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Archive for the ‘evolution’ category: Page 31

Dec 2, 2023

Bacteria Living Inside Our Guts Have Mindblowing Effects On Us

Posted by in categories: biotech/medical, bitcoin, cryptocurrencies, evolution, neuroscience

Good telescope that I’ve used to learn the basics: https://amzn.to/35r1jAk.
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Hello and welcome! My name is Anton and in this video, we will talk about the incredible effects gut microbiome has on our body.
Links:
https://www.clarkson.edu/news/microbes-gut-might-affect-pers…s-research.
https://www.smithsonianmag.com/smart-news/fecal-transplants-…180978416/
https://www.nature.com/articles/s41586-021-03532-0
https://www.nature.com/articles/s43587-021-00093-9
https://en.wikipedia.org/wiki/Gut%E2%80%93brain_axis.
https://en.wikipedia.org/wiki/Gut_microbiota.
https://www.mdpi.com/2072-6643/14/3/466
#microbiome #gut #bacteria.

Continue reading “Bacteria Living Inside Our Guts Have Mindblowing Effects On Us” »

Dec 1, 2023

Molecular cooperation at the threshold of life

Posted by in categories: evolution, genetics

Protein-like aggregates known as amyloids can bind to molecules of genetic material. It is possible that these two types of molecules stabilized each other during the development of life—and that this might even have paved the way for the genetic code.

How organisms develop from inanimate matter is one of the biggest questions in science. Although many possible explanations have been proposed, there are no definitive answers. That’s no surprise: these processes took place 3 billion to 4 billion years ago, when the conditions on Earth were completely different from today.

“Over this vast period of time, evolution has thoroughly obliterated the traces that lead back to the origins of life,” says Roland Riek, professor of physical chemistry and associate director of ETH Zurich’s new interdisciplinary Center for Origin and Prevalence of Life. Science has no choice but to formulate hypotheses—and to substantiate them as thoroughly as possible with .

Nov 30, 2023

Could theropod dinosaurs have evolved to a human level of intelligence?

Posted by in categories: evolution, neuroscience

Noting that some theropod dinosaurs had large brains, large grasping hands, and likely binocular vision, paleontologist Dale Russell suggested that a branch of these dinosaurs might have evolved to a human intelligence level, had dinosaurs not become extinct. I offer reasons why the likely pallial organization in dinosaurs would have made this improbable, based on four assumptions. First, it is assumed that achieving human intelligence requires evolving an equivalent of the about 200 functionally specialized cortical areas characteristic of humans. Second, it is assumed that dinosaurs had an avian nuclear type of pallial organization, in contrast to the mammalian cortical organization. Third, it is assumed that the interactions between the different neuron types making up an information processing unit within pallium are critical to its role in analyzing information. Finally, it is assumed that increasing axonal length between the neuron sets carrying out this operation impairs its efficacy. Based on these assumptions, I present two main reasons why dinosaur pallium might have been unable to add the equivalent of 200 efficiently functioning cortical areas. First, a nuclear pattern of pallial organization would require increasing distances between the neuron groups corresponding to the separate layers of any given mammalian cortical area, as more sets of nuclei equivalent to a cortical area are interposed between the existing sets, increasing axon length and thereby impairing processing efficiency. Second, because of its nuclear organization, dinosaur pallium could not reduce axon length by folding to bring adjacent areas closer together, as occurs in cerebral cortex.

Keywords: avian brain; axonal length; connectivity; dinosaur evolution; humans; intelligence; troodon.

© 2023 The Authors. The Journal of Comparative Neurology published by Wiley Periodicals LLC.

Nov 30, 2023

Musical Planets: Unraveling the Orbital Waltz of HD110067

Posted by in categories: evolution, physics, space

A recent study published in Nature discusses the confirmation of an exoplanetary system based on data collected in 2020. The system, known as HD 110,067, possesses six planets whose orbits are in resonance with each other, or “in sync”, meaning which could offer profound insights into the formation and evolution of planetary systems throughout the cosmos. All the planets exhibit sizes between Earth and Neptune, also known as sub-Neptunes, and was conducted by an international team of researchers using data from NASA’s Transiting Exoplanet Survey Satellite (TESS) and the European Space Agency’s CHaracterising ExOPlanet Satellite (Cheops).

Artist illustration of the planets within the HD 110,067 system exhibiting orbital resonances with the colored lines depicting their resonances with each other. (Credit: CC BY-NC-SA, Thibaut Roger/NCCR PlanetS)

“This discovery is going to become a benchmark system to study how sub-Neptunes, the most common type of planets outside of the solar system, form, evolve, what are they made of, and if they possess the right conditions to support the existence of liquid water in their surfaces,” said Dr. Rafael Luque, who is a Postdoctoral Scholar in the Department of Astronomy and Astrophysics at the University of Chicago and lead author of the study.

Nov 30, 2023

‘Teenage Galaxies’ are Unusually Hot, Glowing with Unexpected Elements

Posted by in categories: chemistry, cosmology, evolution, physics

Similar to human teenagers, teenage galaxies are awkward, experience growth spurts and enjoy heavy metal — nickel, that is.

A Northwestern University-led team of astrophysicists has just analyzed the first results from the CECILIA (Chemical Evolution Constrained using Ionized Lines in Interstellar Aurorae) Survey, a program that uses NASA’s James Webb Space Telescope (JWST) to study the chemistry of distant galaxies.

According to the early results, so-called “teenage galaxies” — which formed two-to-three billion years after the Big Bang — are unusually hot and contain unexpected elements, like nickel, which are notoriously difficult to observe.

Nov 30, 2023

Scientists Map the Evolution of Our “Little Brain”

Posted by in categories: evolution, neuroscience

A collaborative team of scientists has explored and mapped the cellular landscape of the cerebellum, leading to new insights on the evolution of the human brain.

Nov 30, 2023

The Cerebellum’s Role in Human Cognitive Evolution

Posted by in categories: evolution, genetics, neuroscience

Summary: New research reveals the cerebellum’s significant role in the evolution of human cognitive functions. The study mapped the genetic development of cerebellar cells in humans, mice, and opossums, uncovering both ancestral and unique cellular characteristics.

Key findings include the increased proportion of specific Purkinje cells in humans, potentially linked to higher cognitive functions, and the identification of over 1,000 genes with varying activity profiles across species, some related to neurodevelopmental disorders.

Nov 29, 2023

ESA’s Cheops mission uncovers rare star system 100 light-years away

Posted by in categories: evolution, space

The European Space Agency (ESA) has a number of missions ongoing to discover and study exoplanets, which are planets outside of our solar system.

One of those missions, Cheops (CHaracterising ExOPlanet Satellite), has uncovered a rare star system that lies around 100 light-years away.

It’s an important find because it can tell us about the formation and evolution of the planetary system, according to ESA.

Nov 29, 2023

The New Quest to Control Evolution

Posted by in category: evolution

Modern scientists aren’t content with predicting how life evolves. They want to shape it.

Nov 29, 2023

From The Big Bang To The Present: The Evolution Of The Universe

Posted by in categories: cosmology, evolution, physics

Author: Sharika Dhakappa The Big Bang is the most widely accepted theory of how the universe originated. Most physicists believe that the tremendously large universe we observe today began as a tiny, dense point. If the evolution of the universe till today were to be depicted as a movie, the Big Bang would be the beginning of it. We do not yet know what came before the Big Bang or whether that is even a meaningful question to ask. The cosmic movie would run for 13.8 billion years which is the current age of the universe as estimated by the WMAP satellite.

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