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I’ve been drawing scenes from HBO’s Chernobyl, because I think the cinematography in that series is amazing.
I’ll probably draw more in the near future. I think Half-Life fueled my interest in Chernobyl and radiation.
A 58-year-old man would have worked for the United Nations in New York, he claims to have found evidence of ‘aliens‘ and bio-robots on Mars. This evidence consists of photos released by NASA. Andre Gignac says that on the photos, which were made at the mountain Aeolis Mons, life forms can be seen. The former journalist […]
The post Proof of aliens and bio-robots on Mars you haven’t seen before appeared first on Lions Ground.
source: lionsgroundnews.com
Jogo Célula Jack Van - Sniper ferrão - Jogar Jogos Online Gratis
O Jogo Célula Jack Van - Sniper ferrão Online foi publicado no http://www.jogarjogosonlinegratis.com.br/jogos-de-tiro/celula-jack-van-sniper-ferrao/
Célula Jack Van - Sniper ferrão
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Célula Jack Van - Sniper ferrão - Novo jogo foi publicado no Jogar Jogos Online Gratis
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Célula Jack Van - Sniper ferrão
Célula Jack Van - Sniper ferrão - Novo jogo foi publicado no Jogar Jogos Online Gratis
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Célula Jack Van - Sniper ferrão
New Post has been published on Jocuri Bune Online | Good Games Online
New Post has been published on http://jbo.ro/jack-van-cell-stinger-sniper/
Jack Van Cell - Stinger Sniper
You, Jack Van Cell, are part of an Underground Militia Group fighting against the forces of the growing population of Bio-robotic beings called the Stingers. Put an end to the Stingers Regime by completing the missions assigned to you by your contact. Shooting Missions: Then use your mouse to move the scope and your left mouse button to shoot.
Point and Click Missions Click on objects and locations on the screen to progress through each mission.
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Would it be possible to integrate biological components with advanced robotics, using biological cells to do machine-like functions and interface with an electronic nervous system — in effect, creating an autonomous, multi-cellular biohybrid robot? Researchers Orr Yarkoni, Lynn Donlon, and Daniel Frankel, from the Department of Chemical Engineering at Newcastle University think so, and they’ve developed an interface to allow communication between the biological and electronic components*, described in an open-access article in Bioinspiration & Biomimetics journal. One of the major challenges in developing biohybrid devices is in the interface between biological and electronic components. Most cellular signals are simply not compatible with electronics. However, manipulation of signal transduction pathways is one way to interface cells with electronics. So the researchers genetically engineered protein cells from a Chinese hamster ovary to produce nitric oxide (NO) in response to visible light. Here’s how: 1. They genetically engineered the nitric oxide synthase protein eNOS by inserting a light-oxygen-voltage (LOV) domain into the gene. This created a photoactive version of the eNOS protein that could produce NO in response to excitation by visible light. 2. They attached these mutant cells to a nickel tetrasulfonated phthalocyanine (NiTSPc)-modified platinum electrode that detected the NO and converted it into an electrical signal. In summary: they converted an optical signal into a chemical signal (NO), and converted the chemical signal into an electrical signal. This signal could, in turn, be used to control a robot. Unlike solid-state photodetectors, the cells have the ability to self-reproduce and the potential to combine input signals to perform computation. With rapid advances in synthetic biology, manipulation of metabolic pathways to integrate with machinery will some day allow the development of advanced robotics, the researchers suggest. (via A step toward creating a bio-robot hybrid | KurzweilAI)
Would it be possible to integrate biological components with advanced robotics, using biological cells to do machine-like functions and interface with an electronic nervous system — in effect, creating an autonomous, multi-cellular biohybrid robot? Researchers Orr Yarkoni, Lynn Donlon, and Daniel Frankel, from the Department of Chemical Engineering at Newcastle University think so, and they’ve developed an interface to allow communication between the biological and electronic components*, described in an open-access article in Bioinspiration & Biomimetics journal. One of the major challenges in developing biohybrid devices is in the interface between biological and electronic components. Most cellular signals are simply not compatible with electronics. However, manipulation of signal transduction pathways is one way to interface cells with electronics. So the researchers genetically engineered protein cells from a Chinese hamster ovary to produce nitric oxide (NO) in response to visible light. Here’s how: 1. They genetically engineered the nitric oxide synthase protein eNOS by inserting a light-oxygen-voltage (LOV) domain into the gene. This created a photoactive version of the eNOS protein that could produce NO in response to excitation by visible light. 2. They attached these mutant cells to a nickel tetrasulfonated phthalocyanine (NiTSPc)-modified platinum electrode that detected the NO and converted it into an electrical signal. In summary: they converted an optical signal into a chemical signal (NO), and converted the chemical signal into an electrical signal. This signal could, in turn, be used to control a robot. Unlike solid-state photodetectors, the cells have the ability to self-reproduce and the potential to combine input signals to perform computation. With rapid advances in synthetic biology, manipulation of metabolic pathways to integrate with machinery will some day allow the development of advanced robotics, the researchers suggest. (via A step toward creating a bio-robot hybrid | KurzweilAI)
