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  • We are addicted to single-use plastics

  • The vast majority of single-use plastic bottles end up in landfills or the ocean

  • where they'll take at least 450 years to break down completely.

  • Now though, scientists have created a newsuper enzymethat can decompose plastic faster than ever before,

  • and it could revolutionize recycling.

  • Not all plastic is the same; there are actually several materials that fall under the term.

  • The plastic most disposable bottles are made out of is polyethylene terephthalate, or PET.

  • As a material, PET is ideal for carbonated beverages because it doesn't explode from the pressure

  • while still keeping soft drinks fizzy.

  • PET is recyclable, but typical methods used today involve melting down products of all different colors,

  • resulting in a gray or black plastic that's not very appealing to consumers or as durable.

  • It's also cheaper to use new PET instead of the recycled variety.

  • So, scientists are looking at ways to break PET into its component parts,

  • allowing recycling plants to make products indistinguishable from virgin PET by ignoring dyes and eliminating the need for sorting.

  • Decomposing the plastic would also avoid some environmental issues of melting it down.

  • One alternative uses enzymes that target the bonds in the material, and amazingly...

  • scientists have discovered some of these enzymes naturally occur in bacteria.

  • That's right, there are microorganisms that have the ability to decompose plastic.

  • The bacteria that breaks down PET the fastest out of any we've discovered so far were discovered in a waste site in Japan in 2016.

  • They can eat through low-quality plastic in about 6 weeks,

  • though highly crystalized PET like the kind found in bottles takes longer to break down.

  • So, scientists searched for a way to pick up where nature has started.

  • First they experimented with variations of the enzyme the bacteria make called PETase.

  • One lab engineered version was found to break down PET about 20% faster than the naturally occurring variety.

  • Okay, off to a good start.

  • But the same Japanese bacterium has another trick to further break down PET, a second enzyme called MHETase.

  • MHETase takes a product PETase creates, mono(2-hydroxyethyl) terephthalate,

  • and further cuts it up into terephthalic acid and ethylene glycol.

  • I may have been practicing that sentence all day in the mirror.

  • These are the building blocks of PET and returning it to this state could mean the same plastic could be recycled endlessly,

  • cutting down on the need to make more from petroleum.

  • When researchers used their mutant PETase and MHETase together, they found it broke down plastic

  • twice as fast as PETase alone.

  • But the real gains came when they synthesized a link between the two enzymes, in a way that almost looks like they're holding hands.

  • With their powers literally combined, they sliced through PET six times faster than PETase alone.

  • You may be wondering why the bacteria don't pull off this same trick themselves?

  • While the two separate enzymes are made within the same bacterium,

  • the combined super enzyme is just too large for their little molecular machinery to produce.

  • So thank you for the nudge in the right direction, little guys, we'll take it from here.

  • Of course, this doesn't mean the end of plastic waste as we know it,

  • the researchers note even with the increased speed over PETase alone

  • this new super enzyme is still not fast enough yet to be commercially viable.

  • They're going to have to find other ways of speeding the process up if we're going to close the loop on plastic products.

  • Even if scientists one day make a bacterial enzyme that just obliterates plastic waste,

  • there's still a major piece missing: us.

  • Fewer than 30% of bottles used in the US are recycled, and that rate is much lower in places that don't incentivize it.

  • We have to get better at keeping plastic out of the environment and getting it somewhere where it can be reused.

  • Simply making sure what you use finds its way to a recycling facility can be a big help.

  • Develop good recycling habits and if commercial-grade plastic-munching bacteria ever do arrive

  • we can be sure they have plenty to chew on.

  • While some bacteria have PET slicing enzymes originally meant to break down leaves,

  • the bacteria discovered in Japan appear to have evolved PETase as a response to plastic waste.

  • Plastic waste is a major problem that we are tackling from all sides, so how close are we to reinventing plastic itself?

  • Check out our video on that here. Thanks for watching, don't forget to subscribe, and I'll see you next time on Seeker.

We are addicted to single-use plastics

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