Posted in biotech/medical, life extension | Leave a Comment on Whenever the topic of increasing human lifespan is discussed the concern is sometimes raised that a longer life would mean a life spent frail and decrepit
Whenever the topic of increasing human lifespan is discussed the concern is sometimes raised that a longer life would mean a life spent frail and decrepit. This is sometimes known as the Tithonus error and shows a fundamental misunderstanding of the aims of rejuvenation biotechnology. The concern is based on the ancient Greek myth of Tithonus which might be thought of as a cautionary tale warning seekers of an eternal life of its alleged inherent dangers.
This is the second part of our ongoing series of articles that discuss the Hallmarks of Aging. Published in 2013, the paper divides aging into a number of distinct categories (“hallmarks”) of damage to explain how the aging process works and how it causes age-related diseases[1].
Today, we will be looking at one of the primary hallmarks, epigenetic alterations.
One of the secrets to making tiny laser devices such as opthalmic surgery scalpels work even more efficiently is the use of tiny semiconductor particles, called quantum dots. In new research at Los Alamos National Laboratory’s Nanotech Team, the ~nanometer-sized dots are being doctored, or “doped,” with additional electrons, a treatment that nudges the dots ever closer to producing the desired laser light with less stimulation and energy loss.
“When we properly tailor the compositional profile within the particles during their fabrication, and then inject two or more electrons in each dot, they become more able to emit laser light. Importantly, they require considerably less power to initiate the lasing action,” said Victor Klimov, leader of the Nanotech team.
In order to force a material to emit laser light one has to work toward a “population inversion,” that is, making the number of electrons in a higher-energy electronic state exceed the number that are in a lower-energy state. To achieve this condition normally, one applies an external stimulus (optical or electrical) of a certain power, which should exceed a critical value termed the “optical-gain threshold.” In a recent paradigm-changing advance, Los Alamos researchers demonstrated that by adding extra electrons into their specially designed quantum dots, they can reduce this threshold to virtually zero.
The topic of the gut microbiota is increasingly in the news of late, and its connection with chronic age-related inflammation, known as inflammaging, is becoming increasingly clear.
What is the microbiota?
The microbiota describes the community of symbiotic and pathogenic microorganisms that live in and on all multicellular organisms, and it includes bacteria, archaea, protists, fungi, and viruses. In particular, the gut microbiota and its role in aging and disease have increasingly become of interest to researchers in recent years.
There’s a difference between editing genes in a person’s somatic cells and germline cells.
Editing somatic cells, which are differentiated (e.g., skin cells) and non-reproductive, impacts them alone. In contrast, editing germline DNA means changes are passed along to the next generation during reproduction. It’s no minor distinction.
Right now, the cautious consensus around gene editing in the US and parts of Europe is that it is okay to do therapeutic gene editing in a patient’s somatic DNA, meaning DNA that only exists in that individual and does not get passed on. But some believe the cautious consensus may be too cautious.
In his new book, The Four: The Hidden DNA of Amazon, Apple, Facebook and Google, Galloway, an entrepreneur and professor at NYU Stern, provides a perceptive analysis of the four-horse race to become the first trillion-dollar company. In a casually incisive style, he uncovers how each of these companies have deployed iconic leadership, technology, storytelling, fearless innovation, lightning execution — and blatant plagiarism- to devastating effect.
From 2013 to 2017, the combined market capitalisation of Apple, Amazon, Facebook and Google increased in size by the GDP of Russia – $1.4 trillion. And the power of The Four keeps on growing.
Military applications of gene-altering technology must also be considered (Op-Ed by Tomasz Pierscionek)
Recent developments in the field of biotechnology have shown that mutations can be edited out of the human genome. What are the future implications of this research and will it be used to the benefit or detriment of society?
Last month, UK scientists performed gene-editing experiments for the first time in order to gain a greater understanding of how embryos develop, and it is likely researchers in other countries will soon follow suit.
UK law permits experiments to be performed on embryos that are no more than 14 days old and prohibits their implantation into a human host.
https://youtube.com/watch?v=o6A9bbDI6fo
The first attempt at human CRISPR gene editing did not occur in a hospital or University or in a clinical trial by some $100 million funded company. Instead, it happened in small cramped room in San Francisco in front of 30 or so people who squeezed in to listen to a talk about how biohackers are making genetic and cellular modification accessible.
Two-thirds of Americans support therapeutic use, but regulators are still stuck in the 1970s.
Should Americans be allowed to edit their DNA to prevent genetic diseases in their children? That question, which once might have sounded like science fiction, is stirring debate as breakthroughs bring the idea closer to reality. Bioethicists and activists, worried about falling down the slippery slope to genetically modified Olympic athletes, are calling for more regulation.
