Genome-wide association meta-analysis of age at onset of walking in over 70,000 infants of European ancestry.
Gui A., Hollowell A., Wigdor EM., Morgan MJ., Hannigan LJ., Corfield EC., Odintsova V., Hottenga J-J., Wong A., Pool R., Cullen H., Wilson S., Warrier V., Eilertsen EM., Andreassen OA., Middeldorp CM., St Pourcain B., Bartels M., Boomsma DI., Hartman CA., Robinson EB., Arichi T., Edwards AD., Johnson MH., Dudbridge F., Sanders SJ., Havdahl A., Ronald A.
Age at onset of walking is an important early childhood milestone which is used clinically and in public health screening. In this genome-wide association study meta-analysis of age at onset of walking (N = 70,560 European-ancestry infants), we identified 11 independent genome-wide significant loci. SNP-based heritability was 24.13% (95% confidence intervals = 21.86-26.40) with ~11,900 variants accounting for about 90% of it, suggesting high polygenicity. One of these loci, in gene RBL2, co-localized with an expression quantitative trait locus (eQTL) in the brain. Age at onset of walking (in months) was negatively genetically correlated with ADHD and body-mass index, and positively genetically correlated with brain gyrification in both infant and adult brains. The polygenic score showed out-of-sample prediction of 3-5.6%, confirmed as largely due to direct effects in sib-pair analyses, and was separately associated with volume of neonatal brain structures involved in motor control. This study offers biological insights into a key behavioural marker of neurodevelopment.