RNA sequence analysis landscape: A comprehensive review of task types, databases, datasets, word embedding methods, and language models.

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Muhammad Nabeel Asim, Muhammad Ali Ibrahim, Tayyaba Asif, Andreas Dengel

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Muhammad Nabeel Asim: German Research Center for Artificial Intelligence GmbH, Kaiserslautern, 67663, Germany.
Muhammad Ali Ibrahim: German Research Center for Artificial Intelligence GmbH, Kaiserslautern, 67663, Germany.
Tayyaba Asif: Department of Computer Science, Rhineland-Palatinate Technical University of Kaiserslautern-Landau, Kaiserslautern, 67663, Germany.
Andreas Dengel: German Research Center for Artificial Intelligence GmbH, Kaiserslautern, 67663, Germany.

PMID: 39897847 DOI: 10.1016/j.heliyon.2024.e41488

Deciphering information of RNA sequences reveals their diverse roles in living organisms, including gene regulation and protein synthesis. Aberrations in RNA sequence such as dysregulation and mutations can drive a diverse spectrum of diseases including cancers, genetic disorders, and neurodegenerative conditions. Furthermore, researchers are harnessing RNA's therapeutic potential for transforming traditional treatment paradigms into personalized therapies through the development of RNA-based drugs and gene therapies. To gain insights of biological functions and to detect diseases at early stages and develop potent therapeutics, researchers are performing diverse types RNA sequence analysis tasks. RNA sequence analysis through conventional wet-lab methods is expensive, time-consuming and error prone. To enable large-scale RNA sequence analysis, empowerment of wet-lab experimental methods with Artificial Intelligence (AI) applications necessitates scientists to have a comprehensive knowledge of both DNA and AI fields. While molecular biologists encounter challenges in understanding AI methods, computer scientists often lack basic foundations of RNA sequence analysis tasks. Considering the absence of a comprehensive literature that bridges this research gap and promotes the development of AI-driven RNA sequence analysis applications, the contributions of this manuscript are manifold: It equips AI researchers with biological foundations of 47 distinct RNA sequence analysis tasks. It sets a stage for development of benchmark datasets related to 47 distinct RNA sequence analysis tasks by facilitating cruxes of 64 different biological databases. It presents word embeddings and language models applications across 47 distinct RNA sequence analysis tasks. It streamlines the development of new predictors by providing a comprehensive survey of 58 word embeddings and 70 language models based predictive pipelines performance values as well as top performing traditional sequence encoding based predictors and their performances across 47 RNA sequence analysis tasks.

AI applications in genomics Artificial intelligence Deep learning Disease analysis Gene analysis Gene expression regulation Gene network analysis Machine learning Multi-omics RNA functional analysis RNA modifications RNA sequence analysis RNA-sequencing

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