Hypoxanthine Causes a 2-Cell Block in Random-Bred Mouse Embryos1
- 1 September 1987
- journal article
- research article
- Published by Oxford University Press (OUP) in Biology of Reproduction
- Vol. 37 (2) , 311-316
- https://doi.org/10.1095/biolreprod37.2.311
Abstract
Ham''s F-10, a chemically defined, complex culture medium, commonly used for in vitro fertilization of human as well as animal oocytes, blocked development of the 2-cell stage of > 92% of embryos from random-bred Swiss mice (CD-1), but did not block development of embryos from hybrid-inbred mice (BDF1). In contrast, BWW, a simple, modified Kreb''s-Ringer bicarbonate medium, supported development to blastocysts of 85% and 100% of 2-cell embryos from CD1 and BDF1 females, respectively. As little as 15% (v/v) Ham''s F-10 added to the BWW blocked the development of the random-bred embryos. Supplementing the BWW with Ham''s F-10 components revealed that hypoxanthine (6-30 .mu.M) was responsible for the developmental block to the random-bred embryos. The hypoxanthine block was partially (40%) reversed by adding the chelating agent, ethylenediaminetetraacetic acid. Breeding experiments showed that the hypoxanthine sensitivity of embryos from CD-1 mothers was not affected by the paternal genome.This publication has 14 references indexed in Scilit:
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