DNA synthesis in the mouse blastocyst during the beginning of delayed implantation

## Abstract Cell division ceases in mouse blastocysts during the extended dormant period associated with delayed implantation but resumes following activation of the embryos by administration of 17β‐estradiol to the mother. To determine the temporal and spatial aspects of the resumption of DNA synt

## Abstract The rate of oxidation of glucose is reduced in mouse embryos in the prolonged free living phase associated with delayed implantation and increases when the embryos are reactivated by estrogen. To determine how these changes in metabolism are regulated, several aspects of glucose metabol

## Abstract The resumption of DNA synthesis in delayed implanting mouse embryos undergoing metabolic activation in vitro was examined. Blastocysts were recovered from ovariectomized mice, incubated for various intervals in basal Eagle's medium, exposed to ^3^H‐ thymidine, and prepared for light mic

## Abstract The in utero protein synthetic activity of embryos of the western spotted skunk has been examined by one‐dimensional gel electrophoresis and fluorography. The results indicate that delayed‐implanting embryos synthesize a large variety of proteins with molecular weights from < 15,000 to

The proportion of delayed implanting mouse blastocysts capable of normal development following transfer to pseudopregnant recipients is influenced by the length of the delay period. Thus, approximately one-third develop normally when transferred on days 5, 9 or 15 (day 1, day of vaginal plug), while

Low viability of manipulated or in vitro cultured embryos is caused primarily by the reduced cell number in the implanting blastocysts. In order to investigate the effect of implantation delay on embryo viability and cell number, mouse blastocysts were transferred into oviducts of day 0 pseudopregna