Evidence for Major Gene Transmission of Developmental Dyslexia

Bruce F. Pennington, Jeffrey W. Gilger, David Pauls, Sandra A. Smith, Shelley D Smith, John C. DeFries

Research output: Contribution to journalArticle

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Abstract

Objective.—There is strong evidence that developmental dyslexia is both familial and heritable, but the mode of genetic transmission has remained unclear. In this article, we examine specific genetic hypotheses about the mode of transmission of developmental dyslexia by performing complex segregation analyses. Design.—A family study method was applied, whereby the relatives of dyslexic probands were examined for dyslexia. The families studied represent four independently ascertained samples. Setting.—The four samples of families were primarily from rural and suburban communities of Colorado, Washington State, and Iowa. Participants.— A total of 204 families and 1698 individuals in the four samples combined. Main Outcome Measures.—The complex segregation program, POINTER, was used to test competing genetic hypotheses of how a categorical trait (dyslexia) is transmitted in families. Results.—The results were consistent with major locus transmission in three of four samples and with polygenic transmission in the fourth. In these three samples, the estimates of penetrance for the AA, Aa, and aa genotypes (where A is the abnormal allele) were, respectively, 1.000, 1.000, and 0.001 to 0.039 in males, and 0.560 to 1.000, 0.550 to 0.897, and 0.000 in females. The estimated gene frequency of the major locus was between 3% and 5%. Conclusions.—Sex-influenced, additive, or dominant transmission occurs in a significant proportion of dyslexic families. Other evidence indicates, however, that dyslexia is etiologically heterogeneous and that there is genetic heterogeneity even among families selected for apparent dominant transmission. Thus, while no single major locus may account for all of dyslexia, it is important to pursue potential major loci for dyslexia using linkage techniques.

Original languageEnglish (US)
Pages (from-to)1527-1534
Number of pages8
JournalJAMA: The Journal of the American Medical Association
Volume266
Issue number11
DOIs
StatePublished - Sep 18 1991

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Dyslexia
Genes
Genetic Heterogeneity
Penetrance
Rural Population
Gene Frequency
Alleles
Genotype
Outcome Assessment (Health Care)

ASJC Scopus subject areas

  • Medicine(all)

Cite this

Evidence for Major Gene Transmission of Developmental Dyslexia. / Pennington, Bruce F.; Gilger, Jeffrey W.; Pauls, David; Smith, Sandra A.; Smith, Shelley D; DeFries, John C.

In: JAMA: The Journal of the American Medical Association, Vol. 266, No. 11, 18.09.1991, p. 1527-1534.

Research output: Contribution to journalArticle

Pennington, Bruce F. ; Gilger, Jeffrey W. ; Pauls, David ; Smith, Sandra A. ; Smith, Shelley D ; DeFries, John C. / Evidence for Major Gene Transmission of Developmental Dyslexia. In: JAMA: The Journal of the American Medical Association. 1991 ; Vol. 266, No. 11. pp. 1527-1534.
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abstract = "Objective.—There is strong evidence that developmental dyslexia is both familial and heritable, but the mode of genetic transmission has remained unclear. In this article, we examine specific genetic hypotheses about the mode of transmission of developmental dyslexia by performing complex segregation analyses. Design.—A family study method was applied, whereby the relatives of dyslexic probands were examined for dyslexia. The families studied represent four independently ascertained samples. Setting.—The four samples of families were primarily from rural and suburban communities of Colorado, Washington State, and Iowa. Participants.— A total of 204 families and 1698 individuals in the four samples combined. Main Outcome Measures.—The complex segregation program, POINTER, was used to test competing genetic hypotheses of how a categorical trait (dyslexia) is transmitted in families. Results.—The results were consistent with major locus transmission in three of four samples and with polygenic transmission in the fourth. In these three samples, the estimates of penetrance for the AA, Aa, and aa genotypes (where A is the abnormal allele) were, respectively, 1.000, 1.000, and 0.001 to 0.039 in males, and 0.560 to 1.000, 0.550 to 0.897, and 0.000 in females. The estimated gene frequency of the major locus was between 3{\%} and 5{\%}. Conclusions.—Sex-influenced, additive, or dominant transmission occurs in a significant proportion of dyslexic families. Other evidence indicates, however, that dyslexia is etiologically heterogeneous and that there is genetic heterogeneity even among families selected for apparent dominant transmission. Thus, while no single major locus may account for all of dyslexia, it is important to pursue potential major loci for dyslexia using linkage techniques.",
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