RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
👍 いろんなことに応用できそう。 特許だね。 https://t.co/vYBxIg6bhl
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
RT @benenen12345: リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成…
すごいー!
リポソーム内のpHを制御する系の開発 光駆動の内向きプロトンポンプを過剰発現させた大腸菌をリポソーム内に包埋し、光依存的にpHを上げることに成功した その系と膜にアンカーしたDNAオリガミを組み合わせ、光駆動でリポソームを変形させることにも成功した #BNTNJC https://t.co/X9qd0vn7pE
RT @KGoepfrich: Kevin will soon present our work on DNA nanotechnology for #synbio @ebsa_in! We'll be happy to hear what you think. And: we…
RT @KGoepfrich: Kevin will soon present our work on DNA nanotechnology for #synbio @ebsa_in! We'll be happy to hear what you think. And: we…
RT @KGoepfrich: Kevin will soon present our work on DNA nanotechnology for #synbio @ebsa_in! We'll be happy to hear what you think. And: we…
RT @KGoepfrich: Kevin will soon present our work on DNA nanotechnology for #synbio @ebsa_in! We'll be happy to hear what you think. And: we…
This afternoon I will present at the EBSA2021 @ebsa_in about our recently published paper on the deformation of GUVs with DNA origami (https://t.co/j6Ol3WViDH) and our ongoing work towards DNA-based cytoskeletons! Looking forward to seeing you there! https
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @mpi_mr_hd: Publication: https://t.co/e6m6R8XYaN
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
Publication: https://t.co/e6m6R8XYaN
RT @mattertolife: Congratulations on this new publication by @KGoepfrich in collaboration with MtL Fellow Joachim Spatz👏 We are excited tha…
Use light to change pH in #droplets to control DNA assemblies #SynBio @NatureComms https://t.co/czc2yk23Iz
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/moE0Tyr1Pl
guck mal, was sie alles können... das haben die #gatekeeper rund um #CoronaVirus sensationell hingebracht: über die wichtigen themen nicht reden zu müssen (so?) #WHOwikipedia #ZDFwikipedia ist #OpenWikipedia - KEINE "freie enzyklopädie" mehr...
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @ryotaiino: Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/ATR97MOJO3
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @ryotaiino: Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/ATR97MOJO3
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/O6kfX569dX
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @SiddhuLab: Cool work by @KGoepfrich combining top-down with bottom-up, why not!
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @ryotaiino: Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/ATR97MOJO3
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/ATR97MOJO3
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/yd8tynG8EQ
Great work of @KGoepfrich and team. Congratulations.
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
Cool work by @KGoepfrich combining top-down with bottom-up, why not!
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells | Nature Communications https://t.co/pzLe49fnx8
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/FFSFVy89sr nanotechnology https://t.co/LknzOqZHuO
RT @mattertolife: Congratulations on this new publication by @KGoepfrich in collaboration with MtL Fellow Joachim Spatz👏 We are excited tha…
Congratulations on this new publication by @KGoepfrich in collaboration with MtL Fellow Joachim Spatz👏 We are excited that Kerstin will be joining us in October as part of the #mattertolife Faculty!
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
わぁ、凄い技術がたくさん出てくる Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/VvQP8qup8T
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @nanotrac: Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/EZbkwPxN1A Nanoscience…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KeJahnke: In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the c…
In our new work, we realise a sophisticated signalling pathway between natural and synthetic cells! A big thanks to all the collaborators! @mpi_mr_hd @KGoepfrich @Cluster3DMM2O @ETH_bsse @NatureComms https://t.co/j6Ol3WViDH https://t.co/fZxgjQTWmp
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/EZbkwPxN1A Nanoscience and technology @NatureNano #Nanoscience #Technology this is #Nature https://t.co/pNskRDT4FG
Proton gradients from light-harvesting E. coli control DNA assemblies for synthetic cells https://t.co/akd1nFzfDn https://t.co/95YB6Gq1Wi
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
RT @KGoepfrich: Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DN…
New Cluster paper by @KeJahnke as well as Cluster PIs Rasmus R. Schröder, Joachim P. Spatz and @KGoepfrich alongside others. Congratulations! 👏👇
Congrats to @KeJahnke, @KGoepfrich and colleagues!
Now @NatureComms: We realize a reaction pathway for synthetic cells that involves light-harvesting E. coli, pH-sensitive DNA origami and lipid vesicles https://t.co/GWnUjvcKdO https://t.co/Gc6PFIv7qU