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  • Hey there and welcome to Life Noggin.

  • Growing old is a fact of lifeor is it?

  • What if I told you it was possible to stay young forever?

  • No, this isn't some infomercial for my new cosmetics line, Pixelface.

  • Though my skin does look flawless, if I do say so myself.

  • No, I'm talking about biologically staying young forever.

  • Is modern science navigating its way to the Fountain of Youth?

  • Grab your compass and let's find out!

  • Let's start by looking at why we age in the first place.

  • When your DNA replicates, mistakes can be made that lead to changes in the DNA sequence.

  • These mistakes are usually fixed, but sometimes they slip through the cracks, leaving your

  • DNA damaged.

  • And this decay has been directly linked to aging.

  • If the damage gets too bad, the cell with that DNA will die or enter a process called

  • senescence, which means it won't replicate.

  • These non-replicating cells may speed up the process of aging by releasing inflammatory

  • proteins.

  • Even in their dead dormancy, these cells wear down your internal economy like that bully

  • who keeps asking for lunch money.

  • Dang it Triangle Bob, not again!

  • One of the worst forms of DNA damage is with your chromosomes' telomeres.

  • Telomeres are at the ends of your chromosomes, protecting the DNA.

  • Most telomeres shrink every time their cell divides.

  • And once they become too short, the cell dies or becomes one of those free-loading senescent

  • cells.

  • So, maybe a way to stay young is to simply find a way to replenish the telomeres?

  • Every cell in your body actually has the genetic code to do this, but the answer isn't that

  • simple because most of your cells don't replenish their telomeres to protect the body

  • from cancer.

  • Foiled again!

  • Your cell's mitochondria may also hold secrets for delaying the aging process.

  • You remember those, right?

  • Say it with me now; The Mitochondria is the Powerhouse of the Cell!

  • That's at least one thing I remember from High School.

  • Still don't know how that thing works, whatever it is.

  • Anyway, it seems as though the right amount of stress and oxidation to your mitochondria

  • is key to staying younger.

  • The theory used to be that all free-radical damage to your mitochondria would cause you

  • to age faster.

  • However, due to recent studies, stressing your mitochondria seems to actually /extend/

  • your lifespan, not shorten it.

  • This is provided the damage isn't too severe.

  • I guess what doesn't kill you truly does make you stronger.

  • But maybe we can learn something from another animal, like the Immortal Jellyfish.

  • As a survival method, these jellyfish can leap back to when they were a baby.

  • They do this through transdifferentiation, where their adult cells can revert back to

  • an entirely different cell.

  • But what if we just became vampires instead?

  • It's actually less science-fiction than you'd think.

  • Researchers were able to surgically join older mice with younger ones so that the pairs shared

  • the same blood circulation.

  • By having the younger blood flowing through their body, age-related heart conditions in

  • the older mice were actually reversed!

  • Huh, maybe Dracula was on to something!

  • So what do you think?

  • Would you want to stay young forever?

  • Let me know in the comments down below.

  • Scientists are always looking for new ways to increase the lifespans of you humans.

  • One way is genetic modification.

  • To learn how that works, make sure to check out this video[e].

  • There's a link in the description if you're on mobile.

Hey there and welcome to Life Noggin.

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いつまでも若さを保つことは可能ですか? (Is It Possible To Stay Young Forever?)

  • 107 7
    Evelyn に公開 2021 年 01 月 14 日
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