RT @anshulkundaje: A must read for folks developing computational methods for enh-promoter interactions. Note how supervised ML methods tra…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @anshulkundaje: A must read for folks developing computational methods for enh-promoter interactions. Note how supervised ML methods tra…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @anshulkundaje: A must read for folks developing computational methods for enh-promoter interactions. Note how supervised ML methods tra…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
A must read for folks developing computational methods for enh-promoter interactions. Note how supervised ML methods trained naively on HiC derived loops/interactions totally tank. HiC is a very important constraint for linking but terrible as training lab
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
Is predicting enhancer-gene regulatory pairs as easy as ABC?
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @jengreitz: Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genom…
RT @generegulation: The first author @FulcoCharles provides more details in the thread below: https://t.co/gQU9W7kkMC
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
Our latest is on bioRxiv: https://t.co/YFyVGJGTQ0 Q: Can we predict which enhancers regulate which genes in the human genome? A: Multiply enhancer Activity by Contact (ABC) Thread 👇
RT @generegulation: The first author @FulcoCharles provides more details in the thread below: https://t.co/gQU9W7kkMC
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
The first author @FulcoCharles provides more details in the thread below: https://t.co/gQU9W7kkMC
@hms_sysbio PhD student @fulcocharles used hundreds of thousands of crispr perturbations across nearly a thousand REs to map enhancer-promoter interactions. These data underpin a general model of E-P connectivity.
RT @FulcoCharles: Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
Excited to share our latest work! Q: Can we predict which enhancers regulate which genes in which cell types? With @eric_lander @jengreitz and more! https://t.co/ZfQJVqDqUK
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
The blood, sweat, and tears that Charlie and his team put into getting FlowFish to work at scale is truly impressive.
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @biorxivpreprint: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/vApU2rvBlg #bio…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @westr: Activity-by-Contact model of #enhancer specificity from thousands of #CRISPR perturbations https://t.co/WutkxWSzfB #generegulati…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
Activity-by-Contact model of #enhancer specificity from thousands of #CRISPR perturbations https://t.co/WutkxWSzfB #generegulation with the goal of ID’ing noncoding regulatory mutation-coding gene relationships important in #precisionmedicine
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
dat PRC
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…
RT @mc_monte_cristo: It's up! This paper introduces a powerful strategy for finding enhancers for arbitrary genes (not just ones with selec…
RT @generegulation: Activity-by-Contact model of enhancer specificity from thousands of CRISPR perturbations https://t.co/bChISR02AE Enhanc…