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  • This one's real easy, you guys--super low key, not really a big deal, it's just this

  • silly question that nobody's really interested in, it's just like….how did life begin?

  • Ok, obviously I'm joking.

  • This is one of the biggest unanswered questions in science today, and is the backbone of our

  • burning questions about who we are, where we come from, and if we're alone out here.

  • New research has now given us clues into how exactly the fundamental molecular building

  • blocks of life came together in the first place.

  • Because that's the central question: in the big puddly soup of pre-biotic earth--as

  • in, earth before living organisms--how did the perfect ingredients for life form, much

  • less fuse together into something that stores information and can replicate independently.

  • A primer on how our living cell's work: A cell's most important components are DNA,

  • RNA and a ribosome.

  • DNA codes for all of the essential information about what the organism is and how it works,

  • but it's kept all safe and huddled away in the nucleus.

  • To take that information and make it into actual stuff, like proteins, an enzyme called

  • RNA polymerase copies sections of the DNA and makes strands of RNA, which are a like

  • one-sided version of DNA.

  • These messenger RNA strands get sent to the cell's ribosome, where they're converted

  • into the proteins our cells need for survival.

  • When scientists were first discovering all this complex stuff, it became an even bigger

  • question of how all this could have spontaneously come together as a result of organic chemistry.

  • To tackle this problem, some scientists suggested that perhaps life as we know it now didn't

  • all spontaneously form at once exactly as it is, it was probably a little simpler...maybe

  • it was only RNA-based!

  • This hypothetical situation is what we refer to as the RNA world.

  • But this track of thinking is based on the idea that the self-replicating aspect of life

  • is what formed first.

  • And not everyone agrees.

  • Some people think that metabolization, or the ability to extract energy from your environment,

  • must have come first, while a third camp thinks that compartmentalisation must have come first,

  • a primitive version of the different internal pieces of a cell.

  • These divisions in the scientific community still survive, but as we've come to learn

  • more about RNA and how it can behave, it's become clearer that it's an essential part

  • of the beginning of life, if not the first thing that formed.

  • This is because RNA can do a really exciting thing.

  • Not only can it contain information that it can then replicate...but it can also fold

  • itself up into shapes in which it can act as an catalyst, influencing chemical reactions!

  • When this was discovered, we realized it was much more likely that RNA-based life could

  • indeed have survived and replicated all on its own...without the all the fancy add-ons

  • we have today.

  • So then we come down to the question again--how did RNA form in the first place?

  • Scientists have been on a quest to demonstrate how all of RNA's component parts could have

  • spontaneously assembled, and new research may just bring it all together.

  • RNA is made up of the nucleic acids cytosine, uracil, adenine, and guanine.

  • A research team had shown a few years ago that a set of five simple compounds could

  • have given rise to cytosine and uracil with nothing more than the addition of UV light,

  • which there was plenty of on a primitive earth.

  • A different team then showed a similarly easy and plausible process for the formation of

  • adenine and guanine from simple building block elements.

  • But no one had demonstrated that these two separate reactions, producing all four RNA

  • nucleic acids, could have occurred in the same place at the same time...until now.

  • A paper that came out in 2018 showed that a simple set of molecules--oxygen, nitrogen,

  • methane, ammonia, water, and hydrogen cyanide, all of which would have been present on an

  • early version of earth--could react to form what we recognize as the uracil, adenine,

  • guanine and cytosine.

  • This work is the first experimental evidence showing that the chemistry fits--these building

  • blocks could have feasibly all come together at the same time, in the same place, we saw

  • it happen before our very eyes.

  • There are still a couple of missing pieces that we haven't been able to recreate in

  • the lab.

  • For instance, how did each of the building blocks come together to link them into the

  • long chains that take them from nucleic acids to actual RNA?

  • And, keep in mind, while the RNA world is the leading theory, there is some contention

  • among scientists about the first inklings of life on earth.

  • Hopefully work like this will add to that discussion, PLUS it does represent an unprecedented

  • step forward in answering the most fundamental of questions: how life began.

  • For more on DNA and the craziness of life, check out another video of mine here.

  • Don't forget to subscribe to Seeker for all your genetic information questions, and

  • thanks so much for watching

This one's real easy, you guys--super low key, not really a big deal, it's just this

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地球上での生命の始まりの秘密を解き明かしたかもしれない (We May Have Just Unlocked a Secret to How Life Started on Earth)

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    林宜悉 に公開 2021 年 01 月 14 日
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