Entropy (Sep 2024)

Superstatistics Applied to Cucurbitaceae DNA Sequences

  • M. O. Costa,
  • R. Silva,
  • M. M. F. de Lima,
  • D. H. A. L. Anselmo

DOI
https://doi.org/10.3390/e26100819
Journal volume & issue
Vol. 26, no. 10
p. 819

Abstract

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The short and long statistical correlations are essential in the genomic sequence. Such correlations are long-range for introns, whereas, for exons, these are short. In this study, we employed superstatistics to investigate correlations and fluctuations in the distribution of nucleotide sequence lengths of the Cucurbitaceae family. We established a time series for exon sizes to probe these correlations and fluctuations. We used data from the National Center for Biotechnology Information (NCBI) gene database to extract the temporal evolution of exon sizes, measured in terms of the number of base pairs (bp). To assess the model’s viability, we utilized a timescale extraction method to determine the statistical properties of our time series, including the local distribution and fluctuations, which provide the exon size distributions based on the q-Gamma and inverse q-Gamma distributions. From the Bayesian statistics standpoint, both distributions are excellent for capturing the correlations and fluctuations from the data.

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