Genome-wide detection of tandem DNA repeats that are expanded in autism

Brett Trost, Worrawat Engchuan, Charlotte M. Nguyen, Bhooma Thiruvahindrapuram, Egor Dolzhenko, Ian Backstrom, Mila Mirceta, Bahareh A. Mojarad, Yue Yin, Alona Dov, Induja Chandrakumar, Tanya Prasolava, Natalie Shum, Omar Hamdan, Giovanna Pellecchia, Jennifer L. Howe, Joseph Whitney, Eric W. Klee, Saurabh Baheti, David G. AmaralEvdokia Anagnostou, Mayada Elsabbagh, Bridget A. Fernandez, Ny Hoang, M. E.Suzanne Lewis, Xudong Liu, Calvin Sjaarda, Isabel M. Smith, Peter Szatmari, Lonnie Zwaigenbaum, David Glazer, Dean Hartley, A. Keith Stewart, Michael A. Eberle, Nozomu Sato, Christopher E. Pearson, Stephen W. Scherer, Ryan K.C. Yuen

Research output: Contribution to journalArticlepeer-review

26 Scopus citations


Tandem DNA repeats vary in the size and sequence of each unit (motif). When expanded, these tandem DNA repeats have been associated with more than 40 monogenic disorders1. Their involvement in disorders with complex genetics is largely unknown, as is the extent of their heterogeneity. Here we investigated the genome-wide characteristics of tandem repeats that had motifs with a length of 2–20 base pairs in 17,231 genomes of families containing individuals with autism spectrum disorder (ASD)2,3 and population control individuals4. We found extensive polymorphism in the size and sequence of motifs. Many of the tandem repeat loci that we detected correlated with cytogenetic fragile sites. At 2,588 loci, gene-associated expansions of tandem repeats that were rare among population control individuals were significantly more prevalent among individuals with ASD than their siblings without ASD, particularly in exons and near splice junctions, and in genes related to the development of the nervous system and cardiovascular system or muscle. Rare tandem repeat expansions had a prevalence of 23.3% in children with ASD compared with 20.7% in children without ASD, which suggests that tandem repeat expansions make a collective contribution to the risk of ASD of 2.6%. These rare tandem repeat expansions included previously undescribed ASD-linked expansions in DMPK and FXN, which are associated with neuromuscular conditions, and in previously unknown loci such as FGF14 and CACNB1. Rare tandem repeat expansions were associated with lower IQ and adaptive ability. Our results show that tandem DNA repeat expansions contribute strongly to the genetic aetiology and phenotypic complexity of ASD.

Original languageEnglish (US)
Pages (from-to)80-86
Number of pages7
Issue number7827
StatePublished - Oct 1 2020

ASJC Scopus subject areas

  • General


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