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FLIBase: a comprehensive repository of full-length isoforms across human cancers and tissues

Qili Shi, Xinrong Li, Yizhe Liu, Zhiao Chen, Xianghuo He

2023Nucleic Acids Research18 citationsDOIOpen Access PDF

Abstract

Regulatory processes at the RNA transcript level play a crucial role in generating transcriptome diversity and proteome composition in human cells, impacting both physiological and pathological states. This study introduces FLIBase (www.FLIBase.org), a specialized database that focuses on annotating full-length isoforms using long-read sequencing techniques. We collected and integrated long-read (351 samples) and short-read (12 469 samples) RNA sequencing data from diverse normal and cancerous human tissues and cells. The current version of FLIBase comprises a total of 983 789 full-length spliced isoforms, identified through long-read sequences and verified using short-read exon-exon splice junctions. Of these, 188 248 isoforms have been annotated, while 795 541 isoforms remain unannotated. By overcoming the limitations of short-read RNA sequencing methods, FLIBase provides an accurate and comprehensive representation of full-length transcripts. These comprehensive annotations empower researchers to undertake various downstream analyses and investigations. Importantly, FLIBase exhibits a significant advantage in identifying a substantial number of previously unannotated isoforms and tumor-specific RNA transcripts. These tumor-specific RNA transcripts have the potential to serve as a source of immunogenic recurrent neoantigens. This remarkable discovery holds tremendous promise for advancing the development of tailored RNA-based diagnostic and therapeutic strategies for various types of human cancer.

Topics & Concepts

BiologyExonGene isoformRNAAlternative splicingComputational biologyRNA splicingTranscriptomeRNA-SeqspliceGeneGeneticsProteomeGene expressionRNA modifications and cancerRNA Research and SplicingRNA and protein synthesis mechanisms
FLIBase: a comprehensive repository of full-length isoforms across human cancers and tissues | Litcius