Autism Spectrum Disorder (ASD) is a complex neurodevelopmental disorder that affects communication, social interaction, and behavior. Its development is significantly influenced by genetics. Various omics data are combined using multiomics approaches to investigate the molecular pathways and mechanisms involved in the development of ASD.
By integrating data from multiple omics, we gain a more comprehensive understanding of the interplay between genetic and environmental factors in the development of ASD. Discover the latest findings on genetic variants, gene expression patterns, protein expression, metabolic pathways, and epigenetic changes associated with ASD.
With these approaches, multiple molecular pathways and mechanisms that are disrupted in ASD have been identified, emphasizing the importance of gene-environment interactions in the development of this disorder. Multiomics approaches hold great promise for the development of personalized therapies for individuals with ASD based on their unique molecular profiles.
The aim of this research Topic is to delve into the fascinating world of multiomics research and its implications in ASD. We welcome any types of manuscripts supported by the Journal; research articles, brief research articles, reviews, and mini reviews of the following themes but not limited to genomics, transcriptomics, proteomics, metabolomics, and epigenomics, powerful methods that can provide unique insights into the complex mechanisms underlying ASD.
Autism Spectrum Disorder (ASD) is a complex neurodevelopmental disorder that affects communication, social interaction, and behavior. Its development is significantly influenced by genetics. Various omics data are combined using multiomics approaches to investigate the molecular pathways and mechanisms involved in the development of ASD.
By integrating data from multiple omics, we gain a more comprehensive understanding of the interplay between genetic and environmental factors in the development of ASD. Discover the latest findings on genetic variants, gene expression patterns, protein expression, metabolic pathways, and epigenetic changes associated with ASD.
With these approaches, multiple molecular pathways and mechanisms that are disrupted in ASD have been identified, emphasizing the importance of gene-environment interactions in the development of this disorder. Multiomics approaches hold great promise for the development of personalized therapies for individuals with ASD based on their unique molecular profiles.
The aim of this research Topic is to delve into the fascinating world of multiomics research and its implications in ASD. We welcome any types of manuscripts supported by the Journal; research articles, brief research articles, reviews, and mini reviews of the following themes but not limited to genomics, transcriptomics, proteomics, metabolomics, and epigenomics, powerful methods that can provide unique insights into the complex mechanisms underlying ASD.