Batch correcting single-cell spatial transcriptomics count data with Crescendo improves visualization and detection of spatial gene patterns. Read more about Batch correcting single-cell spatial transcriptomics count data with Crescendo improves visualization and detection of spatial gene patterns.
In vivo perturb-seq of cancer and microenvironment cells dissects oncologic drivers and radiotherapy responses in glioblastoma. Read more about In vivo perturb-seq of cancer and microenvironment cells dissects oncologic drivers and radiotherapy responses in glioblastoma.
Comprehensive network modeling approaches unravel dynamic enhancer-promoter interactions across neural differentiation. Read more about Comprehensive network modeling approaches unravel dynamic enhancer-promoter interactions across neural differentiation.
Rosace: a robust deep mutational scanning analysis framework employing position and mean-variance shrinkage. Read more about Rosace: a robust deep mutational scanning analysis framework employing position and mean-variance shrinkage.
deMULTIplex2: robust sample demultiplexing for scRNA-seq. Read more about deMULTIplex2: robust sample demultiplexing for scRNA-seq.
Current challenges and future of agricultural genomes to phenomes in the USA. Read more about Current challenges and future of agricultural genomes to phenomes in the USA.
GCLiPP: global crosslinking and protein purification method for constructing high-resolution occupancy maps for RNA binding proteins. Read more about GCLiPP: global crosslinking and protein purification method for constructing high-resolution occupancy maps for RNA binding proteins.
STmut: a framework for visualizing somatic alterations in spatial transcriptomics data of cancer. Read more about STmut: a framework for visualizing somatic alterations in spatial transcriptomics data of cancer.
Loss of MLL3/4 decouples enhancer H3K4 monomethylation, H3K27 acetylation, and gene activation during embryonic stem cell differentiation. Read more about Loss of MLL3/4 decouples enhancer H3K4 monomethylation, H3K27 acetylation, and gene activation during embryonic stem cell differentiation.
DIMPLE: deep insertion, deletion, and missense mutation libraries for exploring protein variation in evolution, disease, and biology. Read more about DIMPLE: deep insertion, deletion, and missense mutation libraries for exploring protein variation in evolution, disease, and biology.