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Ubiquitous, mobile supercomputing. Artificially-intelligent robots. Self-driving cars. Neuro-technological brain enhancements. Genetic editing. The evidence of dramatic change is all around us and it’s happening at exponential speed.

Previous industrial revolutions liberated humankind from animal power, made mass production possible and brought digital capabilities to billions of people. This Fourth Industrial Revolution is, however, fundamentally different. It is characterized by a range of new technologies that are fusing the physical, digital and biological worlds, impacting all disciplines, economies and industries, and even challenging ideas about what it means to be human.

http://www.weforum.org/

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Top 10 episodes from popular television shows that predicted things that happened years in the future.

Screenrant: Hidden R Rated Easter Eggs In Disney Movies https://www.youtube.com/watch?v=dbMsxzbiYJw

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Have you ever experienced an event and sworn you’ve seen it somewhere before. A sense of déjà vu that you’ve heard that story before. And then it hits you; that happened on a TV show! Over the years, some TV shows have had a remarkable ability to make it appear as though they are clairvoyant. Astonishing similarities of events witnessed years later pop up periodically.

Continue reading “10 TV Shows That Predicted The Future” | >

Interesting.

Futurists are accustomed to launching headfirst into some very complex subjects, but even the most high-minded and enthusiastic of prognosticators may take a pass when it comes to dealing with the future of sleep.

That’s no cop out.

It’s just that we humans — those in the developed world at least — maintain such a complicated relationship with sleep.

Continue reading “We talked to futurists about what sleep will be like in 2030” | >

Awesome.

Researchers have developed a new gene editing tool that is more efficient and easier to use. CRISPR-EZ addresses the issue of target RNA accuracy and embryo viability in IVF transgenic mice.

( andrew modzelewski/lin he | university of california berkeley )

CRISPR gene editing has been the subject of many researchers around the world because of its great potential in the study human genetic disease. But more than that, scientists have high regard for this tool because it can help cure complex and debilitating diseases like dementia and cancer.

Continue reading “More Efficient CRISPR Gene Editing May Potentially Help Cure Diseases” | >

With 3D printers (like the one in India) printing buildings while leveraging AI technology we could see the building of complexes in space v. needing an inflatable room.

NASA on Saturday successfully expanded and pressurized an add-on room at the International Space Station two days after aborting the first attempt when it ran into problems.

The flexible habitat, known as the Bigelow Expandable Activity Module (BEAM), completed slowly extending 67 inches (170 centimeters) at 4:10 pm (2010 GMT) following more than seven hours during which astronaut Jeff Williams released short blasts of air into the pod’s walls from the orbiting lab using a manual valve.

After the expansion was completed, he opened eight air tanks inside BEAM, pressurizing the pod to a level close to the space station’s 14.7 pounds per square inch.

Continue reading “NASA inflates spare room in space” | >

When nerve cells have to communicate with each other in our brains, it involves release of neurotransmitters acting as messengers at neural synapses. Here the released neurotransmitter is bound and registered by receptors at the surface of the receiving nerve cell. This will, in turn, trigger a signal which is sent on to other nerve cells. The circuits in the brain using the neurotransmitters noradrenaline, dopamine, GABA and serotonin are known to play an important role in mood, reward and mental well-being, and they also have a key role to in mental disorders such as addiction and depression.

See Also: Obesity is associated with brain’s neurotransmitters

After release of neurotransmitters between nerve cells, they must, however, be removed again to end the signal. This is done by a family of transport proteins which function as molecular vacuum cleaners in the cell membrane of the nerve cell where they pump the neurotransmitter back into the nerve cell for later reuse. This transport is of great importance to the signaling between the nerve cells, but happens relatively slowly. A collaborative project between researchers from Aarhus University has made it possible to explain what happens in the crucial rate-limiting step in the transport process for neurotransmitters such as serotonin, noradrenaline, GABA and dopamine which are all transported by related proteins with the same mechanism.

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