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Archive for the ‘biotech/medical’ category: Page 2529

Nov 26, 2016

The Membranes Covering The Brain Are Loaded With Neuronal Stem Cells

Posted by in categories: biotech/medical, neuroscience

For many years, scientists believed that our brains were unable to produce new neurons once we had been born, and that we all had to make do with the brain cells we started life with. Later, it became clear that new brain cells are in fact created in some key brain regions, replacing those that become damaged and protecting us from dementia. Now, researchers have discovered that the stem cells giving rise to these neurons originate in the membranes encasing the brain, known as the meninges.

Publishing their findings in the journal Cell Stem Cell, the authors claim that their discovery of this source of stem cells could one day lead to new treatments for brain damage or neurodegenerative disorders.

Most neurogenesis in the adult brain occurs in a region called the hippocampus, where the creation of new brain cells ensures our memories remain in working order as we age. The meninges penetrate the brain at every level, encapsulating a number of different regions, including the hippocampus.

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Nov 26, 2016

Human cells with ‘built-in circuit’ can kill cancer cells

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

I have been evangelizing this for a while and glad to see others chiming in.


London, Nov 26 (IANS) Researchers have engineered cells with a “built-in genetic circuit” that produces a molecule that impairs the ability of cancer cells to survive and grow in their low oxygen environment.

The genetic circuit produces the machinery necessary for the production of a compound that inhibits a protein which has a significant and critical role in the growth and survival of tumours.

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Nov 26, 2016

New Technique Can Potentially Help Slow And Reverse An Important Cause Of Aging

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

Led by Nikolay Kandul, senior postdoctoral scholar in biology and biological engineering in the laboratory of Professor of Biology Bruce Hay, the team developed a technique to remove mutated DNA from mitochondria, the small organelles that produce most of the chemical energy within a cell. A paper describing the research appears in the November 14 issue of Nature Communications. There are hundreds to thousands of mitochondria per cell, each of which carries its own small circular DNA genome, called mtDNA, the products of which are required for energy production. Because mtDNA has limited repair abilities, normal and mutant versions of mtDNA are often found in the same cell, a condition known as heteroplasmy.

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Nov 26, 2016

Researchers put mouse embryos in suspended animation

Posted by in categories: biotech/medical, life extension

Hitting the pause button on development in embryos has implications for understanding aging.


UC San Francisco researchers have found a way to pause the development of early mouse embryos for up to a month in the lab, a finding with potential implications for assisted reproduction, regenerative medicine, aging, and even cancer, the authors say.

The new study—published online November 23, 2016 in Nature —involved experiments with pre-implantation mouse embryos, called blastocysts. The researchers found that drugs that inhibit the activity a master regulator of called mTOR can put these early embryos into a stable and reversible state of suspended animation.

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Nov 26, 2016

Scientists to ‘reset’ blood proteins in attempt to slow ageing process

Posted by in categories: biotech/medical, life extension

Progress towards making a blood scrubber to calibrate the pro aging factors in blood. Irina Conboy has spent the last 20 years working on parabiosis and signalling factors in blood and this is yet another step forward for their research.

Whilst many are seeking the secret sauce in young blood the data suggests it is much more likely the case that old blood contains too many pro-aging factors eg, TGF-beta, TNF-a, IL-6, CD38 etc… The aim is now to filter old blood and calibrate such factors in order to promote a pro-youthful signalling environment. If only this device was small enough to wear or implant.


In what could be a fresh chapter in the never-ending story of the search for eternal youth, scientists are to tinker with people’s blood in the hope of slowing down the ageing process and preventing age-related diseases.

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Nov 25, 2016

The ingenious ONUSblue alcohol and drug detection patch

Posted by in categories: biotech/medical, law

The ONUSblue alcohol detection patch tells you when you’ve reached the legal threshold and has the potential to save millions of lives. The company’s product roadmap is even more interesting with the detection of marijuana, methamphetime and a range of illegal recreational substances to follow.

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Nov 25, 2016

SynBio is gearing up

Posted by in categories: bioengineering, biotech/medical, economics, internet

We’re only starting in this space.


Synthetic Biology (SynBio) includes a large field of applications. Within this area biochemists combine engineering concepts and techniques with biology to design new genes that produce a specific protein. When this protein is an enzyme, bacteria and yeast in which such a gene is implanted can produce specific chemicals through a fermentation process. A large and growing number of businesses is active in this field. This became apparent once again at the EFIB-conference in Glasgow, last October. The workshop was chaired by John Cumbers, founder of the American SynBioBeta, an internet-site dedicated to sharing information and news on synthetic biology.

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Nov 25, 2016

New Plant Synbio Tool Breaks With Tradition

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

JBEI researchers develop efficient and affordable method for plant DNA assembly.

Researchers at the U.S. Department of Energy (DOE)’s Joint BioEnergy Institute (JBEI) in collaboration with Berkeley Lab’s Environmental Genomics & Systems Biology Division and the DOE Joint Genome Institute developed a versatile system (named jStack) which utilizes yeast homologous recombination to efficiently assemble DNA into plant transformation vectors. The new approach will impact plant engineering for the bioenergy, agricultural and pharmaceutical industries.

Although synthetic biology has provided solutions to many societal challenges, little research has been devoted to advancing synthetic biology in plants. Microbes, such as yeast and Escherichia coli (E. coli), have received much of the attention in developing synthetic biology tools due to their fast generation time and the ease of working with these organisms in laboratories. A shortage of characterized DNA parts, along with the difficulty of efficiently assembling multiple and large fragments of DNA into plant transformation vectors, has limited progress in studying and engineering plants to the same degree as their microbial counterparts.

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Nov 25, 2016

Changes in the diet affect epigenetics via the microbiota

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

You get out what you put in.


You are what you eat, the old saying goes, but why is that so? Researchers have known for some time that diet affects the balance of microbes in our bodies, but how that translates into an effect on the host has not been understood. Now, research in mice is showing that microbes communicate with their hosts by sending out metabolites that act on histones—thus influencing gene transcription not only in the colon but also in tissues in other parts of the body. The findings publish November 23 in Molecular Cell.

“This is the first of what we hope is a long, fruitful set of studies to understand the connection between the microbiome in the gut and its influence on host health,” says John Denu, a professor of biomolecular chemistry at the University of Wisconsin, Madison, and one of the study’s senior authors. “We wanted to look at whether the gut microbiota affect epigenetic programming in a variety of different tissues in the host.” These tissues were in the proximal colon, the liver, and fat .

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Nov 25, 2016

Some Adaptive Immune Cells Become More Innate-Like in the Aged Immune System

Posted by in categories: biotech/medical, life extension

Destroying and replacing the immune system is one of the approaches to treat the aging process.


Fightaging! provides some commentary about the immune system in relation to aging. Addressing the decline of the immune system is one of the approaches SRF is interested in and is a cornerstone of rejuvenation biotechnology.

“Understanding exactly how aging progressively harms the intricate choreography of the immune response is a massive project, and nowhere near completion. It is possible to judge how far along researchers are in this work by the side effect of the quality of therapies for autoimmune disease, which are malfunctions in immune configuration, and largely incurable at the present time. From a practical point of view, and as mentioned above, the best prospects for effective treatments in the near future involve destroying and recreating the immune system. That works around our comparative ignorance by removing all of the problems that researchers don’t understand in addition to ones that they do.”

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