#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
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…
Today's #shoutout to #womenInSTEM goes to Erika Erickson for her team paper @PNAS on characterization and engineering of a two-#enzyme system for plastics depolymerization. #plasticfree https://t.co/FJJmhftH3z
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
RT @fiona_chembot: @taarique94 yes!! i was an author on that paper!! here's the full length article! (all open access) https://t.co/zoBzblL…
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/RHNozD2ezF
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
@taarique94 yes!! i was an author on that paper!! here's the full length article! (all open access) https://t.co/zoBzblLoql
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/GQN934HEuj
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
A recycling strategy would be a 45% reduction- still higher than current emissions. A genetically-modified super enzyme may slightly reduce polluyion, however it's unlikely that the bacteria would function in environmental scenarios at meaningful rates.
RT @CEI_UoP: Latest research from our @McGeehanJohn in @PNASNews: MHETase:PETase chimeras exhibit improved PET turnover relative to the fre…
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
RT @CEI_UoP: Latest research from our @McGeehanJohn in @PNASNews: MHETase:PETase chimeras exhibit improved PET turnover relative to the fre…
@Skhattaf لمن يبحث عن معلومات زيادة للانزيم هذا رابط بحث https://t.co/DryryVl4Zy
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
RT @Science_Release: ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of…
[画像引用元] 全て元論文より https://t.co/1CBn6dhAQ6
ペットボトルの原料「PET (ポリエチレンテレフタラート)」を分解できる2種類の酵素を組み合わせると、単独の最大6倍もの高速でPETを分解できる事が分かったよ! Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/1CBn6dhAQ6
RT @mikehough73: Here's the paper itself https://t.co/ZSoAiYRtc8
RT @MixUp_H2020: Great piece of work demonstrating the power of enzymes and that we are getting closer to biological recycling of #plastic…
@warlopf Lien vers la publication: https://t.co/9tKFE7y7tp
Onderzoekers hebben uit bacteriën een super-enzym ontwikkeld dat plastic kan afbreken. Het mooie: dit enzym kan binnenkort al ingezet worden om plastic te recyclen! Referentie: https://t.co/kTlE9Co2Tv https://t.co/2FQvNUTuRS
Characterization and engineering of a two-enzyme system for plastics depolymerization Knott et al, @PNASNews https://t.co/MSxhh0mHfF
@idregulargirl @MBMicrobiology Here is a link to the paper. https://t.co/SUsepEtzj6
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
RT @Luis_I_Gomez: Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymeriz…
Vamos a "digerir" la basura plástica -> Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/47WLQKztZG
ほんとそこなんだよね。
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
RT @ichiipsy: 米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.c…
米国科学アカデミー紀要(PNAS)の報告によれば、従来の常識を覆すような速さでプラスチックを「食べる」酵素が発見されたようだ。論文によれば、酵素同士を組み合わせることにより、通常の数倍の速さでプラスチックの分解が可能らしい。 https://t.co/Ijq6IluhQv
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/oXfssoLD2z
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Una bacteria posibilita la descomposición (y reciclado) de los plástico PET. https://t.co/b3mUsqaUvZ #conocimiento #científico
RT @LOrion: Linked #superenzyme too large for a bacterium to create So scientists connected two enzymes in lab and saw a further tripling o…
Linked #superenzyme too large for a bacterium to create So scientists connected two enzymes in lab and saw a further tripling of speed. New research by scientists at the UPortsmouth and four US institutions is published by #NAS https://t.co/plXjasWfZN @mad
Giant step for the much-needed future efforts in the biological deconstruction and upcycling of mixed plastics by @McGeehanJohn & @CEI_UoP with their research on a two-enzyme (PETase + MHETase) PET depolymerization to monomers system https://t.co/B7MJI
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/tPCDXMsBQa
I. sakaiensis菌は2種類の酵素でPETを分解する。PETaseとMHETaseである。一昨日発表の次の論文では後者のカラクリの解明と共に両者のキメラ合体を合成したことで分解能力の向上を示した。分解産物のエチレングリコールの動画S3は特に可愛い。 https://t.co/aPb0kcp1qA #プラごみ #環境問題
RT @mikehough73: Here's the paper itself https://t.co/ZSoAiYRtc8
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
👋 @rike_mw
RT @Rach_remediates: Molecular upcycling! https://t.co/u9iE51gD8F
RT @druselabs1: https://t.co/XxNrIqiKcx Characterization and engineering of a two-enzyme system for plastics depolymerization by Brandon Kn…
https://t.co/XxNrIqiKcx Characterization and engineering of a two-enzyme system for plastics depolymerization by Brandon Knott (et al.) John McGeehan #crystallography #crystallization #crystals
Biotechnology that breaks down the material of plastic packaging (maybe even bags, I have to check) is an important breakthrough bc these filmy plastics cannot be cut down to smaller pieces &be used again. They burn at the earliest stage a machine trie
Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS https://t.co/JImGJPHrVw
Characterization and engineering of a two-enzyme system for plastics depolymerization - https://t.co/NQRhwjxLuN
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/RtDd7m4M3A
Characterization and #engineering of a two-#enzyme system for #plastics depolymerization https://t.co/zg5xEG11Wr
This is a huge way forward.
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/7ZMkFeatno
This is so amazing! So proud I had the chance, although for a very brief period of time, to work for you guys!
Crystallography helping out with the plastic crisis. #circulareconomy
Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS / any concern about side effects? #Recycle #plastics #enzymes #science https://t.co/HDXELPXgQk
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Good news on decreasing plastic pollution- Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS https://t.co/5zHGzzMV1Z
Science has taken us one step closer to a safer sustainable world. Read up the complete work. https://t.co/6EdxbQ7FZW
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Characterization and engineering of a two-enzyme system for plastics depolymerization https://t.co/jdGafC1Rpf
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
I hope I can still find a job as a chemist after sharing this story. 😅 However, I hate that I fell so hard for the sorting triangles. If the aforementioned companies truly care, pour money into this research: https://t.co/A6NYg4D9Yj #PNAS #environment #Bi
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
RT @MixUp_H2020: Great piece of work demonstrating the power of enzymes and that we are getting closer to biological recycling of #plastic…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS https://t.co/9gIhSGAyLX
“Characterization and engineering of a two-enzyme system for plastics depolymerization | PNAS“ https://t.co/SVlAgwKbQA
RT @MixUp_H2020: Great piece of work demonstrating the power of enzymes and that we are getting closer to biological recycling of #plastic…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Great piece of work demonstrating the power of enzymes and that we are getting closer to biological recycling of #plastic #biorecycling https://t.co/53dPjPXdsA
RT @mikehough73: Here's the paper itself https://t.co/ZSoAiYRtc8
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
Biology to the rescue-Characterization and engineering of a two-enzyme system for plastics depolymerization:https://t.co/B5G4MPoL1f
RT @MelanieBergma18: Here's the link to the PNAS study 🔽 https://t.co/PNRvOx6Ie2
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
RT @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…
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 @marcvanderkamp: Faster plastic degrading #enzymes reported by McGeehan @portsmouthuni including crystallography, & MD + #qmmm #compchem…