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. 2004 Mar;74(3):444-53.
doi: 10.1086/382136. Epub 2004 Feb 4.

Linkage analysis of extremely discordant and concordant sibling pairs identifies quantitative trait loci influencing variation in human menopausal age

Kristel M van Asselt  1 Helen S KokHein PutterCisca WijmengaPetra H M PeetersYvonne T van der SchouwDiederick E GrobbeeEgbert R te VeldeSietse MosselmanPeter L Pearson
Affiliations

Linkage analysis of extremely discordant and concordant sibling pairs identifies quantitative trait loci influencing variation in human menopausal age

Kristel M van Asselt et al. Am J Hum Genet. 2004 Mar.

Abstract

Age at natural menopause may be used as parameter for evaluating the rate of ovarian aging. Environmental factors determine only a small part of the large variation in menopausal age. Studies have shown that genetic factors are likely to be involved in variation in menopausal age. To identify quantitative-trait loci for this trait, we performed a genomewide linkage study with age at natural menopause as a continuous quantitative phenotype in Dutch sister pairs, through use of a selective sampling scheme. A total of 165 families were ascertained using extreme selected sampling and were genotyped for 417 markers. Data were analyzed by Haseman-Elston regression and by an adjusted variance-components analysis. Subgroup analyses for early and late menopausal age were conducted by Haseman-Elston regression. In the adjusted variance-components analysis, 12 chromosomes had a LOD score of > or =1.0. Two chromosomal regions showed suggestive linkage: 9q21.3 (LOD score 2.6) and Xp21.3 (LOD score 3.1). Haseman-Elston regression showed rather similar locations of the peaks but yielded lower LOD scores. A permutation test to obtain empirical P values resulted in a significant peak on the X chromosome. To our knowledge, this is the first study to attempt to identify loci responsible for variability in menopausal age and in which several chromosomal regions were identified with suggestive and significant linkage. Although the finding of the region on the X chromosome comes as no surprise, because of its widespread involvement in premature ovarian failure, the definition of which particular gene is involved is of great interest. The region on chromosome 9 deserves further consideration. Both findings require independent confirmation.

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Figures

Figure 1
Figure 1
Histogram of age at menopause of women included in the VC analyses
Figure 2
Figure 2
LOD score graphs of all chromosomes. LOD scores are shown on the Y-axis, and positions in centimorgans are shown on the X-axis.
Figure 3
Figure 3
LOD score graphs of subgroup analyses of chromosome 9 and X by Haseman-Elston regression. LOD scores are shown on the Y-axis, and positions in centimorgans are shown on the X-axis.
See this image and copyright information in PMC

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