Litcius/Paper detail

RNA secondary structure prediction using transformer-based deep learning models

Yanlin Zhou, Tong Zhan, Yichao Wu, Bo Song, Chenxi Shi

2024Applied and Computational Engineering20 citationsDOIOpen Access PDF

Abstract

The Human Genome Project has led to an exponential increase in data related to the sequence, structure, and function of biomolecules. Bioinformatics is an interdisciplinary research field that primarily uses computational methods to analyze large amounts of biological macromolecule data. Its goal is to discover hidden biological patterns and related information. Furthermore, analysing additional relevant information can enhance the study of biological operating mechanisms. This paper discusses the fundamental concepts of RNA, RNA secondary structure, and its prediction.Subsequently, the application of machine learning technologies in predicting the structure of biological macromolecules is explored. This chapter describes the relevant knowledge of algorithms and computational complexity and presents a RNA tertiary structure prediction algorithm based on ResNet. To address the issue of the current scoring function's unsuitability for long RNA, a scoring model based on ResNet is proposed, and a structure prediction algorithm is designed. The chapter concludes by presenting some open and interesting challenges in the field of RNA tertiary structure prediction.

Topics & Concepts

Computer scienceRNAMachine learningArtificial intelligenceField (mathematics)Function (biology)Nucleic acid structureNucleic acid secondary structureComputational biologyData miningBiologyMathematicsGeneEvolutionary biologyBiochemistryPure mathematicsRNA and protein synthesis mechanismsMachine Learning in BioinformaticsRNA modifications and cancer
RNA secondary structure prediction using transformer-based deep learning models | Litcius