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What if with the new wave of technologies, such as nanotechnology which would enable us to reprogram matter at a molecular level, we can overcome scarcity once and for all? Design would then become the most important part from start to end product which can be freely shared or have a premium in the marketplace. At any rate, this will dismantle the current social, economic, and political system, because it will become irrelevant; every institution, every value system, every aspect of our lives have been governed by scarcity: the problem of distributing a finite amount of “stuff.” There will be no need for any of today’s social institutions. In other words, when nanotech and ultra-realistic VR are commonplace, the system built on scarcity will crumble and that would herald the forthcoming “economic singularity.” #EconomicSiingularity

The current faltering economic model is suboptimal, hinders economic growth, and is not sustainable going forward.

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O,.o I believe the fungi kingdom is sentient based on this similar to other insects. Basically if exists in space aswell I believe it has a hive mind like similar species like the bee. But there are good fungi also that keep these invasive species of fungi at bay which we see in rainforests. It could be much more powerful than imagined because it is everywhere in the air on earth and also in space.

Mind-controlling fungus that infects the brains of cicadas can make them kill each other. These mutant critters, dubbed as zombie cicadas, are forced to infect other insects.

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O,.o Circa 2019

CRISPR/Cas9 is now a household name associated with genetic engineering studies. Through cutting-edge research described in their paper published in Scientific Reports, a team of researchers from Tokyo University of Science, Meiji University, and Tokyo University of Agriculture and Technology, led by Dr Takayuki Arazoe and Prof Shigeru Kuwata, has recently established a series of novel strategies to increase the efficiency of targeted gene disruption and new gene “introduction” using the CRISPR/Cas9 system in the rice blast fungus Pyricularia (Magnaporthe) oryzae. These strategies include quicker (single-step) gene introduction, use of small homologous sequences, and bypassing of certain prerequisite host DNA “patterns” and host component modification.

The team led by Dr Arazoe and Prof Kuwata has devised simple and quick techniques for gene editing (target gene disruption, sequence substitution, and re-introduction of desired genes) using CRISPR/Cas9 in the rice blast fungus Pyricularia (Magnaporthe) oryzae, a type of filamentous fungus. Spurred on by encouraging results, the researchers surmise, “Plants and their pathogens are still coevolving in nature. Exploiting the mutation mechanisms of model pathogenic fungi as a genome editing technique might lead to the development of further novel techniques in genetic engineering.”

The working component of the CRISPR/Cas9 system binds to the target gene region (DNA) and causes a site-specific double-stranded break (DSB) in the DNA. Effective binding of this component requires a certain “motif” or “pattern” called the protospacer-adjacent motif (PAM), which follows downstream of the target gene region.

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Watch a strange, sprouting mushroom reach out like an octopus … or the devil’s fingers.
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Time-lapse video shows an octopus-like fungus bursting from its “egg.” Fittingly known as the octopus stinkhorn, or devils’s fingers, this mushroom spends much of its time underground. When it’s time to reproduce, it emerges and starts to ooze a spore-filled slime that attracts flies. The flies carry the spores away, helping the strange mushroom to spread far and wide.

Continue reading “This Sprouting, Octopus-like Fungus Is the Stuff of Nightmares | National Geographic” | >