Quien no despierta es porque no quiere despertar Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/uLWnIiWluF Scientists convert plastic waste into vanilla flavoring https://t.co/sa3D4uUJ3L
2組でPET樹脂をモノマー単位まで完全に脱重合させる酵素(PETaseとMHETase)の構造、酵素活性、反応機構の解析 また、それら2つの酵素を連結させて高活性化の実現にも成功している #BNTNJC https://t.co/wIAqT8QnmM
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/yYd3juR5KM
RT @CeliaParody: پروتئین کایمرای MHETase/PETase با منشا باکتریایی که با یک لینکر بهم وصل شدند، قابلیت تجزیه پلاستیک PET رو با سرعت ۶ برابری…
پروتئین کایمرای MHETase/PETase با منشا باکتریایی که با یک لینکر بهم وصل شدند، قابلیت تجزیه پلاستیک PET رو با سرعت ۶ برابری دارند که اگر تجاری شود، شاید محیط زیست را از شر زبالههای پلاستیکی تا حدی رها کند. https://t.co/yF4EOE9nMk https://t.co/PttNoujZ77
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/06yAvfymJ5
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/n7FZ9UZiPw
RT @fubcp: Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/jvnoAE9ImP
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/jvnoAE9ImP
RT @benenen12345: PET樹脂をモノマー単位まで完全に脱重合させる2つの酵素の構造、酵素活性などの解析 最後の酵素2つ連結させて高活性を実現する系がなかなかカッコいい https://t.co/wIAqT97Yek
PET樹脂をモノマー単位まで完全に脱重合させる2つの酵素の構造、酵素活性などの解析 最後の酵素2つ連結させて高活性を実現する系がなかなかカッコいい https://t.co/wIAqT97Yek
RT @WentySciHealth: Since Earth Day was last Thursday, W.I.S.H. focuses its #ScienceSaturday on PLASTIC EATING BACTERIA! This article prese…
Since Earth Day was last Thursday, W.I.S.H. focuses its #ScienceSaturday on PLASTIC EATING BACTERIA! This article presents on the bacterium _Idonella sakaiensis_ & how it deconstructs a specific plastic for energy! Scientists now working to develop mor
RT @Rosie_MC1R: I am officially a published scientist now, but more importantly what an amazing teams outputs this paper is 🙌🏻 https://t.co…
RT @sci_tek: Eating Plastic https://t.co/GPmH2lwnqb https://t.co/keOsD5pSrC
Eating Plastic https://t.co/GPmH2lwnqb https://t.co/keOsD5pSrC
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
RT @PNASNews: A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16Sf…
A two-enzyme system can degrade the plastic pollutant PET: https://t.co/hd2xA5PvBg @nytimes PNAS article: https://t.co/Mv16SfH2Tr https://t.co/lCCbiupnz1
E#nzymatic breakdown of #PET #plastic: characterization of the #MHETase enzyme and synergy of the two-enzyme PET depolymerization system may inform enzyme cocktail-based strategies for plastics upcycling. https://t.co/c7TZCX25Yi
Look 👀👇🏻
Enzymatic breakdown of PET plastic https://t.co/E39XQPUR90
RT @manuelacasasoli: Two-enzyme system for polyethylene terephthalate (PET) deconstruction and synthetic plastics: strategies for plastics…
RT @manuelacasasoli: Two-enzyme system for polyethylene terephthalate (PET) deconstruction and synthetic plastics: strategies for plastics…
RT @manuelacasasoli: Two-enzyme system for polyethylene terephthalate (PET) deconstruction and synthetic plastics: strategies for plastics…
Two-enzyme system for polyethylene terephthalate (PET) deconstruction and synthetic plastics: strategies for plastics upcycling. #Science #plastic #Sustainability ⏯️Characterization and engineering of a two-enzyme system for plastics depolymerization:
RT @PNASNews: Congratulations to @Rosie_MC1R, @McGeehanJohn, Harry Austin, Mark Allen, Fiona Kearns, Valérie Copié, Christina Payne, and H.…
John and Gregg's paper on MHETase:PETase chimeric enzyme is ranked 39th with an Altmetric score of 2534! Awesome! Congrats! https://t.co/GL44DopwMg https://t.co/97ye3bYu1S
Congratulations to @NREL researchers Jared Anderson, Graham Dominick, Christopher Johnson, Nicholas Rorrer, Caralyn Szostkiewicz, and Bryon Donohoe for their PNAS paper https://t.co/QTONRQSRYz making the #AltmetricTop100. See the full list here: https://t.
Congratulations to @NREL researchers Gregg Beckham, Brandon Knott, Erika Erickson, Japheth Gado, Isabel Pardo, and Ece Topuzlu for their PNAS paper https://t.co/6vDqCmzqQR making the #AltmetricTop100. See the full list here: https://t.co/WSi20TFfnD https:/
Congratulations to @Rosie_MC1R, @McGeehanJohn, Harry Austin, Mark Allen, Fiona Kearns, Valérie Copié, Christina Payne, and H. Lee Woodcock for their PNAS paper https://t.co/jR7b124zI2 making the #AltmetricTop100. See the full list here: https://t.co/Wh6u8V
Plastic eating enzyme can close the loop on plastic waste and turn it back into raw materials for future plastic. This will make plastic cheaper, but also make discarded plastic more valuable https://t.co/ElqkuLYcF8
RT @CEI_UoP: Latest research from our @McGeehanJohn in @PNASNews: MHETase:PETase chimeras exhibit improved PET turnover relative to the fre…
Just burn it lol and plant trees ♻️♻️♻️🌎🌎🌎🇺🇸🇺🇸🇺🇸🇺🇲🕸️🏴☠️
Caracterización e ingeniería de un sistema de dos enzimas para la despolimerización de plásticos. https://t.co/OoonlEWROd
RT @takkypotter: 先月の「プラスチックを食べる酵素」のニュースはこちら▼ https://t.co/2R2yDTxWwH その酵素を見つける元になったのが、大阪・堺市のペットボトル処理工場で発見それた細菌で、その名も「イデオネラ・"サカイ"エンシス」だそうです…
RT @RichPitts: This HAS to be the way forward circular systems really do work💕#permaculture 🤔think people think!
RT @aderbenwick: Mother Nature and #researchers are both working to evolve deconstruction systems for synthetic plastics - helping us move…
RT @RichPitts: This HAS to be the way forward circular systems really do work💕#permaculture 🤔think people think!
RT @aderbenwick: Mother Nature and #researchers are both working to evolve deconstruction systems for synthetic plastics - helping us move…
This HAS to be the way forward circular systems really do work💕#permaculture 🤔think people think!
Mother Nature and #researchers are both working to evolve deconstruction systems for synthetic plastics - helping us move toward a circular materials economy. @oracleresearch https://t.co/WUAoN2UyHM
plastic eating bacteria! This world is amazing. Find the paper referenced at https://t.co/wBGCxjwIqJ
Portsmouth Üniversitesi ve NREL’den araştırmacılar bakterilere süper enzim tasarlayarak, plastiği 6 kat daha hızlı sindirecek hale getirmeyi başardı. 🔗 https://t.co/UQsvucHgb5 https://t.co/LbVKy8k7Dw
RT @ZBioticsCompany: Paper of the week: Characterization and engineering of a two-enzyme system for plastics depolymerization. What’s cool…
Paper of the week: Characterization and engineering of a two-enzyme system for plastics depolymerization. What’s cool: A two-enzyme system works synergistically to break down PET plastic at a higher rate when compared to a traditional PETase enzyme. http
RT @chngin_the_wrld: Today's #shoutout to #womenInSTEM goes to Erika Erickson for her team paper @PNAS on characterization and engineering…
RT @chngin_the_wrld: Today's #shoutout to #womenInSTEM goes to Erika Erickson for her team paper @PNAS on characterization and engineering…
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/pNYTOZ5Jap
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
New Paper from I03 in @PNASNews https://t.co/wjdFwxWKBq (https://t.co/yVXnlQtJbj)
The study is an important step for the preparation of enzyme cocktail-based strategies for plastics upcycling #Recycleplastic https://t.co/jHjAi1KjZx
@CoopwrJ @ECBGreen @top_nz So many to chose from. I would go with this engineered enzyme that can break down plastics. It could be massive for plastic recycling. https://t.co/TQq5kP4gR1 Here is a french company already using a similar enzyme: https://t.c
RT @ryotaiino: PETase-MHETase chimeric enzyme boosts PET degradation. An excellent work by Gregg's and John's group. Congratulations! Char…
A toast to the microbe #Ideonella sakaiensis that developed a way to degrade PET plastic! #plasticpollution #PlasticFreeFuture Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/VZKrtFy9WF
"Get Up Yeah"
RT @ryotaiino: PETase-MHETase chimeric enzyme boosts PET degradation. An excellent work by Gregg's and John's group. Congratulations! Char…
RT @ryotaiino: PETase-MHETase chimeric enzyme boosts PET degradation. An excellent work by Gregg's and John's group. Congratulations! Char…
RT @ryotaiino: PETase-MHETase chimeric enzyme boosts PET degradation. An excellent work by Gregg's and John's group. Congratulations! Char…
PETase-MHETase chimeric enzyme boosts PET degradation. An excellent work by Gregg's and John's group. Congratulations! Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/ZRciJdlOHa
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
Very cool. #marineplastic #plasticpollution @mfieser7
RT @PNASNews: An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t…
An engineered, two-enzyme system could breakdown PET plastic: https://t.co/C9RtNVyRFv @SmithsonianMag PNAS article: https://t.co/d9LNLaqAEx https://t.co/qJICo2od0L
RT @druselabs1: https://t.co/XxNrIqiKcx Characterization and engineering of a two-enzyme system for plastics depolymerization by Brandon Kn…
RT @Carter_Lab: #Journalclub Interesting structural insight in the domains and active sites of a PETase and MHETase which together decompos…
RT @Carter_Lab: #Journalclub Interesting structural insight in the domains and active sites of a PETase and MHETase which together decompos…
RT @Carter_Lab: #Journalclub Interesting structural insight in the domains and active sites of a PETase and MHETase which together decompos…
Could this be the solution for recycling plastics? This article discusses the recent findings in the field of enzyme mediated plastic break-down. Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/u9Kqhlmv
プラスティック分解酵素のやつ。アブスト読んでもわかりにくいけど埋め込み動画のおかげで結合切っていく手順がイメージしやすい。 / “Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS” https://t.co/UHeGHpBCaf
サカイエンシスのあれ。酵素が食べるってなんだよとおもったら外国記事の受け売りだった。元論文 https://t.co/cHn4VMjv6v / “日本発の「プラスチックを食べる酵素」6倍“早食い”に リサイクルへの応用に期待(2020年9月30日)” https://t.co/uoYJ5EAMq9
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
Nice student readable intro to enzymatic degradation of plastic. "super enzyme" can break plastic down into original building blocks that can be recycled infinitely. More details but still very readable https://t.co/NIWsMDRcf1 Detailed PNAS paper https://t
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
RT @PNASNews: An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to…
An engineered chimeric enzyme may speed degradation of the plastic pollutant PET by linking MHETase and PETase, according to research published last week. In PNAS: https://t.co/s64DtrB4Oy https://t.co/h437crCcnN
#Journalclub Interesting structural insight in the domains and active sites of a PETase and MHETase which together decompose plastic to its raw materials. Fusion of the two proteins results in enhanced activity. https://t.co/mBhnwZTtDq