@CP24 A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@caitiegreen @MarilynDenisCTV @Roger_CHUMFM @1045CHUMFM you may have seen this. A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
from the small populous country --- providing the potential of solving the garbage issue. "A bacterium that degrades and assimilates poly(ethylene terephthalate)" https://t.co/7kT9rc07ss
Scientists develop 'mutant' enzyme that eats plastic. It is a world first in an effort to find a solution for the 300 million tonnes of plastic produced every year, which was created by accident. The enzyme is able to digest PET. https://t.co/lYImW2Y5lm ht
RT @rdennisstam: The best discoveries are often accidental #plasticpollution #bacteria https://t.co/bfyIJPnN6D
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
It sounds promising… and scary at the same time Promising for turning waste into organic matter. Scary thinking about a possible global spread... Let's start thinking about wood cases for our plastic devices https://t.co/TGJyMkomQW
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
おおう、むかし自分でもPETase関係のをツイートしてたのか。ある方がまとめてリツイートしてくださったので気が付いた次第。 今回は英米の研究者がPETaseの元になったと思われる遺伝子をちょっと編集してみたところ細菌が作った酵素より強力な酵素を作れちゃったというもの。 https://t.co/PD0FzjFhj0
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/qpNXSbBbfq
RT @LGates_science: Wow!! 😮 https://t.co/7HeACz9VbD
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/fpDLqZHMfN
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
Oh happy day! #fightagainstplastic #planet10plastic0 https://t.co/14yVLW88BP
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
Awesome!! https://t.co/cTNG73R5z2
Wow!! 😮 https://t.co/7HeACz9VbD
Finally!!! https://t.co/ZTPgp5dv7z
The best discoveries are often accidental #plasticpollution #bacteria https://t.co/bfyIJPnN6D
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
Wow the potential for this is amazing! #scienceisfun https://t.co/KAPsjQgdaQ
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
RT @AsapSCIENCE: Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in…
Researchers accidentally created a mutant enzyme that breaks down plastic bottles. Tweaking a bacterium they discovered in a Japanese dump, the team witnessed it naturally evolve to eat plastic. Learn more here: https://t.co/8B766UygBJ https://t.co/DQ9oXxA
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/MgPG3zHixn
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/iKnRQ8WGG7
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/MxLMPtJcAt
#enzyme #innovation aka #genetic #engineering Dreaming of a #plastic free world... https://t.co/Hwu0QUVjXA
A bacterium that degrades and assimilates poly(ethylene terephthalate), think plastic. Could this soon help humans reduce waste due to overuse of bottled water?https://t.co/I3AvPeFSeq
@StarTalkRadio @neiltyson A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@BillNye A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@BoingBoing A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@submitterator A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@milesobrien A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@CaraSantaMaria A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@drkiki show topic? A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
RT @virgiliocorrado: A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
A bacterium that degrades and assimilates poly(ethylene terephthalate) https://t.co/TgmbNwCi8M
@randall_rmartin I don't know much. There was a report in 2016 of a bacterium that could split PET. https://t.co/sSIBXeP6sY The enzyme is probably an esterase that pops the bond between the terephthalic acid (the rigid part) and the ethylene glycol (the fl
Shosuke Yoshida et al., 2016 in @sciencemagazine presented their discovery of a novel bacterium, Ideonella sakaiensis 201-F6, that is able to use PET as its major energy and carbon source. #evolution #plasticpollution #plastics https://t.co/0XSP4xV1z1
RT @bortzmeyer: "Life finds a way" Each time there is something to eat, a living being evolves to eat it https://t.co/zARZTimt35 #Darwin
RT @bortzmeyer: "Life finds a way" Each time there is something to eat, a living being evolves to eat it https://t.co/zARZTimt35 #Darwin
RT @bortzmeyer: "Life finds a way" Each time there is something to eat, a living being evolves to eat it https://t.co/zARZTimt35 #Darwin
"Life finds a way" Each time there is something to eat, a living being evolves to eat it https://t.co/zARZTimt35 #Darwin
"A bacterium that degrades and assimilates poly(ethylene terephthalate)" Very exciting result, identification of an enzyme that can degrade PET plastic. Now time to incorporate this into #synbio ? https://t.co/mPsEbGkiNO
RT @phylogeo: "A bacterium that degrades and assimilates poly(ethylene terephthalate)" https://t.co/MX3jUlgxQO
The modified enzyme, known as PETase, can start breaking down (PET) strong plastic commonly used in bottles)) the same material in just a few days. An advice to young Arab chemical engineers to work into this direction and help mother nature. More on http
"A bacterium that degrades and assimilates poly(ethylene terephthalate)" https://t.co/MX3jUlgxQO
@rolat @AllSaintsCHS Good luck with the project! It’s certainly ambitious. The original paper from the Kyoto group can be found here https://t.co/KafapFpMsY
同定から始まって、王道ですな(お隣の人がこの菌の酵素学をやりにいくらしい) https://t.co/NCisNmsbG7
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY
RT @HotPaperTweet: 【微生物学】【高分子化学】ペット樹脂をエチレングリコールとテレフタル酸に分解して、自身が増殖するための栄養にしてしまう細菌が、大阪府堺市のリサイクル工場で発見された。 https://t.co/eYYwLYmXaY