The article I was reading where I found this https://t.co/6EH6GNb96K. It's a good read!
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/Mmc1Ud46XZ
@hcorrada @ongenetics Thanks for the comparison with SUPPA2: perhaps you can update the references? :-) biorxiv -> https://t.co/CDw3rwyBw1 & https://t.co/OdMePzMDHo
@beryl_bbc @mikelove I agree. Not clear always how to match up events. We had to do some careful processing of rMATS, MAJIQ and DEXSeq to match them up to SUPPA events. Not trivial. Please see methods here https://t.co/UkxMARuvRR
@mikelove @beryl_bbc Good point. In table S12 of our paper https://t.co/UkxMARuvRR you have the matched events with their corresponding p-values and deltaPSI or fold-changes.
RT @EduEyras: @JamesPBLloyd @BethSignal @beryl_bbc we did a comparison with SUPPA, rMATS, MAJIQ and DEXSeq https://t.co/UkxMARuvRR and vali…
RT @EduEyras: @JamesPBLloyd @BethSignal @beryl_bbc we did a comparison with SUPPA, rMATS, MAJIQ and DEXSeq https://t.co/UkxMARuvRR and vali…
RT @EduEyras: @JamesPBLloyd @BethSignal @beryl_bbc we did a comparison with SUPPA, rMATS, MAJIQ and DEXSeq https://t.co/UkxMARuvRR and vali…
@JamesPBLloyd @BethSignal @beryl_bbc we did a comparison with SUPPA, rMATS, MAJIQ and DEXSeq https://t.co/UkxMARuvRR and validated by RT-PCR significant changes called only by SUPPA
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/X32WuP8TJs
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/glTdWW6xHr
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/NMjV1gllll
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/pIZjUTrLVf
RT @imohorianu: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/jhIVaJ…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @GenomeBiology: Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @GenomeBiology: Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They…
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/jhIVaJRwN9
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @GenomeBiology: Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @GenomeBiology: Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
RT @EduEyras: SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuv…
SUPPA2: fast, accurate, and uncertainty-aware differential splicing analysis across multiple conditions https://t.co/UkxMARuvRR
RT @GenomeBiology: Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They…
Trincado, Entizne, @EduEyras and co present SUPPA2, a method for identifying differential splicing in RNA-seq data. They find novel exons and intron retention events. https://t.co/49NmsB1UXe