RT @UCD_SBBS: SBBS Biochemistry graduate Harry Austin featured on RTÉ News as part of Portsmouth University's development of a plastic-eati…
Hope for biotechnology and microplastics: An enzyme system for PET degradation and catabolism, which appeared at recycling site prob. within the last 40 years, demonstrates the remarkable speed at which microbes can evolve. https://t.co/VHcMpp3LDr https://
プラスチックを「食べる」酵素、研究室で偶然作成 世界に広がるプラスチック汚染の解決策につながるか https://t.co/tKKJ5zWbh8 Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/6UwIgVkYyP
生物を痛めつけ生物に助けを求めるヒト。利用するにしても使い方が難しい。Jmolバイオレメディエーション https://t.co/O0S9BeJvtt https://t.co/pbOvVluVKU
#カガク。#環境。#生体分子。#分子。バイオレメディエーション(bioremediation)。PNAS“Characterization and engineering of a plastic-degrading aromatic polyesterase”https://t.co/CxaVSTLszX“Poly(ethylene terephthalate) hydrolase”。PET分解! 昨日公開のPDB 6EQD・6EQE・6EQF・6EQG・6EQH。
Científicos de la National Academy of Sciences descubren enzima capaz de degradar Tereftalato de Polietileno (PET), un tipo de plástico abundante en las botellas de agua. La enzima en cuestión es la PETasa de Ideonella... https://t.co/R3F8AeHzTj
RT @uchida_kawasaki: 論文のリンクが開けるようになっていた。 Characterization and engineering of a plastic-degrading aromatic polyesterase | PNAS https://t.co…
論文のリンクが開けるようになっていた。 Characterization and engineering of a plastic-degrading aromatic polyesterase | PNAS https://t.co/23n2VoW2Wo
RT @DrLeoRios: “Characterization and #engineering of a plastic-degrading aromatic polyesterase” Great potential for those plastic degrading…
RT @UCD_SBBS: SBBS Biochemistry graduate Harry Austin featured on RTÉ News as part of Portsmouth University's development of a plastic-eati…
RT @UCD_SBBS: SBBS Biochemistry graduate Harry Austin featured on RTÉ News as part of Portsmouth University's development of a plastic-eati…
SBBS Biochemistry graduate Harry Austin featured on RTÉ News as part of Portsmouth University's development of a plastic-eating enzyme that could revolutionise recycling. Links to segment & published report. @BiochemUCD@UCD_Research https://t.co/VK51cS
Syntetyczne polimery są wszechobecne we współczesnym świecie, ale stanowią globalny problem ekologiczny. Podczas gdy tworzywa sztuczne, takie jak poli (tereftalan etylenu) (PET) są wysoce uniwersalne, ich odporność na... https://t.co/SAgWNrSKg9
RT @PNASNews: Researchers engineer an improved plastic-degrading enzyme: https://t.co/IEJSzBXVgG Link to source article: https://t.co/ifQy…
Genetic engineering at its finest! https://t.co/hQZALeVWbR
RT @PNASNews: Researchers engineer an improved plastic-degrading enzyme: https://t.co/IEJSzBXVgG Link to source article: https://t.co/ifQy…
RT @PNASNews: Researchers engineer an improved plastic-degrading enzyme: https://t.co/IEJSzBXVgG Link to source article: https://t.co/ifQy…
Researchers engineer an improved plastic-degrading enzyme: https://t.co/IEJSzBXVgG Link to source article: https://t.co/ifQy3ddmlR
Developing synbio tools to minimize the footprint of human creations: https://t.co/BavG92uDUl
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/28uwaQCZaD
#Characterization and #engineering of a plastic-degrading aromatic #polyesterase #[ #Biochemistry ]..https://t.co/8intpYF74o
RT @bldgblog: Escapes lab, eats the world: “a newly discovered enzyme that can digest highly crystalline PET, the primary material used in…
RT @JRJudd: Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/s4UxjI1lvp This is very good news
PNASに発表された論文。 Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/ILlZy5vra5
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/s4UxjI1lvp This is very good news
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
Characterization and engineering of a plastic-degrading aromatic polyesterase | PNAS https://t.co/C1Y9StKimz
RT @bldgblog: Escapes lab, eats the world: “a newly discovered enzyme that can digest highly crystalline PET, the primary material used in…
https://t.co/tquSx59ETg nota de la nacion https://t.co/hLWXSApZOD articulo original (en ingles)
RT @starkmanly: invades oceans, colonizes garbage heaps, lays waste to human development, reclaims the world for the bacterial hordes.. htt…
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/EDKtrwpQnr
@bruncedric What’s even more amazing is that a bacterium discovered in a Japanese garbage dump had evolved a way to digest resilient PET plastic. They “merely” figured out its structure and engineered an incremental optimization to the enzyme. https://t.co
New enzyme discovered that can digest plastics! https://t.co/KBGTcdKsGd #plastics #plasticpollution #oceans
PETase, an enzyme digesting. Genetic engineer for degrading PET. Sounds very useful! Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/C4WiN5Q6nq
Article: Find out about a new #plastic devourer enzyme. @PNASNews https://t.co/vAgBf3BNxK https://t.co/XJ4LMJnmI8
プラスチックを「食べる」強力な酵素、米英チームが発見 https://t.co/DA0yPZCgDv 論文はこれ https://t.co/Kc0R5s16Dg オープンアクセスだから誰でも読めるよ。
RT @martiwag: Exciting: Engineered enzyme (PETase) optimized for PET degradation. Will this be the future of plastics recycling? #plasticpo…
Cool science. Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/KiTAKsZYhp
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/glGN2gDssL
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/TJ1dbM8sjW
All right! Now we're talking... ! Plastic-degrading aromatic polyesterase: A PET-Feeding enzyme 💚💙🌎💐 #green #life #Sustainability #NOW #nomoreplastic https://t.co/ReOTbPFh20
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/6QoBEAUfKP #SynBio
RT @DrLeoRios: “Characterization and #engineering of a plastic-degrading aromatic polyesterase” Great potential for those plastic degrading…
a huge step closer to enzymatic degradation of plastics, isn't it? #PETase Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/8pwmL5mRPp
How did groups from Plymouth and Florida engineer an enzyme to break down synthetic plastics? Have a read of their PNAS paper at https://t.co/Pd3O6rtR3c. Using engineered biological components to solve the world's problems sounds like a win for #synbio to
Once in a while, I get reminded of why the field I work in is amazing. https://t.co/g7JwxoGyub https://t.co/g7JwxoGyub
RT @Suz_Stelloo: Amazing! How accidents in science led to new discoveries!digestion of plastic #plasticpollution https://t.co/9yyEVm8AEx
RT @kunjapur: Nature figured out how to breakdown plastic, and now the researchers can engineer polyesterases for enhanced recycling! Anoth…
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
RT @martiwag: Exciting: Engineered enzyme (PETase) optimized for PET degradation. Will this be the future of plastics recycling? #plasticpo…
Shosuke Yoshida, from Keio University seems to have discovered a bacteria which actually digest PET! The bacteria might be then diffused in the ocean water to reduce plastic pollution. How cool is that? https://t.co/ZLXMvNSYIX https://t.co/LxH0tDomnR
Exciting: Engineered enzyme (PETase) optimized for PET degradation. Will this be the future of plastics recycling? #plasticpolution https://t.co/1VJTiWt4dj
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
RT @kunjapur: Nature figured out how to breakdown plastic, and now the researchers can engineer polyesterases for enhanced recycling! Anoth…
Link to published research article - https://t.co/YD5CWbuuax
Sin querer queriendo, científicos de Brasil y EEUU desarrollan una enzima que consume plástico. Podría ofrecer una solución a la catástrofe de contaminación plástica. https://t.co/RoIcw8bFo7
Amazing! How accidents in science led to new discoveries!digestion of plastic #plasticpollution https://t.co/9yyEVm8AEx
RT @rznagle: A newly discovered (accidentally invented?) bacteria that eats plastic: https://t.co/KLHORbnXj2
RT @AgBioWorld: @Foortography Brian, enzyme was produced from #GMO bacteria but because it is a product and not a living organism, it is no…
RT @rznagle: A newly discovered (accidentally invented?) bacteria that eats plastic: https://t.co/KLHORbnXj2
RT @esargent184: Full paper is linked below. Worth explaining to students that when they say plastic here they actually only mean poly(ethy…
Nature figured out how to breakdown plastic, and now the researchers can engineer polyesterases for enhanced recycling! Another useful intersection of the #environment and #GMO https://t.co/4dCVLAANA8
@NREL Research published in @PNASNews: https://t.co/dj8WhVOwY7
RT @alexisrebdo: Crearon accidentalmente una enzima mutante que come botellas de plástico: https://t.co/VBDeVR66mf
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
Environmental breakthrough comes from discovery of a natural enzyme that degrades the common plastic PET. Two mutations improve the breakdown. Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/z02g4xQHEW
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/eevTe9ApM6
@andretrig @julibelko 4) O artigo de pesquisa (Creative Commons <3) tá aqui ó: https://t.co/o8VuEssqbT
... and to know how this enzyme is secreted 😉 https://t.co/d2bQBKyMw4
RT @PabloINik: An authentic breakthrough article by @gregg_beckham @nrel on engineering a plastic-degrading aromatic polyesterase. Can't wa…
RT @DanielKielback: A new enzyme has been created that consumes Poly Ethylene! https://t.co/CU9Ri5fRpL https://t.co/WGPbKTqa7r
RT @DavidThomasCFA: Would love to see a directed evolution lab evolve this plastic eating enzyme for scalable #recycling - PNAS paper sugge…
RT @jitunmr: Characterization and engineering of a plastic-degrading aromatic polyesterase @DiamondLightSou Power of Structural biology h…
Would love to see a directed evolution lab evolve this plastic eating enzyme for scalable #recycling - PNAS paper suggests "PETase" is ready for change: https://t.co/KovLpuhSvf ...maybe @FrancisArnold? (ICYMI: BBC article here --> https://t.co/AGMEDx5q
RT @DrLeoRios: “Characterization and #engineering of a plastic-degrading aromatic polyesterase” Great potential for those plastic degrading…
RT @alexisrebdo: Crearon accidentalmente una enzima mutante que come botellas de plástico: https://t.co/VBDeVR66mf
@seeteegee Full article: https://t.co/ektPchgN9E
Full paper is linked below. Worth explaining to students that when they say plastic here they actually only mean poly(ethylene terephthalate) (PET), which is #1 if you're used to recycling notation, and that the digestion process is highly controlled. http
結晶性ポリエチレンテレフタレートを分解する酵素の構造解析と改変。クチナーゼとリパーゼに似た構造を持つ。Greggさん、イケイケだな。分子モーターにできないかな。Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/7rBrD2kswn
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
PET分解酵素って見つかったの?(;゚Д゚) https://t.co/Z4K70ZWVYp
@randall_rmartin @Synthon61 @Susanfreinkel Here's a link to the paper from @portsmouthuni and others on engineered PETase that chews fleeces and bottles. They reckon they can chew highly crystalline domains, which is important. https://t.co/uFIukwj8xf
RT @ptu_us_es: Enzima que degrada plástico https://t.co/ifInFgpLBx
Enzima que degrada plástico https://t.co/ifInFgpLBx
RT @gregg_beckham: Our work on plastics biodegradation #PETase led by @NREL @portsmouthuni @USouthFlorida is published @PNASNews https://t.…
Find the original article at https://t.co/lyYceJX15B https://t.co/PgFn1Txttp
RT @OrenoSource: プラスチックを消化分解する酵素、研究過程で偶然作製 https://t.co/RdO7MeWq5z PETaseの構造解析とクチナーゼの知見を利用した作用部位の改変により高効率PETaseを作製 PNAS原著↓ https://t.co/2…
@sonarfm @rafa_cavada @patriciavenegas Miren amigos, creo es la mejor noticia del siglo!!!! https://t.co/VDueBycRJu
RT @chemunicate: Researchers refine plastic-digesting bacteria enzyme #ChemMonthly 📰 Article: https://t.co/Tc5Xa9tj3q 📔 Study: https://t.co…
RT @starkmanly: invades oceans, colonizes garbage heaps, lays waste to human development, reclaims the world for the bacterial hordes.. htt…
RT @PabloINik: An authentic breakthrough article by @gregg_beckham @nrel on engineering a plastic-degrading aromatic polyesterase. Can't wa…
Here's the link to the PNAS article about the enzyme if anyone is interested! https://t.co/vPZPde9bWq
RT @PabloINik: An authentic breakthrough article by @gregg_beckham @nrel on engineering a plastic-degrading aromatic polyesterase. Can't wa…
Characterization and engineering of a plastic-degrading aromatic polyesterase https://t.co/dDC2DwsXEF
RT @PabloINik: An authentic breakthrough article by @gregg_beckham @nrel on engineering a plastic-degrading aromatic polyesterase. Can't wa…
@yletiede Tulee mieleen James Bond-leffa jossa veteen sekoitettiin ihmisen muumioivia pöpöjä. Mitä nämä entsyymin pilkkomat tuotteet bis(2-hydroxyethyl)-TPA (BHET), MHET, and TPA. MHETase converts MHET to TPA and EG sitten saa aikaan? https://t.co/J7onn0wb
RT @jitunmr: Characterization and engineering of a plastic-degrading aromatic polyesterase @DiamondLightSou Power of Structural biology h…
Enzima sao aceleradores das reacoes bioquimicas. A descoberta de bacterias que comem plasticos abriu grandes possibilidades para a degradacao biologia desses materiais que normalmente levariam ate 400 anos para... https://t.co/KJZKinhfZD