Maternal Effect for DNA Mismatch Repair in the Mouse

Maternal Effect for DNA Mismatch Repair in the Mouse

Vanessa E. Gurtu^a, Shelly Verma^a, Allie H. Grossmann^c, R. Michael Liskay^c, William C. Skarnes^b, and Sean M. Baker^a
^a Department of Nutritional Sciences and Toxicology, University of California, Berkeley, California 94720
^b Department of Molecular and Cellular Biology, University of California, Berkeley, California 94720
^c Department of Molecular and Medical Genetics, Oregon Health Sciences University, Portland, Oregon 97201

Corresponding author: Sean M. Baker, Morgan Hall 233, University of California, Berkeley, CA 94720., sbaker{at}nature.berkeley.edu (E-mail)

Communicating editor: N. ARNHEIM

DNA mismatch repair (DMR) functions to maintain genome stability.Prokaryotic and eukaryotic cells deficient in DMR show a microsatelliteinstability (MSI) phenotype characterized by repeat length alterationsat microsatellite sequences. Mice deficient in Pms2, a mammalianhomolog of bacterial mutL, develop cancer and display MSI inall tissues examined, including the male germ line where a frequencyof $~$ 10% was observed. To determine the consequences of maternalDMR deficiency on genetic stability, we analyzed F₁ progenyfrom Pms2^-/- female mice mated with wild-type males. Our analysisindicates that MSI in the female germ line was $~$ 9%. MSI was alsoobserved in paternal alleles, a surprising result since thealleles were obtained from wild-type males and the embryos weretherefore DMR proficient. We propose that mosaicism for paternalalleles is a maternal effect that results from Pms2 deficiencyduring the early cleavage divisions. The absence of DMR in one-cellembryos leads to the formation of unrepaired replication errorsin early cell divisions of the zygote. The occurrence of postzygoticmutation in the early mouse embryo suggests that Pms2 deficiencyis a maternal effect, one of a limited number identified inthe mouse and the first to involve a DNA repair gene.

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