Biochem. J.

Nucleotide sequencing of a human cosmid clone shows that the exon-intron structures of a glutathione S-transferase multigene family are conserved between man and rat, that the human gene family is clustered and that gene conversion events have occurred within the cluster. In addition, between man and rat, there is a high degree of nucleotide sequence identity not only in exons but also in some introns. These conserved sequences are coincident with homologous sequences subject to gene conversion in both species, and hence the utilization of gene conversion by this gene family has itself been conserved. By using transient-expression assay the conserved/converted regions are shown to be capable of modulating transcriptional activity. The data suggest that DNA repair by gene conversion may be a chemical immunity mechanism. which could result in acquired resistance to toxins and, in particular, drug resistance due to glutathione S-transferase in tumours.

Source:http://purl.uniprot.org/citations/2006920

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Nucleotide sequencing of a human cosmid clone shows that the exon-intron structures of a glutathione S-transferase multigene family are conserved between man and rat, that the human gene family is clustered and that gene conversion events have occurred within the cluster. In addition, between man and rat, there is a high degree of nucleotide sequence identity not only in exons but also in some introns. These conserved sequences are coincident with homologous sequences subject to gene conversion in both species, and hence the utilization of gene conversion by this gene family has itself been conserved. By using transient-expression assay the conserved/converted regions are shown to be capable of modulating transcriptional activity. The data suggest that DNA repair by gene conversion may be a chemical immunity mechanism. which could result in acquired resistance to toxins and, in particular, drug resistance due to glutathione S-transferase in tumours.
skos:exactMatch
uniprot:name
Biochem. J.
uniprot:author
Oliver J., Pemble S.E., Sherrington R., Taylor J.B.
uniprot:date
1991
uniprot:pages
587-593
uniprot:title
Structure of human glutathione S-transferase class Mu genes.
uniprot:volume
274