BACKGROUND: Balanced X;autosome translocations interrupting the 'critical region' of the long arm of the human X chromosome are often associated with premature ovarian failure (POF). However, the mechanisms leading to X-linked ovarian dysfunction are largely unknown, as the majority of the X chromosome breakpoints have been mapped to gene-free genomic regions. A few genes have been found to be interrupted, but their role has never been clarified. METHODS AND RESULTS: By fine mapping of the X chromosome breakpoint of an X;autosome balanced translocation, we identified a new interrupted gene, POF1B. We performed a mutation analysis of POF1B and of another gene previously identified, DACH2, localized approximately 700 kb distal in Xq21, in a cohort of >200 Italian POF patients. Rare mutations were found in patients in both genes. CONCLUSIONS: Our findings could not demonstrate any involvement of POF1B, but suggest that rare mutations in the DACH2 gene may have a role in the POF phenotype
Mutation analysis of two candidate genes for premature ovarian failure, DACH2 and POF1B / S. Bione, F. Rizzolio, C. Sala, R. Ricotti, M. Goegan, M.C. Manzini, R. Battaglia, A. Marozzi, W. Vegetti, L. Dalpra, P.G. Crosignani, E. Ginelli, R. Nappi, S. Bernabini, V. Bruni, F. Torricelli, O. Zuffardi, D. Toniolo. - In: HUMAN REPRODUCTION. - ISSN 0268-1161. - 19:12(2004 Dec), pp. 2759-2766.
Mutation analysis of two candidate genes for premature ovarian failure, DACH2 and POF1B
A. Marozzi;E. Ginelli;
2004
Abstract
BACKGROUND: Balanced X;autosome translocations interrupting the 'critical region' of the long arm of the human X chromosome are often associated with premature ovarian failure (POF). However, the mechanisms leading to X-linked ovarian dysfunction are largely unknown, as the majority of the X chromosome breakpoints have been mapped to gene-free genomic regions. A few genes have been found to be interrupted, but their role has never been clarified. METHODS AND RESULTS: By fine mapping of the X chromosome breakpoint of an X;autosome balanced translocation, we identified a new interrupted gene, POF1B. We performed a mutation analysis of POF1B and of another gene previously identified, DACH2, localized approximately 700 kb distal in Xq21, in a cohort of >200 Italian POF patients. Rare mutations were found in patients in both genes. CONCLUSIONS: Our findings could not demonstrate any involvement of POF1B, but suggest that rare mutations in the DACH2 gene may have a role in the POF phenotypePubblicazioni consigliate
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