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Archive for the ‘genetics’ category: Page 482

Aug 31, 2016

Be afraid. Be very afraid: IBM’s Watson makes AI trailer about ‘Morgan’ AI movie

Posted by in categories: computing, genetics, robotics/AI

Experts may reassure us that artificial intelligence won’t take over the world anytime soon – but they just might invade the multiplex.

At least that’s the plot developing at IBM, where the Watson artificial-intelligence team programmed a computer to come up with a scary trailer for “Morgan,” a thriller about a genetically modified, AI-enhanced super-human.

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Aug 30, 2016

Genetic Engineering Creates Piglets That Are Immune to Deadly Disease

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

Researchers genetically modify piglets to be resistant to an incurable disease plaguing hog farms, Porcine Reproductive Respiratory Syndrome (PRSS). The researchers cut out a specific gene to cure the pigs.

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Aug 29, 2016

Safer Gene Editing Without Cleaving DNA

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

It’s an add-on for CRISPR.


Researchers have created a new genome editing technique called Target-AID, which induces point mutations instead of cutting DNA

Gene editing technology has fantastic potential, but there are remaining issues and questions over safety and specificity. The major contender is currently CRISPR-Cas9, but this induces a double stranded break in DNA which is a slightly riskier approach — particularly if it cuts in other locations too that you don’t want it to. Research teams across the world are both optimising and customising the CRISPR system; creating more accurate versions or versions that regulate gene expression as opposed to editing it. One such team has now built an add-on to CRISPR, Target-AID.

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Aug 28, 2016

Synthetic Biology Explained

Posted by in categories: bioengineering, biological, genetics

From selective breeding to genetic modification, our understanding of biology is now merging with the principles of engineering to bring us synthetic biology.

Written, animated and directed by James Hutson, Bridge8.

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Aug 28, 2016

Uncovering the genetic basis of ALT (Alternative Lengthening of Telomeres) — Harold Silva

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

Dr Haroldo Silva from SENS talks about ALT cancer in this short film.


As normal cells divide, the ends of their chromosomes (telomeres) progressively shorten until eventually the cells reach senescence or undergo apoptosis. Cancers, which disproportionally kill more individuals in the 65 years or above age group, often overcome this built-in replication limit by expressing the enzyme telomerase.

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Aug 27, 2016

Scientists unlock genetic code controlling limb regeneration

Posted by in categories: biotech/medical, genetics

Many lower organisms retain the miraculous ability to regenerate form and function of almost any tissue after injury. Humans share many of our genes with these organisms, but our capacity for regeneration is limited. Scientists at the MDI Biological Laboratory in Bar Harbor, Maine, are studying the genetics of these organisms to find out how regenerative mechanisms might be activated in humans.

The ability of animals to regenerate body parts has fascinated scientists since the time of Aristotle. But until the advent of sophisticated tools for genetic and computational analysis, scientists had no way of studying the genetic machinery that enables regeneration. Using such tools, scientists at the MDI Biological Laboratory have identified genetic regulators governing regeneration that are common across species.

In a paper published in the journal PLOS ONE, MDI Biological Laboratory scientistsBenjamin L. King, Ph.D., and Voot P. Yin, Ph.D., identified these common genetic regulators in three regenerative species: the zebrafish, a common aquarium fish originally from India; the axolotl, a salamander native to the lakes of Mexico; and the bichir, a ray-finned fish from Africa.

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Aug 27, 2016

If You Edit Genes Using CRISPR, Can You Undo the Effects?

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

#CRISPR can be used to alter the genes of not only one organism, but an entire species, through a method of inheritance known as a gene drive. But what happens if something goes awry?

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Aug 26, 2016

Faces of murderers could be recreated from DNA left at crime scenes after science breakthrough

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

The faces of murderers or rapists could be ‘recreated’ from DNA left at the scene of the crime, according to new research.

Scientists have identified the genes that shape the extraordinary variation in the human face.

Many features, such as nose size and face width, stem from specific mutations, say researchers.

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Aug 24, 2016

Gene editing will challenge ethics at Biological Weapons Convention

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

Anyone attending the Bioweapons Convention in December?


He signatory nations of the Biological Weapons Convention (BWC) will meet …to discuss the state of bioweapons globally…he world has radically changed s.

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Aug 23, 2016

Accessible Synthetic Biology Raises New Concerns for DIY Biological Warfare

Posted by in categories: 3D printing, bioengineering, biotech/medical, genetics, habitats, military

Good; glad they are hearing us. Because it is a huge issue for sure especially with some of the things that I seen some of the researchers proposing to use CRISPR, 3D Printers, etc. to create some bizarre creatures. Example, in March to scientists in the UK wanted to use CRISPR to create a dragon; personally I didn’t expect it to be successful. However, the scientists didn’t consider the fallout to the public if they had actually succeeded.


For a few hundred dollars, anyone can start doing genetic editing in the comfort of their own home.

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