Exon shuffling mimicked in cell culture: (a-crystallin / exon duplication / illegitimate recombination / protein evolution / small heat-shock proteins)
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Publication year
1999Source
Proceedings of the National Academy of Sciences USA, 96, 14, (1999), pp. 8074-8079ISSN
Publication type
Article / Letter to editor
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Organization
Biomolecular Chemistry
Journal title
Proceedings of the National Academy of Sciences USA
Volume
vol. 96
Issue
iss. 14
Page start
p. 8074
Page end
p. 8079
Subject
Bio-Molecular ChemistryAbstract
Undesired side products of DNA transfections are usually discarded. However, here, we show that such products may provide insight into mutational events that are also a major driving force in protein evolution. While studying the small heat-shock protein alphaA-crystallin, we transfected the hamster alphaA-crystallin gene into a mouse muscle cell line. One of the stable transfected cell lines expressed, in addition to the expected normal alphaA- and alternatively spliced alphaAins-crystallins, two slightly larger, immunologically cross-reacting proteins. These proteins were found to be encoded by a mutant alphaA-crystallin gene with a large intragenic duplication, arisen by illegitimate recombination at two CCCAT homologies, approximately 1.8 kilobases apart in the normal hamster alphaA-crystallin gene. As a consequence, a tandem-duplicated exon 3 sequence is present in the mature mRNA of this gene, resulting in a 41-residue repeat in the translated proteins. Cells expressing the elongated alphaA-crystallins have normal growth characteristics and the usual diffuse cytoplasmic distribution of immunoreactive alphaA-crystallin. Size-exclusion chromatography of cell extracts indicated that the mutant proteins are readily incorporated into the normal large water-soluble alphaA-crystallin complexes, showing that the insert does not disturb the integrity of these complexes. This viable alphaA-crystallin mutant thus mimics the origins and effects of exon duplication, which is a common consequence of exon shuffling in mammalian genome evolution.
This item appears in the following Collection(s)
- Academic publications [242594]
- Electronic publications [129556]
- Faculty of Science [36239]
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