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"content": "<p>Technical Report on Mirror Bacteria: Feasibility and Risks <a href=\"https://purl.stanford.edu/cv716pj4036\" target=\"_blank\" rel=\"nofollow noopener noreferrer\" translate=\"no\"><span class=\"invisible\">https://</span><span class=\"\">purl.stanford.edu/cv716pj4036</span><span class=\"invisible\"></span></a> describes the technical feasibility of creating mirror bacteria and the potentially serious and wide-ranging risks that they could pose to humans, other animals, plants, and the environment.</p><p>This is the closest thing to "gray goo" scenario I have seen. The possibility to ecological collapse and altering is possibility. </p><p>For example, mirror cyanobacteria could profoundly alter marine ecosystems and the global carbon cycle. </p><p><a href=\"https://mathstodon.xyz/tags/biology\" class=\"mention hashtag\" rel=\"tag\">#<span>biology</span></a> <a href=\"https://mathstodon.xyz/tags/biochem\" class=\"mention hashtag\" rel=\"tag\">#<span>biochem</span></a> <a href=\"https://mathstodon.xyz/tags/risk\" class=\"mention hashtag\" rel=\"tag\">#<span>risk</span></a> <a href=\"https://mathstodon.xyz/tags/existentialRisk\" class=\"mention hashtag\" rel=\"tag\">#<span>existentialRisk</span></a></p>",
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"en": "<p>Technical Report on Mirror Bacteria: Feasibility and Risks <a href=\"https://purl.stanford.edu/cv716pj4036\" target=\"_blank\" rel=\"nofollow noopener noreferrer\" translate=\"no\"><span class=\"invisible\">https://</span><span class=\"\">purl.stanford.edu/cv716pj4036</span><span class=\"invisible\"></span></a> describes the technical feasibility of creating mirror bacteria and the potentially serious and wide-ranging risks that they could pose to humans, other animals, plants, and the environment.</p><p>This is the closest thing to "gray goo" scenario I have seen. The possibility to ecological collapse and altering is possibility. </p><p>For example, mirror cyanobacteria could profoundly alter marine ecosystems and the global carbon cycle. </p><p><a href=\"https://mathstodon.xyz/tags/biology\" class=\"mention hashtag\" rel=\"tag\">#<span>biology</span></a> <a href=\"https://mathstodon.xyz/tags/biochem\" class=\"mention hashtag\" rel=\"tag\">#<span>biochem</span></a> <a href=\"https://mathstodon.xyz/tags/risk\" class=\"mention hashtag\" rel=\"tag\">#<span>risk</span></a> <a href=\"https://mathstodon.xyz/tags/existentialRisk\" class=\"mention hashtag\" rel=\"tag\">#<span>existentialRisk</span></a></p>"
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"name": "Figure 2.4: Milestones towards the creation of a mirror bacterium\nA. Schematic depicting the boot of a living natural-chirality bacterium from non-living, cell-derived components. In\nthis experiment, the bacterial genome, lysate, and membrane would be harvested from an existing bacterium and\nthen recombined to create a new living bacterium. B. Schematic depicting the boot of a living natural-chirality\nbacterium from non-living, fully synthetic components. In this experiment, the genome, lysate, and membrane from\nA would be replaced by synthetic components made without the help of existing cells, such as a synthetic genome,\nthe PURE system, and synthetic lipids. C. Schematic depicting the boot of a mirror bacterium from non-living, fully\nsynthetic mirror components. In this experiment, mirror versions of the components in B would be made and then\ncombined using the protocol established in B to boot a mirror bacterium.",
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