Spontaneous mutation during fetal development and post-natal growth

doi:10.1093/mutage/13.6.613

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Mutagenesis vol. 13 no. 6 pp. 613-617, 1998
© 1998 UK Environmental Mutagen Society/Oxford University Press

research-article

Spontaneous mutation during fetal development and post-natal growth

Y.R.M. Paashuis-Lew and J.A. Heddle¹

York University 4700 Keele Street, Toronto, Ontario, Canada M3J 1P3

Somatic mutations seem to accumulate slowly with age duringadult life in both mice and men. There is, however, a substantialmutant frequency at birth, suggesting that the rate of accumulationis much higher before birth. This suggests that DNA replicationplays an important role in the generation of spontaneous mutations.Since most cell division and accompanying DNA replication occursearly in development, more mutations would arise during growthand development. Indeed, if the mutations are genetically neutral,the mutant frequency would rise very rapidly during early fetalgrowth, more slowly during later fetal growth and developmentand still more slowly after birth. To test this hypothesis,we have assayed the mutant frequencies from before birth to28 days after birth, by which time most growth has occurred.We have used the F₁ mice generated by crossing SWR females andMuta^TMMouse males. The Muta^TMMouse has a rescuable lacZ/ ${lambda}$ shuttlevector that can be assayed for an in vivo mutation in an invitro system. Up to and including birth we assayed the entireanimal for mutants; at 14 and 28 days after birth we assayedthe small intestine. The data show that, as expected, many mutationsarise early in development, by 12.5 days after conception, andconfirms the non-linearity of mutation with age. In these mice,about one third of mutations arise before birth, about one thirdduring growth to adulthood and the remaining during the restof the animal's life, although this depends somewhat on thetissue.

¹To whom correspondence should be addressed. Tel: +1 416 736 2100 ext. 33053; Fax: +1 416 736 5698; Email: jheddle{at}yorku.ca

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