Uterine and Postnatal Maternal Effects in Mice Selected for Differential Rate of Early Development

Uterine and Postnatal Maternal Effects in Mice Selected for Differential Rate of Early Development

Brian K. Rhees^a, Cynthia A. Ernst^a, Christina H. Miao^a, and William R. Atchley^a
^a Department of Genetics, North Carolina State University, Raleigh, North Carolina 27695-7614

Corresponding author: Brian K. Rhees, Department of Genetics, North Carolina State University, Raleigh, NC 27695-7614., brian_rhees{at}ncsu.edu (E-mail)

Communicating editor: A. G. CLARK

A series of mouse lines was produced by long-term restrictedindex selection for divergent rate of growth during early andlate postnatal development. The selection program was basedon the following treatments: E⁺ and E^- lines were selected toalter birth to 10-day weight gain while holding late gain forboth lines constant and a control line was established via randomselection. Using embryo transfer and crossfostering methodology,we partitioned postnatal growth for E⁺, E^-, and C lines intoprogeny genetic, uterine maternal, and nurse maternal components.Selection for differential early growth resulted in correlatedresponse in uterine and nurse maternal effects on body weights,with significant genetic-by-environment interactions. Significantuterine effects were also observed in tail length measurements.Direct uterine effects on body weight were relatively smalland resulted in growth rate differences early in development.Nurse effects were large, resulting in modification of progenygrowth trajectory especially during early postnatal development.Genetic-by-uterine interactions were large and demonstrate progeny-specificeffects of the prenatal uterine environment.

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