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Category: biological – Page 289

A New Way to Create Synthetic Proteins Could Lead to More Flexible Designs

Nice advancement for the nanomaterials space particularly as we look at ways to improve machines, devices, BMI, living buildings or other living structures, etc. Definitely advances efforts around Singularity.

Proteins perform a myriad of functions essential for life. They also make up important and useful biological materials, for example spider silk, which is exceptionally strong but still flexible.

The ability to design completely new proteins would help scientists create nanomaterials that, like spider silk, have a specific microstructure that confers useful properties.

Dolomite Lends a Helping Hand to Synthetic Biology Research

Excellent opportunity.

Dolomite microfluidic chips are helping researchers from the Biodesign Institute at Arizona State University (ASU) to develop novel enzymes capable of polymerising synthetic nucleotides.

dolomiteUsing these chips, the team has created a droplet-based optical polymerase sorting (DrOPS) technique allowing rapid screening for novel polymerase activities in uniform water-in-oil microcompartments. The team’s leader, Professor John C. Chaput – formerly at ASU and currently at the University of California, Irvine – explained: “The creation of synthetic nucleic acids is of great interest to synthetic biologists but, because they are not found in nature, wild type polymerases struggle to process them. To overcome this issue, we are developing novel polymerases using directed evolution in water-in-oil microcompartments. The DrOPS methodology has significant advantages over traditional methods, which are both labour intensive and impractical to perform on a large scale due to the amount of precious artificial nucleotide reagents required for screening.”

The Biodesign Institute turned to microfluidics to allow rapid sorting and screening of novel polymerases, taking advantage of the technique’s single-cell encapsulation capabilities and picolitre reaction volumes. Dr Andrew Larsen commented: “We needed very reproducible microfluidics, and so using commercially available chips was preferable. We already had experience with Dolomite’s chips for a variety of applications within the institute, and they have always been very consistent, so the choice was obvious. These chips give us the ability to consistently generate uniform droplets – both single and double emulsion droplets – offering spatial separation between cells and allowing fluorescence-based sorting using conventional FACS technologies. Dolomite has also been very supportive of our efforts, helping to accelerate this area of research.”

Liquid Metals to “Soft-Wire” Elastic Electronics

“Liquid Metals to “Soft-Wire” Elastic Electronics”

A few years ago, some friends shared with me an amazing experiment of theirs involving liquid/ fluid base circuitry. Definitely is amazing; and is going to be amazing in where we are taking this type of technology along with synthetic biology.

The shape-shifting metals behind the T-1000 android assassin in the sci-fi movie Terminator 2 may not remain science fiction for long with the development of self-propelling liquid metals that could lead to the replacement of solid state circuits by elastic electronics.

Modern electronics are mainly based on circuits that use solid state components with fixed metallic tracks. However, researchers are trying to create soft circuits that act more like live cells, moving around autonomously and communicating with each other to form new circuits rather than being stuck in a predefined configuration.

Liquid metal droplets have offered the most promising path for achieving this as they are malleable, contain a highly-conductive core and an atom-thin semiconducting oxide skin, all of which are needed to make electronic circuits.

A Brain Circuit to Push Past Nutritional Stress

When we go hungry, we have the ability to ignore the urge to eat such that we can carry out the task at hand. It has long been known that the brain is involved in such decisions. But how the brain coordinates the response to nutritional stress so that the body can function normally is not understood very well. Now, researchers from the National Centre for Biological Sciences (NCBS), Bangalore, have discovered a brain circuit that allows fruit flies to take a major .

Beyond silicon: We discover the processors of your future tech

New updated article on the evolution of the processors of tomorrow.

Personally, I find this article runs short in only focusing on carbon, organics aka plastics, and QC as future replacement. With the ongoing emergence of synthetic biology and what this could mean for processors; I would suggest the author explore further the future of synthetic bio.

From stacked CPUs to organic and quantum processing.

Ban Ki-moon: ‘digital technologies like 3D printing have the potential for massive destruction’

More on the UN’s concern on the next gen technologies.

UN Photo/Rick Bajornas

Of all the initiatives and developments in the 3D printing world, none have caused as much headaches as 3D printed guns. And regardless of where you stand on the issue of gun rights in America, it’s no secret that completely untraceable plastic guns are bringing security issues to the table. Especially law makers in the US have been scratching their heads about what to do with them. Among others, the US State Department has been trying to limit the spread of 3D printable gun designs, while a new law passed in California last month requires 3D printed guns to be registered.

But the issue of 3D printed guns transcends second amendment debates, according to UN Secretary-General Ban Ki-moon. During a speech on the global proliferation of weapons, he listed 3D printing alongside a number of technologies that can be used by terrorists and that facilitate the production of weapons of mass destruction (WMDs) and other biological and technological threats.

World not prepared for biological attacks, new technology threats: Ban Ki-moon

CISO & CSO at many companies are certainly going to have their work cut out for them in the long-term future as more and more new tech such as 3D Printing, Synthetic Bio, etc. are adopted into companies; really brings a new level of security concerns not only in government; but also the private sector.

He pointed out that while there were international organisations to prevent the spread of nuclear and chemical weapons, there was no such agency to deal with biological weapons.

Speaking at the Council debate on weapons of mass destruction (WMD), he sought to expand its definition beyond nuclear, chemical and biological to embrace the threats arising from 21st century science, technology and globalisation.

Information and communication technologies, artificial intelligence, 3D printing and synthetic biology have the potential massive destruction, he said. “The nexus between these emerging technologies and WMD needs close examination and action.”

Algae as vessels for synthetic biology

Nice.

Algae (a term used to group many photosynthetic organisms into a rather heterologous mash-up) do not have a kind place in the public imagination. Take for example the following passage from Stephen King’s Pet Semetary:

“Dead fields under a November sky, scattered rose petals brown and turning up at the edges, empty pools scummed with algae, rot, decomposition, dust…”

Leaving aside their use in a horror novel as a way to set an image of decay, algae attract significant scientific attention, and are even considered cool (well, at least by some). But when I tell people I work on algal Synbio, one question that eventually comes up (or is silently implied) is why do I bother, when there are more prominent and better-developed systems? In this blog I will try to partly address this point of view, as well as provide a small perspective on the subject.

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