Litcius/Paper detail

Specific splice junction detection in single cells with SICILIAN

Roozbeh Dehghannasiri, Julia Olivieri, Ana Damljanovic, Julia Salzman

2021Genome biology23 citationsDOIOpen Access PDF

Abstract

Precise splice junction calls are currently unavailable in scRNA-seq pipelines such as the 10x Chromium platform but are critical for understanding single-cell biology. Here, we introduce SICILIAN, a new method that assigns statistical confidence to splice junctions from a spliced aligner to improve precision. SICILIAN is a general method that can be applied to bulk or single-cell data, but has particular utility for single-cell analysis due to that data's unique challenges and opportunities for discovery. SICILIAN's precise splice detection achieves high accuracy on simulated data, improves concordance between matched single-cell and bulk datasets, and increases agreement between biological replicates. SICILIAN detects unannotated splicing in single cells, enabling the discovery of novel splicing regulation through single-cell analysis workflows.

Topics & Concepts

spliceComputational biologyBiologySicilianAlternative splicingRNA splicingGeneticsComputer scienceGeneExonRNALinguisticsPhilosophySingle-cell and spatial transcriptomicsRNA Research and SplicingMolecular Biology Techniques and Applications