@anshulkundaje I’ve recently bumped into a model that would be super useful for something I’m trying to do. Guess what ? It’s patented: https://t.co/UEjECwZByH
RT @ColdBrewCookies: Deep learning with zinc fingers gets me all hot and bothered https://t.co/3NOKUSSYsc
RT @ColdBrewCookies: Deep learning with zinc fingers gets me all hot and bothered https://t.co/3NOKUSSYsc
Deep learning with zinc fingers gets me all hot and bothered https://t.co/3NOKUSSYsc
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
RT @NatureBiotech: Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
Ya tengo algo para el seminario de mi curso de biología sintética y edición de genomas. 🤓
Zinc finger design is facilitated with a deep-learning model https://t.co/k12YlQVhrd
A universal deep-learning model for zinc finger design enables transcription factor reprogramming #AI #ArtificialIntelligence #CRISPR (rival) #GenomeEditing https://t.co/mGj2VUkFhv
A universal deep-learning model for zinc finger design enables transcription factor reprogramming: https://t.co/17GnbDV1Nm
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming. in Nature Biotechnology (2023) https://t.co/CFnS0ZAXbd
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @RoyalVoxPost: #GenomicEngineering #Bioinformatics #AI: scientists have designed a deep learning model for zinc finger design that makes…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential therapeutic applications. A @NatureBiotech paper presents a deep-learning model that facilitates zinc finger design. https://t.co/h5SEb8vRiV h
A machine-learning method called ZFDesign can train zinc fingers to replace natural transcription factors, according to this research in @NatureBiotech: https://t.co/P6aZMNenbU. See more in Spotted: https://t.co/MrPze1a24Q
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
RT @BioDecoded: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology ht…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology https://t.co/ki08H4W6Ia #DeepLearning https://t.co/QxMcxeKByW
A machine-learning method called ZFDesign can train zinc fingers to replace natural transcription factors, according to this study in @NatureBiotech: https://t.co/P6aZMNenbU.
Fantastic application of deep learning. I will always have a soft spot in my heart for zinc fingers -while CRISPR has obvious advantages, for precision applications there is no better solution, both in terms of specificity and coding space, than a ZFP. h
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
TLDR; Garbage in, garbage out
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
To learn more about the technology and investing in the company formation process, contact @AmitDuvshani Read the full paper here: https://t.co/w8b4BB0y1I
RT @successprocess: Did you know Zinc Fingers are 8 times smaller than Cas9? In other news, great work from collaborator Marcus Noyes on tr…
RT @successprocess: Did you know Zinc Fingers are 8 times smaller than Cas9? In other news, great work from collaborator Marcus Noyes on tr…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @successprocess: Did you know Zinc Fingers are 8 times smaller than Cas9? In other news, great work from collaborator Marcus Noyes on tr…
RT @successprocess: Did you know Zinc Fingers are 8 times smaller than Cas9? In other news, great work from collaborator Marcus Noyes on tr…
Did you know Zinc Fingers are 8 times smaller than Cas9? In other news, great work from collaborator Marcus Noyes on transcription factor reprogramming! https://t.co/5w6HgHRAe5
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
Awesome work by David, Marcus and collaborators to better understand zinc finger biology. When everyone else zigged to CRISPR, these guys zagged - and what a result! https://t.co/3OKkkKm1oN
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology https://t.co/d8l8VHlchb
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
@Kolarovichrabe1 Ale to už někdo maloval ne? Teď vidím pecku v AI programování zinc fingeru, ale kreslit bych to nechtěl 😂 https://t.co/Eb9H04eZkq
RT @biodataguy: Really amazing work: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Na…
RT @biodataguy: Really amazing work: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Na…
RT @biodataguy: Really amazing work: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Na…
Really amazing work: A universal deep-learning model for zinc finger design enables transcription factor reprogramming | Nature Biotechnology #bioinformatics #deeplearning #machinelearning https://t.co/P2DyOEKqdg
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NaturePortfolio: Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential ther…
Zinc finger can provide an effective strategy for programmable regulation of gene expression, with many potential therapeutic applications. A @NatureBiotech paper presents a deep-learning model that facilitates zinc finger design. https://t.co/ChQQzaKiXb h
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
RT @NatureBiotech: A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/zBwHYTJeM…
A universal deep-learning model for zinc finger design enables transcription factor reprogramming https://t.co/uMMKaSjtiN https://t.co/u21eSAVhX9