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Jun 18, 2019

Interview with Prof. Morgan Levine

Posted by in categories: biological, genetics, life extension

Tam Hunt interviews Prof. Morgan Levine about her work with epigenetics and aging.


One of the biggest breakthroughs in biology in the last few decades has been the discovery of epigenetics. Rather than changing the genes themselves, epigenetics change how genes are expressed, allowing our cells to differentiate between their various types.

However, the epigenetics of our cells change over time. There is some debate over how much epigenetic alterations are a cause or a consequence of other age-related damage, but they are one of the primary hallmarks of aging.

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Jun 18, 2019

Rules of brain architecture revealed in large study of neuron shape and electrophysiology

Posted by in categories: biotech/medical, chemistry, neuroscience

To understand our brains, scientists need to know their components. This theme underlies a growing effort in neuroscience to define the different building blocks of the brain—its cells.

With the mouse’s 80 million and our 86 billion, sorting through those delicate, microscopic building blocks is no small feat. A new study from the Allen Institute for Brain Science, which was published today in the journal Nature Neuroscience, describes a large profile of mouse neuron types based on two important characteristics of the : their 3D shape and their electrical behavior.

The study, which yielded the largest dataset of its kind from the adult laboratory mouse to date, is part of a larger effort at the Allen Institute to discover the ’s “periodic table” through large-scale explorations of brain . The researchers hope a better understanding of cell types in a healthy mammalian brain will lay the foundation for uncovering the cell types that underlie human brain disorders and diseases.

Jun 18, 2019

Dark centers of chromosomes reveal ancient DNA

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

Geneticists exploring the dark heart of the human genome have discovered big chunks of Neanderthal and other ancient DNA. The results open new ways to study both how chromosomes behave during cell division and how they have changed during human evolution.

Centromeres sit in the middle of chromosomes, the pinched-in “waist” in the image of a chromosome from a biology textbook. The centromere anchors the fibers that pull chromosomes apart when cells divide, which means they are really important for understanding what happens when goes wrong, leading to cancer or genetic defects.

But the DNA of centromeres contains lots of repeating sequences, and scientists have been unable to properly map this region.

Jun 18, 2019

Study sheds light on gauge invariance in ultrastrong-coupling cavity quantum electrodynamics

Posted by in categories: mathematics, quantum physics

In quantum electrodynamics, the choice of gauge (i.e. specific mathematical formalism used to regulate degrees of freedom) can greatly influence the form of light-matter interactions. Interestingly, however, the “gauge invariance” principle implies that all physical results should be independent from a researcher’s choice of gauge. The quantum Rabi model, which is often used to describe light-matter interactions in cavity-QED, has been found to violate this principle in the presence of ultrastrong light-matter coupling, and past studies have attributed this failure to the finite-level truncation of the matter system.

A team of researchers at RIKEN (Japan), Università di Messina (Italy) and the University of Michigan (U.S.) have recently carried out a study investigating this topic further. In their paper, published in Nature Physics, they identified the source of this gauge violation and provided a method to derive light-matter Hamiltonians in truncated Hilbert spaces, which can produce gauge-invariant physical results even in extreme light-matter interaction regimes.

“Ultrastrong coupling between light and matter has, in the past decade, transitioned from a theoretical idea to an experimental reality,” Salvatore Savasta, one of the researchers who carried out the study, told Phys.org. “It is a new regime of light-matter interaction, which goes beyond weak and strong coupling to make the coupling strength comparable to the transition frequencies in the system. These regimes, besides enabling intriguing new physical effects, as well as many , represents an opportunity to deepen our understanding subtle aspects of the interaction of light and matter.”

Jun 18, 2019

Reduced adhesion between tissues could create microscopic tumours

Posted by in category: evolution

Mechanics study boosts our understanding tumour evolution.

Jun 18, 2019

‘Double-slit’ quantum experiment shows strangeness of quantum uncertainty

Posted by in categories: particle physics, quantum physics

This theory combines wave and particle aspects in quantum mechanics be postulating that the motion of a particle is choreographed by the wave function.

By reconstructing the Bohmian trajectories of single photons, the team experimentally obtained the distribution of velocity change.

“In the experiment, the velocity disturbance happens gradually, up to five metres away from where the which-slit measurement was performed,” Prof Wiseman said.

Jun 18, 2019

Rotavirus vaccines may lower kids’ chances of getting type 1 diabetes

Posted by in category: biotech/medical

Vaccination against rotavirus is associated with a reduced incidence of type 1 diabetes in children, according to an analysis of U.S. insurance data.

Jun 18, 2019

One of Earth’s First Cities Suffered the Same Issues Metropolises Face Today

Posted by in categories: biotech/medical, food, health

“I am committed to the notion that the past predicts the present,” Larsen tells Inverse, “and we need to understand that past to understand the world we live in now.”

Larsen has had a longstanding interest in the health and lifestyle of early farmers — those who were working around the Neolithic transition from hunting and gathering to farming. So when Ian Hodder, Ph.D., an archeologist who leads the Çatalhöyük Research Project, invited him to join the project in 2004, he quickly accepted the opportunity.

This new study is based on 25 years of findings linked to the human remains found in Çatalhöyük. Dating of remains shows that the population there grew to its peak in the period from 6,700 to 6,500 B.C. and then declined rapidly. That decline is likely linked to the evidence of disease and malnutrition Larsen and colleagues found in the remains.

Jun 18, 2019

The Future of Pensions – Article

Posted by in categories: biotech/medical, geopolitics, life extension, policy, transhumanism

Editor’s Note: The U.S. Transhumanist Party features this article by Nicola Bagalà and Michael Nuschke of the Life Extension Advocacy Foundation (LEAF), originally published on the LEAF site on May 15th, 2019. The article brings attention to and responds to concerns related to the impacts of increased longevity on pension systems, a possible result of our mission of ending age-related diseases, which the U.S. Transhumanist Party supports as part of our policy goals.

~ Brent Reitze, Director of Publication, United States Transhumanist Party, June 15th, 2019

If you work in social security, it’s possible that your nightmares are full of undying elderly people who keep knocking on your door for pensions that you have no way of paying out. Tossing and turning in your bed, you beg for mercy, explaining that there’s just too many old people who need pensions and not enough young people who could cover for it with their contributions; the money’s just not there to sustain a social security system that, when it was conceived in the mid-1930s, didn’t expect that many people would ever make it into their 80s and 90s. Your oneiric persecutors won’t listen: they gave the country the best years of their lives, and now it’s time for the country to pay them their due.

Jun 18, 2019

Cause of hardening of the arteries—and potential treatment—identified

Posted by in categories: biotech/medical, neuroscience

A team of UK scientists have identified the mechanism behind hardening of the arteries, and shown in animal studies that a generic medication normally used to treat acne could be an effective treatment for the condition.

The team, led by the University of Cambridge and King’s College London, found that a molecule once thought only to exist inside cells for the purpose of repairing DNA is also responsible for hardening of the arteries, which is associated with dementia, , and stroke.

There is no current treatment for hardening of the arteries, which is caused by build-up of bone-like calcium deposits, stiffening the arteries and restricting to organs and tissues.