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Archive for the ‘biological’ category: Page 180

Oct 22, 2018

Dr. David Sinclair AMA at Reddit Futurology

Posted by in categories: biological, life extension

In support of the NAD+ Mouse Project over at Lifespan.io, Dr. David Sinclair will be doing an AMA on Reddit Futurology Tuesday, October 23, 2018 from 11:00 – 12:00 AM EDT. Dr. Sinclair will be answering questions from the community about his work with NAD+ biology, Sirtuins, and why the NAD+ Mouse Project is important for aging research. To ask your question please visit the AMA thread on Reddit Futurology here.

For those not familiar with NAD+ biology we did the NAD+ World series recently which explores this area of the biology of aging. We also took a look at why NAD+ appears to decline as we age and what is one of the most likely reasons for this.

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Oct 21, 2018

Silicon Valley’s Newest Venture Is The Search For Immortality

Posted by in categories: biological, engineering, life extension

The Silicon Valley mindset combines biology and engineering: The body is a machine to be hacked and improved.


Futurists at some of the biggest tech firms want to reshape the way we think about death.

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Oct 16, 2018

Bioquark Inc. — Real Bodies — Ms. Chiara Bordi — HealthQe — QantiQa — Ira Pastor

Posted by in categories: aging, biological, biotech/medical, cryonics, DNA, futurism, genetics, health, science, transhumanism

Exciting visitor at the Real Bodies (https://www.realbodies.it/) exhibit!

The lovely Ms. Chiara Bordi (https://www.facebook.com/Chiara-Bordi-474572166390000/), Miss Italia 3rd place runner up (aka the “Bionic Beauty”) stopping by to visit our associates at HealthQE (www.healthqe.cloud), and QantiQa (https://www.qantiqa.com/), to test out their new Musyke device

Bio-mechanics and Bio-acoustics

Two critical components in the regeneration, repair, and rejuvenation equation, and part of the integrated age-reversal paradigm of Embrykinesis at Bioquark Inc.- (www.bioquark.com)

Oct 16, 2018

MIT Knows That AI Is The Future

Posted by in categories: biological, chemistry, robotics/AI

MIT has launched the Stephen A. Schwarzman College of Computing, a $1 billion center dedicated to “reshaping its academic program” around AI. The idea, said MIT president L. Rafael Reif, is to use AI, machine learning and data science with other academic disciplines to “educate the bilinguals of the future,” defining bilingual as those working in biology, chemistry, politics, history and linguistics with computing skills that can be used in their field.

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Oct 12, 2018

World’s fastest camera freezes time at 10 trillion frames per second

Posted by in categories: biological, physics

What happens when a new technology is so precise that it operates on a scale beyond our characterization capabilities? For example, the lasers used at INRS produce ultrashort pulses in the femtosecond range (10-15 s), which is far too short to visualize. Although some measurements are possible, nothing beats a clear image, says INRS professor and ultrafast imaging specialist Jinyang Liang. He and his colleagues, led by Caltech’s Lihong Wang, have developed what they call T-CUP: the world’s fastest camera, capable of capturing 10 trillion (1013) frames per second (Fig. 1). This new camera literally makes it possible to freeze time to see phenomena—and even light—in extremely slow motion.

In recent years, the junction between innovations in non-linear optics and imaging has opened the door for new and highly efficient methods for microscopic analysis of dynamic phenomena in biology and physics. But harnessing the potential of these methods requires a way to record in at a very short temporal resolution—in a single exposure.

Using current imaging techniques, measurements taken with must be repeated many times, which is appropriate for some types of inert samples, but impossible for other more fragile ones. For example, laser-engraved glass can tolerate only a single laser pulse, leaving less than a picosecond to capture the results. In such a case, the imaging technique must be able to capture the entire process in real time.

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Oct 10, 2018

Scientists Just Created Quantum Artificial Life For The First Time Ever

Posted by in categories: biological, information science, quantum physics, supercomputing

Can the origin of life be explained with quantum mechanics? And if so, are there quantum algorithms that could encode life itself?

We’re a little closer to finding out the answers to those big questions thanks to new research carried out with an IBM supercomputer.

Encoding behaviours related to self-replication, mutation, interaction between individuals, and (inevitably) death, a newly created quantum algorithm has been used to show that quantum computers can indeed mimic some of the patterns of biology in the real world.

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Oct 7, 2018

On the Nature of Causality in Complex Systems, George F.R. Ellis

Posted by in categories: biological, cosmology, mathematics

https://www.youtube.com/watch?v=n4YtQ-N_t84

When listening to world science festival’s latest episode on youtube, Pondering the Imponderables: The Biggest Questions of Cosmology, I found myself to be most in line with George F.R. Ellis’ line of thinking overall.


Big Bang cosmology, chemical and biological evolutionary theory, and associated sciences have been extraordinarily successful in revealing and enabling us to understand the development of the.

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Oct 4, 2018

New fuel cell concept brings biological design to better electricity generation

Posted by in categories: biological, materials

Fuel cells have long been viewed as a promising power source. These devices, invented in the 1830s, generate electricity directly from chemicals, such as hydrogen and oxygen, and produce only water vapor as emissions. But most fuel cells are too expensive, inefficient, or both.

In a new approach, inspired by biology and published today (Oct. 3, 2018) in the journal Joule, a University of Wisconsin-Madison team has designed a fuel cell using cheaper materials and an organic compound that shuttles electrons and protons.

In a traditional fuel cell, the electrons and protons from hydrogen are transported from one electrode to another, where they combine with oxygen to produce water. This process converts chemical energy into electricity. To generate a meaningful amount of charge in a short enough amount of time, a catalyst is needed to accelerate the reactions.

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Oct 4, 2018

Artificial enzymes convert solar energy into hydrogen gas

Posted by in categories: bioengineering, biological, chemistry, genetics, solar power, sustainability

In a new scientific article, researchers at Uppsala University describe how, using a completely new method, they have synthesised an artificial enzyme that functions in the metabolism of living cells. These enzymes can utilize the cell’s own energy, and thereby enable hydrogen gas to be produced from solar energy.

Hydrogen gas has long been noted as a promising carrier, but its production is still dependent on fossil raw materials. Renewable gas can be extracted from water, but as yet the systems for doing so have limitations.

In the new article, published in the journal Energy and Environmental Science, an interdisciplinary European research group led by Uppsala University scientists describe how convert into hydrogen gas. This entirely new method has been developed at the University in the past few years. The technique is based on photosynthetic microorganisms with genetically inserted enzymes that are combined with synthetic compounds produced in the laboratory. Synthetic biology has been combined with synthetic chemistry to design and create custom artificial enzymes inside living organisms.

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Oct 4, 2018

Fluorescent molecule could shed light on the inner workings of the cellular environment

Posted by in categories: biological, genetics

A fluorescent molecule whose luminosity depends upon how fast it can rotate is helping researchers measure how viscous the fluid is inside different parts of a cell.

“There’s a lot of interest in the biophysical field in developing that can be used to characterize the environment inside a cell or any kind of biological compartment,” says Peter Bond, from A*STAR’s Bioinformatics Institute.

Researchers from the United Kingdom and Singapore—including A*STAR scientists such as Bond’s team who led the computational arm of the project—have modeled, developed and tested a molecule comprising two parts; a genetic probe designed to home in on particular proteins, so it can be directed to wherever in a cell that is found; and a molecular rotor—a fluorescent molecule whose fluorescence lasts longer, the slower it spins. A*STAR researchers simulated how this molecule would perform in different microenvironments at scales of millionths or even billionths of a meter.

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