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Meta-Analysis
. 2011 Oct;16(10):996-1005.
doi: 10.1038/mp.2011.85. Epub 2011 Aug 9.

Genome-wide association studies establish that human intelligence is highly heritable and polygenic

G Davies  1 A TenesaA PaytonJ YangS E HarrisD LiewaldX KeS Le HellardA ChristoforouM LucianoK McGheeL LopezA J GowJ CorleyP RedmondH C FoxP HaggartyL J WhalleyG McNeillM E GoddardT EspesethA J LundervoldI ReinvangA PicklesV M SteenW OllierD J PorteousM HoranJ M StarrN PendletonP M VisscherI J Deary
Affiliations
Meta-Analysis

Genome-wide association studies establish that human intelligence is highly heritable and polygenic

G Davies et al. Mol Psychiatry. 2011 Oct.

Abstract

General intelligence is an important human quantitative trait that accounts for much of the variation in diverse cognitive abilities. Individual differences in intelligence are strongly associated with many important life outcomes, including educational and occupational attainments, income, health and lifespan. Data from twin and family studies are consistent with a high heritability of intelligence, but this inference has been controversial. We conducted a genome-wide analysis of 3511 unrelated adults with data on 549,692 single nucleotide polymorphisms (SNPs) and detailed phenotypes on cognitive traits. We estimate that 40% of the variation in crystallized-type intelligence and 51% of the variation in fluid-type intelligence between individuals is accounted for by linkage disequilibrium between genotyped common SNP markers and unknown causal variants. These estimates provide lower bounds for the narrow-sense heritability of the traits. We partitioned genetic variation on individual chromosomes and found that, on average, longer chromosomes explain more variation. Finally, using just SNP data we predicted ∼1% of the variance of crystallized and fluid cognitive phenotypes in an independent sample (P=0.009 and 0.028, respectively). Our results unequivocally confirm that a substantial proportion of individual differences in human intelligence is due to genetic variation, and are consistent with many genes of small effects underlying the additive genetic influences on intelligence.

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Figures

Figure 1
Figure 1. Meta-analytic genome-wide association results for all five samples in the Cognitive Ageing Genetics in England and Scotland study
Manhattan plot showing meta-analysis results for gf. The −log10 P values (y axis) of 549,692 SNPs in 3,400 individuals are presented based on their choromosomal position (x axis). The red line is the genome-wide significance threshold 5× 10−8(a). Manhattan plot showing meta-analysis results for gc. The −log10 P values (y axis) of 549,692 SNPs in 3,482 individuals are presented based on their chromosomal position (x axis). The red line is the genome-wide significance threshold 5× 10−8 (b). Quantile-quantile plots of the meta-analysis P-values for gf. The black circles represent the observed data, the red line is the expectation under the null hypothesis of no association, and the black curves are the boundaries of the 95% confidence interval. A clear deviation from the expected values is evident (c). Quantile-quantile plots of the meta-analysis P values for gc. The black circles represent the observed data, the red line is the expectation under the null hypothesis of no association, and the black curves are the boundaries of the 95% confidence interval. A clear deviation from the expected values is evident (d).
Figure 2
Figure 2. Estimate of the proportion of variance explained by each chromosome for gf and gc in the combined dataset against chromosome length
The numbers in the circles and squares are the chromosome numbers.
See this image and copyright information in PMC

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