Brain Sciences (Oct 2023)

Differential DNA Methylation from Autistic Children Enriches Evidence for Genes Associated with ASD and New Candidate Genes

  • Mirna Edith Morales-Marín,
  • Xochitl Helga Castro Martínez,
  • Federico Centeno Cruz,
  • Francisco Barajas-Olmos,
  • Omar Náfate López,
  • Amalia Guadalupe Gómez Cotero,
  • Lorena Orozco,
  • Humberto Nicolini Sánchez

DOI
https://doi.org/10.3390/brainsci13101420
Journal volume & issue
Vol. 13, no. 10
p. 1420

Abstract

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The etiology of Autism Spectrum Disorders (ASD) is a result of the interaction between genes and the environment. The study of epigenetic factors that affect gene expression, such as DNA methylation, has become an important area of research in ASD. In recent years, there has been an increasing body of evidence pointing to epigenetic mechanisms that influence brain development, as in the case of ASD, when gene methylation dysregulation is present. Our analysis revealed 853 differentially methylated CpG in ASD patients, affecting 509 genes across the genome. Enrichment analysis showed five related diseases, including autistic disorder and mental disorders, which are particularly significant. In this work, we identified 64 genes that were previously reported in the SFARI gene database, classified according to their impact index. Additionally, we identified new genes that have not been previously reported as candidates with differences in the methylation patterns of Mexican children with ASD.

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