AI Article Synopsis
- Researchers previously cloned and mapped two GPX genes (gpx5 and gpx3) in the mouse epididymis, and here they report the chromosomal mapping of a third GPX gene (gpx1).
- They analyzed the identity and organization of the three GPX proteins and examined their expression in both the epididymis and other tissues like the liver and kidney, finding tissue-specific expression patterns.
- Comparison of GPX sequences across species indicated that these genes evolved through duplication and random insertions from a common ancestral gene.
Article Abstract
We have reported earlier the cloning and the chromosomal localization of 2 GPX-encoding sequences expressed differentially within the mouse epididymis, gpx5 and gpx3. Here, we have mapped on the mouse chromosomes the third known murine GPX-encoding gene, the cytosolic GPX or gpx1. We have compared the degree of identity of the 3 GPX proteins, the respective organization of the 3 corresponding single copy genes and, using degenerated oligonucleotides designed in highly conserved domains of the proteins, we have analyzed the expression of GPX-encoding genes in the mouse epididymis as well as in control tissues known to express GPX proteins (the liver for GPX1 and the kidney for GPX3). The 3 genes characterized to date were found expressed in each of the tissues tested but in a highly tissue-restricted manner. Nucleotidic sequences comparisons were carried out on GPX-encoding sequences from various species and were used to draw a dendrogram. Phylogenetic evaluation of the sequence information, as well as the chromosomal localizations, suggest that the GPX genes have evolved by duplication events followed by random insertions from a single ancestral gene.
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