Structural characterization of RNAs is a dynamic field, offeringmanymodelling possibilities. RNA secondary structure models are usually characterized by an encoding that depicts structural information of the molecule through string representations or graphs. In this work, we provide a generalization of the BEAR encoding (a context-aware structural encoding we previously developed) by expanding the set of alignments used for the construction of substitution matrices and then applying it to secondary structure encodings ranging from fine-grained to more coarse-grained representations. We also introduce a re-interpretation of the Shannon Information applied on RNA alignments, proposing a new scoring metric, the Relative Information Gain (RIG). The RIG score is available for any position in an alignment, showing how different levels of detail encoded in the RNA representation can contribute differently to convey structural information. The approaches presented in this study can be used alongside state-ofthe-art tools to synergistically gain insights into the structural elements that RNAs and RNA families are composed of. This additional information could potentially contribute to their improvement or increase the degree of confidence in the secondary structure of families and any set of aligned RNAs.

Pietrosanto, M., Adinolfi, M., Guarracino, A., Ferrè, F., Ausiello, G., Vitale, I., et al. (2021). Relative Information Gain: Shannon entropy-based measure of the relative structural conservation in RNA alignments. NAR GENOMICS AND BIOINFORMATICS, 3(1), lqab007 [10.1093/nargab/lqab007].

Relative Information Gain: Shannon entropy-based measure of the relative structural conservation in RNA alignments

Pietrosanto, Marco;Adinolfi, Marta;Ausiello, Gabriele;Vitale, Ilio;Helmer-Citterich, Manuela
2021-03-01

Abstract

Structural characterization of RNAs is a dynamic field, offeringmanymodelling possibilities. RNA secondary structure models are usually characterized by an encoding that depicts structural information of the molecule through string representations or graphs. In this work, we provide a generalization of the BEAR encoding (a context-aware structural encoding we previously developed) by expanding the set of alignments used for the construction of substitution matrices and then applying it to secondary structure encodings ranging from fine-grained to more coarse-grained representations. We also introduce a re-interpretation of the Shannon Information applied on RNA alignments, proposing a new scoring metric, the Relative Information Gain (RIG). The RIG score is available for any position in an alignment, showing how different levels of detail encoded in the RNA representation can contribute differently to convey structural information. The approaches presented in this study can be used alongside state-ofthe-art tools to synergistically gain insights into the structural elements that RNAs and RNA families are composed of. This additional information could potentially contribute to their improvement or increase the degree of confidence in the secondary structure of families and any set of aligned RNAs.
mar-2021
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore BIO/11 - BIOLOGIA MOLECOLARE
English
Pietrosanto, M., Adinolfi, M., Guarracino, A., Ferrè, F., Ausiello, G., Vitale, I., et al. (2021). Relative Information Gain: Shannon entropy-based measure of the relative structural conservation in RNA alignments. NAR GENOMICS AND BIOINFORMATICS, 3(1), lqab007 [10.1093/nargab/lqab007].
Pietrosanto, M; Adinolfi, M; Guarracino, A; Ferrè, F; Ausiello, G; Vitale, I; Helmer-Citterich, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/291978
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