AI Article Synopsis
- The study investigates the genetic factors contributing to autistic spectrum disorders (ASDs) by analyzing genomic copy-number variations in families, focusing on those with one affected child and at least one unaffected sibling.
- Findings reveal that de novo deletions and duplications play a significant role in ASDs, alongside inherited "ultrarare" duplications, indicating a complex genetic landscape.
- The research also highlights that females demonstrate increased genetic resistance to autism compared to males, leading to inquiries about the implications for female carriers, while identifying several new candidate gene regions associated with ASD.
Article Abstract
To explore the genetic contribution to autistic spectrum disorders (ASDs), we have studied genomic copy-number variation in a large cohort of families with a single affected child and at least one unaffected sibling. We confirm a major contribution from de novo deletions and duplications but also find evidence of a role for inherited "ultrarare" duplications. Our results show that, relative to males, females have greater resistance to autism from genetic causes, which raises the question of the fate of female carriers. By analysis of the proportion and number of recurrent loci, we set a lower bound for distinct target loci at several hundred. We find many new candidate regions, adding substantially to the list of potential gene targets, and confirm several loci previously observed. The functions of the genes in the regions of de novo variation point to a great diversity of genetic causes but also suggest functional convergence.
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| http://dx.doi.org/10.1016/j.neuron.2011.05.015 | DOI Listing |
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