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Single cell and spatial alternative splicing analysis with Nanopore long read sequencingopen access

Authors
Fu, YuntianKim, HeonseokRoy, SharmiliHuang, SijiaAdams, Jenea I.Grimes, Susan M.Lau, Billy T.Sathe, AnujaJi, Hanlee P.Zhang, Nancy R.
Issue Date
Jul-2025
Publisher
Nature Publishing Group
Keywords
Protein Isoforms; 4 Aminobutyric Acid Receptor; Isoprotein; Data Set; Gene Expression; Heterogeneity; Pipeline; Quantitative Analysis; Statistical Analysis; Alternative Rna Splicing; Animal Cell; Animal Tissue; Article; Base Pairing; Cell Differentiation; Cell Heterogeneity; Cell Population; Controlled Study; Data Quality; Dna Barcoding; Dna Library; Embryo; Exon; Glutamatergic Neuron; Histogram; Human; Human Cell; Illumina Sequencing; Indel Mutation; Jurkat Cell Line; Maximum Likelihood Method; Measurement Accuracy; Metastatic Colorectal Cancer; Molecular Dynamics; Mouse; Nanopore Sequencing; Neuroblast; Nonhuman; Olfactory Bulb; Sequencing Error; Single Cell Analysis; Single Cell Rna Seq; Bioinformatics; Genetics; High Throughput Sequencing; Nanopore; Procedures; Rna Sequencing; Alternative Splicing; Computational Biology; High-throughput Nucleotide Sequencing; Humans; Nanopore Sequencing; Nanopores; Protein Isoforms; Sequence Analysis, Rna; Single-cell Analysis
Citation
Nature Communications, v.16, no.1, pp 1 - 20
Pages
20
Indexed
SCIE
SCOPUS
Journal Title
Nature Communications
Volume
16
Number
1
Start Page
1
End Page
20
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208409
DOI
10.1038/s41467-025-60902-2
ISSN
2041-1723
2041-1723
Abstract
Long-read sequencing boosts alternative splicing analysis but faces technical and computational barriers in single-cell and spatial settings. High Nanopore error rates compromise cell barcode and UMI recovery, while read truncation and misalignment undermine isoform quantification. Downstream, a statistical framework to assess splicing variation within and between cells or spatial spots is lacking. We introduce Longcell, a statistical and computational pipeline for isoform quantification from single-cell and spatially barcoded Nanopore long reads. Longcell efficiently recovers cell barcodes and UMIs, corrects sequencing errors, and models splicing diversity within and between cells or spots. Applied across multiple datasets, Longcell allows accurate identification of spatial isoform switching. Longcell also reveals widespread high intra-cell isoform heterogeneity for highly expressed genes. Finally, on a perturbation experiment for 9 splicing factors, Longcell identifies regulatory targets that are validated by targeted sequencing.
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