1. Expression of beta-galactosidase in preimplantation ovine and porcine embryos
- Author
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Kriss A. Hoffman, David J. Prieur, Robert D. Murnane, and Raymond W. Wright
- Subjects
animal structures ,Swine ,Cell ,Alpha (ethology) ,Biology ,General Biochemistry, Genetics and Molecular Biology ,Gene Expression Regulation, Enzymologic ,Andrology ,Mice ,medicine ,Animals ,Gene ,chemistry.chemical_classification ,Sheep ,Embryonic Stage ,Embryo ,beta-Galactosidase ,Porcine embryos ,Embryonic stem cell ,Molecular biology ,Galactosidases ,medicine.anatomical_structure ,Enzyme ,Blastocyst ,chemistry ,embryonic structures ,Female ,Lysosomes - Abstract
Knowledge regarding the timing of embryonic expression of the mammalian genome is of relevance for the development of preimplantation diagnostic methods for human genetic diseases. For development of preimplantation diagnosis of lysosomal storage diseases, it will be necessary to know at which embryonic stage the genes for lysosomal enzymes are expressed. In previous studies by other investigators, it has been shown that lysosomal alpha- and beta-galactosidase and beta-glucuronidase in murine embryos increase 50- to 100-fold in activity between the two-cell and late blastocyst stage. We describe here expression of lysosomal beta-galactosidase in preimplantation ovine (two-cell through midblastocyst) and porcine (two-cell through late blastocyst) embryos. Expression of beta-galactosidase in ovine and porcine preimplantation embryos followed a similar rate of increase as that described for murine embryos. Activity of beta-galactosidase increased over 10-fold between the two- to four-cell and midblastocyst stages in ovine embryos, and 300-fold between the two- to four-cell and late blastocyst stages in porcine embryos. Activity expressed on a per cell basis was relatively constant in ovine embryos, as has been described in murine embryos, and increased approximately 5-fold on a per cell basis in porcine embryos. Activity of beta-galactosidase in ovine and porcine embryos initially was greater than 12-fold on a per cell or per embryo basis than in murine embryos evaluated. The knowledge of beta-galactosidase embryonic expression may provide the basis for preimplantation diagnosis of genetic beta-galactosidase deficiency in these species.
- Published
- 1990