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Archive for the ‘bioengineering’ category: Page 214

Apr 2, 2016

Of mice and old men: is the elixir of youth finally coming of age?

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

Preliminary work suggests that T-cells, which normally target disease, can be genetically engineered to target senescent cells in a wide range of tissues. In future, an infusion of GM blood every few years might be able to keep you going indefinitely (assuming some major advances in treating cancer, Alzheimer’s and heart disease). At which point, the question might be less: “How long have I got?” and more: “How long do you fancy sticking around?”


American scientists have coined the term ‘senolytics’ to describe a new class of drugs designed to delay the ageing process by clearing out doddery cells.

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Mar 30, 2016

Scientists Can Now 3D Print Any Muscle

Posted by in categories: 3D printing, bioengineering

This method allows bioengineers to 3D print tissue of ANY shape.

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Mar 30, 2016

This Week in Science: Mar 20 — 27, 2016

Posted by in categories: 3D printing, bioengineering, biotech/medical, science, space

3D printed heart replicas, A new type of colossal galaxy, shutting down HIV with gene editing, and more!

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Mar 30, 2016

This Week in Science: March 20-27th 2016

Posted by in categories: 3D printing, bioengineering, biotech/medical, science, space

This Week in Science — March 20 −27, 2016.


3D printed heart replicas, A new type of colossal galaxy, shutting down HIV with gene editing, and more.

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Mar 29, 2016

Could nanobots make your electronics last FOREVER?

Posted by in categories: bioengineering, nanotechnology, robotics/AI, wearables

Nanoengineers at the University of California San Diego have developed tiny molecular robots (pictured) that could help to extend the life of delicate circuits and wearable technology.

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Mar 29, 2016

WIRB-Copernicus Group Establishes WCG Gene Therapy Advisory Board

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

1st of many steps in the gene editing oversight.


PRINCETON, N.J., March 29, 2016 /PRNewswire/ — WIRB-Copernicus Group® (WCG™), one of the world’s leading providers of solutions that measurably improve the quality and efficiency of clinical research, today announced that it has assembled a team of world-renowned experts to advise the company regarding the latest advances in gene therapy research. The WCG Gene Therapy™ Advisory Board will convene today in Princeton, NJ.

“Human gene therapy is one of the fastest-growing areas of medical research, and also one of the most promising,” said WCG Chairman and Chief Executive Officer Donald A. Deieso, Ph.D. “The advances made by scientists and clinicians in the field of gene therapy have enabled us to target disease at the genetic level, redefining the concept of precision medicine.” He added, “More than that, gene transfer researchers have succeeded – over the course of a single lifetime – in transforming the world’s most persistent and lethal viruses into disease-fighting allies in the quest to improve human health.”

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Mar 29, 2016

Magic Microbes: The Navy’s Next Defense?

Posted by in categories: bioengineering, biotech/medical, computing, materials, nanotechnology, neuroscience, robotics/AI

Synthetic biology involves creating or re-engineering microbes or other organisms to perform specific tasks, like fighting obesity, monitoring chemical threats or creating biofuels. Essentially, biologists program single-celled organisms like bacteria and yeast much the same way one would program and control a robot.

But 10 years ago, it was extremely challenging to take a DNA sequence designed on a computer and turn it into a polymer that could implement its task in a specific host, say a mouse or human cell. Now, thanks to a multitude of innovations across computing, engineering, biology and other fields, researchers can type out any DNA sequence they want, email it to a synthesis company, and receive their completed DNA construct in a week. You can build entire chromosomes and entire genomes of bacteria in this way.

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Mar 27, 2016

Alphabet’s ‘Moonshots’ Head Astro Teller: Fear Of AI And Robots Is Wildly Overblown

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

(Photo credit: AP Photo/Jack Plunkett, File)

Astro Teller is tired of the paranoia surrounding artificial intelligence and robotics. The famous computer scientist’s sensitivity around the topic may be understandable considering he bears the brunt of some of that skepticism as the head of X, the Alphabet (and formerly Google) moonshot factory working on many of the company’s futuristic AI and robotics projects.

This past weekend, Teller, whose official title is “captain of moonshots,” took to the stage at the inaugural Silicon Valley Comic Con hoping to dispel some of these misconceptions around AI. His physician wife, Danielle Teller, presented alongside him on some of the fear mongering associated with genetic engineering in humans. After their presentation, the Tellers sat down with FORBES to go deeper on the issue to explain what they hoped to accomplish with their talk.

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Mar 24, 2016

CRISPR Used to Target RNA in Live Cells For the First Time

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

WIKIMEDIA, ROBINSON RCRISPR-a bacterial immune response best known for its genome-editing applications in the lab-has yet again been adapted for scientific purposes, this time to track RNA within cells. Considering the case of synapses — the proteins required for these neural connections are produced from RNAs located at these contacts.

“Just as CRISPR-Cas9 is making genetic engineering accessible to any scientist with access to basic equipment, RNA-targeted Cas9 may support countless other efforts for studying the role of RNA processing in disease or for identifying drugs that reverse defects in RNA processing”, study coauthor David Nelles of the University of California, San Diego, said in a press release. Defective RNA transport is linked to a host of conditions ranging from autism to cancer and researchers need ways to measure RNA movement in order to develop treatments for these conditions. “Our current work focuses on tracking the movement of RNA inside the cell, but future developments could enable researchers to measure other RNA features or advance therapeutic approaches to correct disease-causing RNA behaviors”. But, Gene Yeo, Associate Professor of Cellular and Molecular Medicine at UC San Diego, and his team have applied the technique as a flexible means to targeting RNA in live cells.

Jennifer Doudna, the creator of the CRISPR-Cas9 system for DNA editing, also works out of the University of California research system, and is listed as a co-author for this study. A guide RNA, along with the addition of an oligonucleotide sequence, sent the Cas9 RNA-ward.

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Mar 23, 2016

Gene Tool Shows Promise In Curing HIV, Cancer and Autism

Posted by in categories: bioengineering, biotech/medical

Gene editing tool CRISPR-Cas9 has made it possible to isolate RNA in living cells for the first time.

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