NEW #LMBpublications Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase-tRNA pairs.https://t.co/6ZhnkqXZRh
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
Molecular lego bricks falling into place !. The PylRS system again shows how versatile it can be in this new study. Between this work & the recent jason chin lab papers there are now more exciting routes to expand the genetic code https://t.co/wv45fRJ4
👀 What we're reading (when we're not reading about covid): This @NatureBiotech paper from the Chin lab reports a new strategy called tREX to determine tRNA aminoacylation status in vitro and identify new orthogonal tRNA/aaRS pairs 🦖 #ChemicalMatters https
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @MRC_LMB: Exciting advances in #geneticCodeExpansion from the Chin lab 🧪🧬 https://t.co/XSyKfER3ea
RT @MRC_LMB: Exciting advances in #geneticCodeExpansion from the Chin lab 🧪🧬 https://t.co/XSyKfER3ea
New from @LMB_PhD Daniele Cervettini @MRC_LMB and the Chin lab. Nice work.🧬⚗️🖊️ https://t.co/wQrqJBeoMD https://t.co/YTXGklBYM5
This was a super cool paper to read!
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
Exciting advances in #geneticCodeExpansion from the Chin lab 🧪🧬
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
RT @fried_lab: Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we…
Super excited that our story is finally out in .@NatureBiotech! By combining bioinformatics with a new screening method, we have upped the number of orthogonal tRNA/synthetase pairs for #geneticCodeExpansion from 3 to 8!! https://t.co/VqZFXcSLb5. #FriedLa
RT @mighty_tora: Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類…
RT @mighty_tora: Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類…
RT @mighty_tora: Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類…
RT @mighty_tora: Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類…
RT @mighty_tora: Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類…
Jason Chinによる、直交aaRS–tRNA pairsの網羅的探索。最終的には、既存のものも含め、8つの直交aaRS–tRNA pairsが利用可能になっている。コドンテーブルを整理した人工大腸菌の創製も進んでいるし、近い将来、数十種類のアミノ酸を利用可能な生き物を創れそうですね。(1/2) https://t.co/07PvoFpHqk
RT @StephanHacker2: Paper by the group of Jason Chin in @naturemethods. A screening platform for the aminoacylation status of tRNAs (tREX)…
RT @StephanHacker2: Paper by the group of Jason Chin in @naturemethods. A screening platform for the aminoacylation status of tRNAs (tREX)…
RT @StephanHacker2: Paper by the group of Jason Chin in @naturemethods. A screening platform for the aminoacylation status of tRNAs (tREX)…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @BrettGarabedian: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs | Nature Biotechnology https://t.co/J…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs | Nature Biotechnology https://t.co/JoruHl8mpm
RT @Van_DeventerJim: This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA s…
This article by Jason Chin and coworkers describes a powerful strategy for identifying new orthogonal aminoacyl-tRNA synthetase/tRNA pairs. This is important for massively expanding the genetic code in cells beyond the canonical amino acids. 1/2 https://t.
From Apr 17th: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs. Spectacular effort by Jason Chin an his team on how to go from computationally-identified candidates to functional orthogonal tRNA–cognate aaRS pairs in vivo.
NEW #LMBpublications Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase-tRNA pairs.https://t.co/6ZhnkqXZRh
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
RT @NatureBiotech: Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn…
Rapid discovery and evolution of orthogonal aminoacyl-tRNA synthetase–tRNA pairs https://t.co/JGK3rFYZF5 https://t.co/dn1setvH6b