RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
21st Century
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @torusengoku: これはすごい https://t.co/1chVTLLYbB 全残基の 58%についてそれなりの信頼度 36%についてかなりの信頼度
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @utokawa: Highly accurate protein structure prediction for the human proteome AlphaFoldの新作論文 https://t.co/7cYqTVOJk3
My kids are arguing and I’m just happily looking up my favorite proteins …Highly accurate protein structure prediction for the human proteome 👩🔬 https://t.co/nlhR1Sk4R9
RT @saakohl: We're also releasing a colab to facilitate usage of #AlphaFold and a 2nd @Nature paper detailing the human proteome prediction…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @amjjbonvin: For those of you playing with @DeepMind #alphafold2 - check the site that just went life at the @emblebi @PDBeurope - http…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @emeKato: 話に聞いていたhuman proteome (ヒトの98.5%のタンパク質構造予測)の構造予測論文が出たみたいです。(EMBL-EBIと一緒の仕事。)ただ、databaseは落ちてるみたいですね(?) https://t.co/fmpA3ZjDg4
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @saakohl: We're also releasing a colab to facilitate usage of #AlphaFold and a 2nd @Nature paper detailing the human proteome prediction…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
This may potentially yield a @NobelPrize for @demishassabis https://t.co/zU7Ml8j6vK
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @souyakuchan: #AlphaFold 2、早速の続編(ヒトプロテオーム全部やってみた) Highly accurate protein structure prediction for the human proteome (Nature) https://…
RT @torusengoku: これはすごい https://t.co/1chVTLLYbB 全残基の 58%についてそれなりの信頼度 36%についてかなりの信頼度
RT @tonets: AlphaFold2、Natureかと思ったらNature 2本だった。まじかよ。 Highly accurate protein structure prediction for the human proteome | Nature https:/…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @IPCapitalPart: 4/4 Cientistas já usam a descoberta para buscar, por exemplo, enzimas capazes de quebrar o plástico, com potencial para…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
Highly accurate protein structure prediction for the human proteome | Nature. Great advance! https://t.co/pb3k8zU890
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
这件事将引发生物学和医学 的一场革命 对医学的影响,或许会超过人类基因组计划 https://t.co/jYKhZ1fBXR
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
🔥🔥est news of the day!
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @iScienceLuvr: An additional paper was released: https://t.co/ALGR5bfpif And a Colab notebook for prediction on custom structures: http…
RT @tonets: AlphaFold2、Natureかと思ったらNature 2本だった。まじかよ。 Highly accurate protein structure prediction for the human proteome | Nature https:/…
RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @StearnsLab: This is astounding. Enter your protein (human and some other organisms) and get predetermined structures predicted by Alpha…
RT @4TotDtXKek2lkfV: AlphaFoldにより、様々な生物の合計1億3000万種類の蛋白質の立体構造がデータベース化! 実験でわかっていたヒト蛋白質の構造は17%だったが、本研究は98.5%まで拡張(高精度予測に限っても36%まで拡張)。 AlphaFo…
論文はヒト蛋白だけど、データベースにはC. elegansも入っている!!すごい!ありがたい! https://t.co/xBK0J5otS2
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
BIOC3653 #okstate
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
@_Fakido
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
Categorized: https://t.co/fEYVyZjbdL
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @amjjbonvin: For those of you playing with @DeepMind #alphafold2 - check the site that just went life at the @emblebi @PDBeurope - http…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @tonets: AlphaFold2、Natureかと思ったらNature 2本だった。まじかよ。 Highly accurate protein structure prediction for the human proteome | Nature https:/…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @radhadesai: Highly accurate protein structure prediction for the human proteome | Nature #breakthrough !! https://t.co/mNhB8InobK
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
link to the paper: https://t.co/Sk9L2wWlrv
4/4 Cientistas já usam a descoberta para buscar, por exemplo, enzimas capazes de quebrar o plástico, com potencial para reduzir a poluição no meio ambiente. O paper completo foi publicado pela “Nature” e está disponível aqui: https://t.co/HdWC0Ggac6
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @NaturePortfolio: A @Nature paper describes the production of accurate structure predictions of the human proteome, the complete set of…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @souyakuchan: #AlphaFold 2、早速の続編(ヒトプロテオーム全部やってみた) Highly accurate protein structure prediction for the human proteome (Nature) https://…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…
RT @OlivierDuss: Almost all human (single-domain) protein structures predicted by AlphaFold (many with high confidence) now freely availabl…
RT @EricTopol: One of the most important advances in the history of life science today combines deep learning #AI, the human proteome, #ope…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…
RT @souyakuchan: 予測構造ハイライト 1. Glucose-6-phosphatase: membrane-bound 酵素。 2. Diacylglycerol O-acyltransferase 2: 脂質代謝酵素。既知の阻害剤をドッキング可能な cavit…