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Jan 7, 2020

Microplastics Found in Human Gut for the First Time

Posted by in category: biotech/medical

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Jan 7, 2020

SpaceX Just Launched a Fleet of Starlink Satellites. Here’s How to Spot Them in the Sky

Posted by in categories: internet, satellites

X just launched its latest batch of Starlink internet satellites, and you might be able to spot the craft overhead if you know where to look.

Jan 7, 2020

Cancer-like metabolism makes brain grow

Posted by in categories: biotech/medical, evolution, genetics, neuroscience

The size of the human brain increased profoundly during evolution. A certain gene that is only found in humans triggers brain stem cells to form a larger pool of stem cells. As a consequence, more neurons can arise, which paves the way to a bigger brain. This brain size gene is called ARHGAP11B and so far, how it works was completely unknown. Researchers at the Max Planck Institute of Molecular Cell Biology and Genetics in Dresden now uncovered its mode of action. They show that the ARHGAP11B protein is located in the powerhouse of the cell—the mitochondria—and induces a metabolic pathway in the brain stem cells that is characteristic of cancer cells.

The research group of Wieland Huttner, a founding director of the Max Planck Institute of Molecular Cell Biology and Genetics, has been investigating the underlying the expansion of the brain during mammalian evolution for many years. In 2015, the group reported a key role for a gene that is only present in humans and in our closest extinct relatives, the Neanderthals and Denisovans. This gene, named ARHGAP11B, causes the so-called basal brain stem to expand in number and to eventually increase the production of neurons, leading to a bigger and more folded brain in the end. How the gene functions within the basal brain stem cells has been unknown so far.

Takashi Namba, a postdoctoral scientist in the research group of Wieland Huttner, wanted to find the answer to this question, together with colleagues from the Max Planck Institute, the University Hospital Carl Gustav Carus Dresden, and the Department of Medical Biochemistry at the Semmelweis University, Budapest. He found that the ARHGAP11B protein is located in mitochondria, the organelles that generate most of the cell’s source of chemical energy and hence are often referred to as the powerhouse of the cell. Takashi Namba explains the results: We found that ARHGAP11B interacts with a protein in the membrane of mitochondria that regulates a membrane pore. As a consequence of this interaction, the pores in the membrane are closing up, preventing calcium leakage from the mitochondria. The resulting higher calcium concentration causes the mitochondria to generate chemical energy by a metabolic pathway called glutaminolysis.

Jan 7, 2020

Samsung made a rolling robot called Ballie that runs your smart home

Posted by in categories: habitats, robotics/AI

The company sees robots as life companions in what it calls the Age of Experience.

Jan 7, 2020

Vladimir Putin: Russia has edge in new weapons

Posted by in categories: government, military, space

“Now we have a situation that is unique in modern history when they are trying to catch up to us,” he said. “Not a single country has hypersonic weapons, let alone hypersonic weapons of intercontinental range.”

The Pentagon and the U.S. military services have been working on the development of hypersonic weapons in recent years, and Defense Secretary Mark Esper said in August that he believes “it’s probably a matter of a couple of years” before the U.S. has one. He has called it a priority as the military works to develop new long-range fire capabilities.

The U.S. also has repeatedly warned Congress about hypersonic missiles being developed by Russia and China that will be harder to track and defeat. U.S. officials have talked about putting a layer of sensors in space to more quickly detect enemy missiles, particularly the more advanced hypersonic threats. The administration also plans to study the idea of basing interceptors in space, so the U.S. can strike incoming enemy missiles during the first minutes of flight when the booster engines are still burning.

Jan 7, 2020

‘Libya is ground zero’: drones on frontline in bloody civil war

Posted by in category: drones

Drone War


Civilian casualties are mounting as opposing sides deploy cheap Turkish and Chinese-made aircraft by , and .

Continue reading “‘Libya is ground zero’: drones on frontline in bloody civil war” »

Jan 7, 2020

The ‘Goldilocks’ principle for curing brain cancer

Posted by in categories: biotech/medical, neuroscience

In the story of Goldilocks, a little girl tastes three different bowls of porridge to find which is not too hot, not too cold, but just the right temperature. In a study published in Advanced Therapeutics, University of Minnesota Medical School researchers report on a “Goldilocks” balance which holds the key to awakening the body’s immune response to fight off brain cancer.

The most common form of adult is glioblastoma. Doctors diagnose about 14,000 glioblastoma cases in the U.S. each year. This aggressive cancer has claimed the lives of Senators John McCain and Edward Kennedy.

“Our body has armies of white blood cells that help us fight off bacteria, viruses and cancer cells. This constellation of cells constitute our immune system,” said senior author Clark C. Chen, MD, Ph.D., Lyle French Chair in Neurosurgery and Head of the Department of Neurosurgery at the University of Minnesota Medical School. “One of the key reasons why glioblastoma is so aggressive is that it shuts off this immune system.”

Jan 7, 2020

Digital Gold – New Legal Opportunities Emerging from Technology Innovation

Posted by in categories: automation, law, robotics/AI

What are new practice areas that solo, small, and medium firms should prepare for in their 5 to 10-year plans for the future?

In the search for the next wave of growth, future-focused law firms are learning to embrace the futurist perspective as they evaluate the opportunities arising from cutting-edge technologies such as artificial intelligence (AI). These technologies will enable new organizational structures, services, and business models in the business horizon. Here are three new practice areas that firms might want to prepare for in the coming few years.

1. Evidence and liability issues from autonomous machine “testimony”

A growing array of “smart” objects are enveloping our homes, workplaces, and communities and the volume of legally admissible data from these devices is likely grow at an exponential rate over the next decade. Firms need to start building expertise around the admissibility and verifiability of the data collected. For example, the design trend for voice-activated technology is driving a rash of seemingly sentient technology in the form of digital assistants, smart appliances, and personal medical and wearable devices. Law firms may be asked to represent clients in cases dealing with evidence, witnesses, accidents, or contracts hinging on theoretically immutable digital proof such as time-stamped video and audio recordings. Attorneys may seek to specialize in addressing the data issues related to domains such as digital twins and personas, surveillance capitalism (companies exploiting customer data for commercial gain with and without full approval), and digital privacy rights.

Continue reading “Digital Gold – New Legal Opportunities Emerging from Technology Innovation” »

Jan 7, 2020

Strange Dark Matter Findings Could Rewrite the Universe’s History

Posted by in category: cosmology

Scientists believe that mysterious dark matter is key to forming galaxies in the cosmos. Now, a recent series of bizarre findings threatens to undermine everything we think we know.

Jan 7, 2020

Using relativistic effects for laser fusion: A new approach for clean power

Posted by in category: nuclear energy

A team of researchers at Osaka University has investigated a new method for generating nuclear fusion power, showing that the relativistic effect of ultra-intense laser light improves upon current “fast ignition” methods in laser-fusion research to heat the fuel long enough to generate electrical power. These findings could provide a spark for laser fusion, ushering in a new era of carbonless energy production.

Current nuclear power uses the fission of heavy isotopes, such as uranium, into lighter elements to produce power. Yet, this fission power has major concerns, such as spent fuel disposal and the risk of meltdowns. A promising alternative to fission is . Like all stars, our sun is powered by the of light isotopes, notably hydrogen, into heavier elements. Fusion has many advantages over fission, including the lack of hazardous waste or risk of uncontrolled nuclear reactions.

However, getting more energy out of a fusion reaction than was put into it has remained an elusive goal. This is because hydrogen nuclei strongly repel each other, and fusion requires and pressure conditions—like those found in the interior of the sun, for instance—to squeeze them together. One method, called “inertial confinement” uses extremely high-energy laser pulses to heat and compress a fuel pellet before it gets the chance to be blown apart. Unfortunately, this technique requires extremely precise control of the laser’s energy so that the compression shock waves all arrive at the center simultaneously.