sunday night to announce a new recovery method for an upper stage SpaceX rocket. A balloon — a “giant party balloon” to quote him directly — will ferry part of a rocket to a bounce house. Seriously.

If anyone else proposed this idea they would be ignored, but Elon Musk lately has a way of turning crazy ideas into reality.

It was just in 2012 that SpaceX launched and landed its first rocket and now the company is doing it with rockets significantly larger. And then early this year SpaceX made a surprise announcement that it would attempt to use a high-speed boat and large net to catch part of rocket. And it worked after a failed first attempt.

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Giant plasma “tornadoes” raging across the surface of the sun don’t actually spin like astronomers once thought, new research shows.

Massive solar tornadoes, formally known as tornado prominences, which were first observed about 100 years ago, seemed to bear a striking resemblance to tornadoes on Earth. These gigantic structures — each one several times the size of Earth — are made of hot, flowing gas and tangled magnetic field lines, ultimately driven by nuclear reactions in the solar core.

However, using a method known as the Doppler effect, scientists have precisely measured the speed of the moving plasma, as well as its direction, temperature and density, revealing that twisters on the sun do not rotate like earthbound tornadoes do, according to a statement from the European Week of Astronomy and Space Science (EWASS) conference. [Secrets of Sun Super-Tornadoes Revealed (Gallery)].

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Human stem cells have shown potential in medicine as they can transform into various specialized cell types such as bone and cartilage cells. The current approach to obtain such specialized cells is to subject stem cells to specialized instructive protein molecules known as growth factors. However, use of growth factors in the human body can generate harmful effects including unwanted tissue growth, such as a tumor.

Researchers at Texas A&M University have explored a new class of clay nanoparticles that can direct to become bone or .

Dr. Akhilesh Gaharwar, an assistant professor in the Department of Biomedical Engineering, and his students have demonstrated that a specific type of two-dimensional (2-D) nanoparticles, also known as nanosilicates, can grow bone and cartilage tissue from stem cells in the absence of . These nanoparticles are similar to flaxseed in shape, but 10 billion times smaller in size. Their work, “Widespread changes in transcriptome profile of human induced by two-dimensional nanosilicates,” has been published in Proceedings of the National Academy of Sciences this week.

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Trapping light with an optical version of a whispering gallery, researchers at the National Institute of Standards and Technology (NIST) have developed a nanoscale coating for solar cells that enables them to absorb about 20 percent more sunlight than uncoated devices. The coating, applied with a technique that could be incorporated into manufacturing, opens a new path for developing low-cost, high-efficiency solar cells with abundant, renewable and environmentally friendly materials.

The consists of thousands of tiny glass beads, only about one-hundredth the width of a human hair. When sunlight hits the coating, the waves are steered around the nanoscale bead, similar to the way sound waves travel around a curved wall such as the dome in St. Paul’s Cathedral in London. At such curved structures, known as acoustic whispering galleries, a person standing near one part of the wall easily hears a faint sound originating at any other part of the wall.

Whispering galleries for light were developed about a decade ago, but researchers have only recently explored their use in solar-cell coatings. In the experimental set up devised by a team including Dongheon Ha of NIST and the University of Maryland’s NanoCenter, the light captured by the nanoresonator coating eventually leaks out and is absorbed by an underlying solar cell made of gallium arsenide.

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Researchers at the University of Washington have developed a product that uses peptides to promote the regrowth of tooth enamel in order to treat dental cavities.

An end to tooth decay?

There are multiple regenerative medicine approaches being developed to combat tooth decay; for example, earlier this year, we discussed a method that uses gsk3 antagonists to spur the regeneration of teeth. This is a similar approach that is showing promising results.

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On Monday, April 16, the Transiting Exoplanet Survey Satellite (TESS) will launch from Cape Canaveral Air Force Station in Florida. NASA’s new exoplanet hunter will train its sights on nearer, brighter stars than its predecessors did. If TESS lives up to scientists’ predictions, it could energize our search for life in the cosmos.

When the Kepler space telescope launched in 2009, scientists didn’t know what fraction of stars hosted planets. The Kepler mission was a statistical exploration looking to see how frequently planets occur around stars, Harvard astronomer David Latham told Space.com. “One of the big surprises from Kepler was to find this whole population of planets with sizes between that of Neptune and Earth — and there aren’t any in our solar system, zero — and they’re everywhere out there,” said Latham, who’s worked on the Kepler project for nearly 20 years.

“Kepler is what made us become aware that planets are as common as telephone poles,” SETI Institute astronomer Seth Shostak told Space.com.” But the stars that Kepler was staring at for four years … they were all somewhere between 500 and 1,500 light-years away.” TESS will survey the local neighborhood for planets like Earth. [NASA’s TESS Exoplanet-Hunter in Pictures].

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Cancer can be triggered by different causes. Melanoma is usually induced by the sun, by dangerous ultraviolet light damage. In the majority of cases, UV damage leaves a unique mutational footprint behind and as a result unstoppable cell proliferation is induced.

UV damage gives rise to point mutations – changes in a single letter of the 3 billion letter human genome. These mutations can interfere with signals that tell cells when to grow and divide and when to stop. Mutations in a protein called BRAF, a major signaling regulator, cause growth signals to be stuck in the “on” position and drive cancer development.

Though scientists have managed to come up with drugs that target and turn off aberrant BRAF signaling, cancer cells are clever. They learn to adapt to these BRAF-inhibitors. Today, many patients respond to cancer treatment very positively at first. However, unfortunately many ultimately develop resistance and metastases.

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