Reverse Dependencies of episcanpy

The following projects have a declared dependency on episcanpy:

• bio-present — Cross-modality representation and multi-sample integration of spatially resolved omics data
• cell-tools — cell_tools - Analysis Tools for Single-Cell Data
• epiaster — ASTER: accurate estimation of cell-type numbers in single-cell chromatin accessibility data
• epicarousel — EpiCarousel: memory- and time-efficient identification of metacells for atlas-level single-cell chromatin accessibility data
• epicascade — CASCADE: a scCAS cell type annotation method dedicated to differentiating and imbalanced types
• multikano — MultiKano: an automatic cell type annotation tool for single-cell multi-omics data based on Kolmogorov–Arnold network and data augmentation
• ressac — Resnet based single-cell ATAC-seq clustering
• sc-var — An approch for interpreting disease-associated human variants using single-cell epigenomics
• scale-atac — Single-Cell ATAC-seq Analysis via Latent feature Extraciton
• scale-v2 — Single-cell integrative Analysis via Latent feature Extraction
• scButterfly — A versatile single-cell cross-modality translation method via dual-aligned variational autoencoders
• scCASE — no summary
• sccastle — single-cell Chromatin Accessibility Sequencing data analysis via discreTe Latent Embedding
• sccross — Single cell multi-omics cross modal generation, multi-omics simulation and perturbation
• scFountain — Rigorous integration of single-cell ATAC-seq data using regularized barycentric mapping
• scmultikano — MultiKano: an automatic cell type annotation tool for single-cell multi-omics data based on Kolmogorov–Arnold network and data augmentation
• scrainbow — RAINBOW: accurate cell type annotation method via contrastive learning and reference guidance for scCAS data
• scReGAT — A GAT-based computational framework to predict long-range gene regulatory relationships