Zebrafish knockout of Down syndrome gene, DYRK1A, shows social impairments relevant to autism

Oc-Hee Kim(Chungnam National University), Hyun-Ju Cho(Korea Research Institute of Bioscience and Biotechnology), Enna Han(Chungnam National University), Ted Hong(Chungnam National University), Krishan Ariyasiri(Chungnam National University), Jung Hwa Choi(Chungnam National University), Kyu-Seok Hwang(Chungnam National University), Yun-Mi Jeong(Chungnam National University), Se-Yeol Yang(Korea Research Institute of Bioscience and Biotechnology), Kweon Yu(Korea Research Institute of Bioscience and Biotechnology), Doo-Sang Park(Korea Research Institute of Bioscience and Biotechnology), Hyun-Woo Oh(Korea Research Institute of Bioscience and Biotechnology), Erica E. Davis(Duke University), Charles E. Schwartz(Greenwood Genetic Center), Jeong Soo Lee(Convergence Research Center for Diagnosis Treatment and Care System of Dementia), Hyung-Goo Kim(Augusta University), Cheol‐Hee Kim(Chungnam National University)
Molecular Autism
September 29, 2017
10.1186/s13229-017-0168-2
Cited by 129Open Access
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Abstract

Background: DYRK1A maps to the Down syndrome critical region at 21q22. Mutations in this kinase-encoding gene have been reported to cause microcephaly associated with either intellectual disability or autism in humans. Intellectual disability accompanied by microcephaly was recapitulated in a murine model by overexpressing Dyrk1a which mimicked Down syndrome phenotypes. However, given embryonic lethality in homozygous knockout (KO) mice, no murine model studies could present sufficient evidence to link Dyrk1a dysfunction with autism. To understand the molecular mechanisms underlying microcephaly and autism spectrum disorders (ASD), we established an in vivo dyrk1aa KO model using zebrafish.

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