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Main Authors: Witoslawski, Daniel, Aquino, Jelard, He, Chuanchuan, Han, Mira V.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.05992
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author Witoslawski, Daniel
Aquino, Jelard
He, Chuanchuan
Han, Mira V.
author_facet Witoslawski, Daniel
Aquino, Jelard
He, Chuanchuan
Han, Mira V.
contents Alternative splicing creates complex bubbles in splicing graphs where more than two transcript paths compete, challenging methods designed for simple binary events. We present a unified framework that compares paths using distinct exonic parts observed directly from reads. We build a GrASE splicing graph (DAG) per gene, enumerate bubbles, and quantify shared and distinct exonic parts across three comparison structures. (i) all-pairwise contrasts (ii) a multinomial n-way comparison and (iii) valid bipartitions of paths. For (iii) we introduce lower-set bipartitioning, which respects subset relations among paths by enumerating downward-closed sets in a containment graph, yielding valid two-group splits with nonempty distinguishing parts. Our test statistic is the fraction of reads mapped to distinct parts relative to distinct + shared parts, enabling differential usage across samples. Applied to genome annotations, the approach examines more bubbles than prior tools while remaining tractable and interpretable.
format Preprint
id arxiv_https___arxiv_org_abs_2511_05992
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Shared and distinct exonic parts in alternative paths of splicing bubbles
Witoslawski, Daniel
Aquino, Jelard
He, Chuanchuan
Han, Mira V.
Genomics
Alternative splicing creates complex bubbles in splicing graphs where more than two transcript paths compete, challenging methods designed for simple binary events. We present a unified framework that compares paths using distinct exonic parts observed directly from reads. We build a GrASE splicing graph (DAG) per gene, enumerate bubbles, and quantify shared and distinct exonic parts across three comparison structures. (i) all-pairwise contrasts (ii) a multinomial n-way comparison and (iii) valid bipartitions of paths. For (iii) we introduce lower-set bipartitioning, which respects subset relations among paths by enumerating downward-closed sets in a containment graph, yielding valid two-group splits with nonempty distinguishing parts. Our test statistic is the fraction of reads mapped to distinct parts relative to distinct + shared parts, enabling differential usage across samples. Applied to genome annotations, the approach examines more bubbles than prior tools while remaining tractable and interpretable.
title Shared and distinct exonic parts in alternative paths of splicing bubbles
topic Genomics
url https://arxiv.org/abs/2511.05992