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Archive for the ‘evolution’ category: Page 117

Aug 9, 2019

Ultracold quantum particles break classical symmetry

Posted by in categories: evolution, particle physics, quantum physics

Many phenomena of the natural world evidence symmetries in their dynamic evolution which help researchers to better understand a system’s inner mechanism. In quantum physics, however, these symmetries are not always achieved. In laboratory experiments with ultracold lithium atoms, researchers from the Center for Quantum Dynamics at Heidelberg University have proven for the first time the theoretically predicted deviation from classical symmetry. Their results were published in the journal Science.

“In the world of classical , the energy of an ideal gas rises proportionally with the pressure applied. This is a direct consequence of scale symmetry, and the same relation is true in every scale invariant system. In the world of quantum mechanics, however, the interactions between the quantum particles can become so strong that this classical scale symmetry no longer applies,” explains Associate Professor Dr. Tilman Enss from the Institute for Theoretical Physics. His research group collaborated with Professor Dr. Selim Jochim’s group at the Institute for Physics.

In their experiments, the researchers studied the behaviour of an ultracold, superfluid gas of lithium atoms. When the gas is moved out of its equilibrium state, it starts to repeatedly expand and contract in a “breathing” motion. Unlike classical particles, these can bind into pairs and, as a result, the superfluid becomes stiffer the more it is compressed. The group headed by primary authors Dr. Puneet Murthy and Dr. Nicolo Defenu—colleagues of Prof. Jochim and Dr. Enss—observed this deviation from classical scale symmetry and thereby directly verified the quantum nature of this system. The researchers report that this effect gives a better insight into the behaviour of systems with similar properties such as graphene or superconductors, which have no electrical resistance when they are cooled below a certain critical temperature.

Aug 7, 2019

Japan approves experiments splicing human DNA with animal embryos

Posted by in categories: biotech/medical, evolution, government

https://youtube.com/watch?v=D9Y30AMcg6s

It seems like the next step in human evolution (or animal evolution depending on where you’re standing) will be man-made. According to a recent report by Nature, Japan’s government has just approved experiments that will splice human cells into animal embryos, and then implant said embryos into surrogate animals, in an effort to grow human-congruent organs that can be used for transplant purposes.

Heading the experiments at the University of Tokyo is Hiromitsu Nakauchi, who plans to nurture human cells in rat and mouse embryos before moving the developing fetus to yet another animal for gestation. The hope is that the embryo will develop into an animal with human cells, meaning that the organs inside the newly-grown beast could then be surgically placed inside sick individuals that need new hearts, livers, pancreases — you name it.

Aug 6, 2019

The evolution of Emotet: How to protect your network

Posted by in categories: cybercrime/malcode, evolution, finance

With over 350,000 new malware samples emerging every day, it’s difficult for any one strain of malware to make a name for itself. Any single malware sample whose name you know — be it Mirai, WannaCry, or NotPetya — speaks to a trail of devastation.

In 2019, people are also hearing another name: Emotet.

But Emotet has been around in one form or another since 2014, and its first major resurgence was in 2017. In the beginning, Emotet was just one trojan among many — a particularly run-of-the-mill banking trojan that did some damage before being researched, understood, and dismissed in a flurry of signature updates.

Jul 30, 2019

Scientists Find One Billion Year Old Fungi, Earth’s Oldest

Posted by in category: evolution

Scientists recently found one billion-year-old fungi in Canada, changing the way we view evolution and the timing of plants and animals here on Earth.

The fossilized specimen was collected in Canada’s Arctic by an international team and later identified to be the oldest fungi ever found, sitting somewhere between 900 million and 1 billion years old. The research, published recently in Nature, changes how we view eukaryotes colonizing the land.

The fossilized fungi were analyzed and researchers found the presence of chitin, a unique substance that is found on the cell walls of fungi. The specimen was then age dated using precise measurements of radioactive isotope ratios within the sample.

Jul 30, 2019

The journal club hosted by Dr. Oliver Medvedik returns for July and takes a look at the new SIRT6 evolutionary biology paper by Dr. Vera Gorbunova and collaborators

Posted by in categories: biotech/medical, evolution, life extension

The journal club hosted by Dr. Oliver Medvedik returns for July and takes a look at the new SIRT6 evolutionary biology paper by Dr. Vera Gorbunova and collaborators, showing a relationship between enhanced SIRT6 function and longevity.


Abstract DNA repair has been hypothesized to be a longevity determinant, but the evidence for it is based largely on accelerated aging phenotypes of DNA repair mutants. Here, using a panel of 18 rodent species with diverse lifespans, we show that more robust DNA double-strand break (DSB) repair, but not nucleotide excision repair (NER), coevolves with longevity. Evolution of NER, unlike DSB, is shaped primarily by sunlight exposure. We further show that the capacity of the SIRT6 protein to promote DSB repair accounts for a major part of the variation in DSB repair efficacy between short- and long-lived species. We dissected the molecular differences between a weak (mouse) and a strong (beaver) SIRT6 protein and identified five amino acid residues that are fully responsible for their differential activities. Our findings demonstrate that DSB repair and SIRT6 have been optimized during the evolution of longevity, which provides new targets for anti-aging interventions.

Literature

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Jul 29, 2019

Watch my “7 Signs of Longevity Revolution” keynote at Barclays

Posted by in categories: evolution, life extension

Longevity investor and visionary Sergey Young, founder of Longevity Vision Fund and Innovation Board Member of XPRIZE Foundation, delivers “7 Signs of Longevity Revolution” keynote at Barclay’s recent “Accelerating Evolution” conference, discussing recent developments in the longevity industry.

Watch to find out the forecasts for the industry’s trajectory of growth in the coming years, the increasing emergence of practical, real-world applications in the longevity sphere and how Longevity Vision Fund striving to be on the very forefront of the ongoing Longevity Revolution that is already happening around us today.

#longevity #lvf #longevityvisionfund #lifeextension #longevityrevolution #sergeyyoung #barclays

Jul 17, 2019

Bottomonium particles don’t go with the flow

Posted by in categories: cosmology, evolution, particle physics

A few millionths of a second after the Big Bang, the universe was so dense and hot that the quarks and gluons that make up protons, neutrons and other hadrons existed freely in what is known as the quark–gluon plasma. The ALICE experiment at the Large Hadron Collider (LHC) can recreate this plasma in high-energy collisions of beams of heavy ions of lead. However, ALICE, as well as any other collision experiments that can recreate the plasma, cannot observe this state of matter directly. The presence and properties of the plasma can only be deduced from the signatures it leaves on the particles that are produced in the collisions.

In a new article, presented at the ongoing European Physical Society conference on High-Energy Physics, the ALICE collaboration reports the first measurement of one such signature—the elliptic flow—for upsilon produced in lead–lead LHC collisions.

The upsilon is a bottomonium particle, consisting of a bottom (often also called beauty) quark and its antiquark. Bottomonia and their charm-quark counterparts, charmonium particles, are excellent probes of the quark–gluon . They are created in the initial stages of a heavy-ion collision and therefore experience the entire evolution of the plasma, from the moment it is produced to the moment it cools down and gives way to a state in which hadrons can form.

Jul 17, 2019

Interspecies Hybrids Play a Vital Role in Evolution

Posted by in categories: biological, evolution

Hybrids, once treated as biological misfits, have been the secret saviors of many animal species in trouble. Reconciling that truth with conservation policies poses a challenge for science.

Jul 14, 2019

Russia Launches Telescope Into Space To Map The Cosmos In ‘Outstanding’ Detail

Posted by in categories: cosmology, evolution

It would be the first-ever map of the universe in high-energy X-rays, Nature magazine noted.

Such a map “will be essential to solve the core questions of modern cosmology,” Roscosmos said in a press release. “How do dark energy and dark matter affect formation of the large-scale structure of the Universe? What is [the] cosmological evolution of supermassive black holes?”

The agency added that the telescope, which has reportedly taken decades to develop, is expected to find about “100,000 massive clusters of galaxies” and millions of supermassive black holes ― many of them new to science ― over a four-year survey period.

Jul 9, 2019

Fast new directed evolution technique makes viruses create drug proteins in days

Posted by in categories: biotech/medical, evolution

Evolution is one of nature’s most impressive forces, allowing organisms to adapt to changing environments to survive. By harnessing and guiding that process scientists have managed to manipulate micro-organisms into producing useful new drugs and materials, but it’s still a time-consuming process. Now, researchers at the University of North Carolina (UNC) have developed a new tool that speeds up the process in mammalian cells, creating new therapeutics in a matter of days.