A classical twin study was performed to assess the extent to which genetic factors explain individual differences in age at menopause and (indications for) hysterectomy. It was further examined whether a genetic effect on the timing of the menopause was mediated through a genetic effect on age at menarche. The subjects were 275 monozygotic and 353 dizygotic female twin pairs. Maximum likelihood model fitting was used to estimate genetic and environmental variance components, Kaplan-Meier survival analysis was used to account for censored data, and the Cox proportional hazards model was used to adjust for potential confounders. A model specifying additive genetic and unique environmental factors showed the best fit to the data, yielding a heritability (h2) for age at menopause of 63%. The significance of the genetic effect was confirmed by the survival analysis and was not affected by adjustment for confounders. Both early and late menopause were found to be significantly influenced by genetic factors. Hysterectomy also showed considerable heritability (h2 = 59%), as did its two main indications: fibroids (h2 = 69%) and menorrhagia (h2 = 55%). The genetic contribution to the variance in age at menarche was estimated to be 45%, with the majority (37%) being due to dominant genetic effects. No correlation was found between age at menopause and age at menarche, suggesting different genetic mechanisms. This study provides convincing evidence for the importance of genetic factors in determining natural and surgical menopause. Understanding how genes control the timing of menopause and exploring whether these genes are indirectly associated with disease are important areas for future study.