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Methods for evaluating exon-protein correspondences

According to the exon theory of genes, protein-coding genes evolved originally by combinatorial assembly of mini-gene precursors of modern exons. If so, then exons should tend to encode discrete bits of protein structure, as first suggested by C.C.F.Blake. In order to assess the evidence for Blake&#...

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Bibliographic Details
Published in:Bioinformatics 1995-10, Vol.11 (5), p.509-515
Main Authors: Stoltzfus, Arlin, Spencer, David F., Doolittle, W.Ford
Format: Article
Language:English
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Summary:According to the exon theory of genes, protein-coding genes evolved originally by combinatorial assembly of mini-gene precursors of modern exons. If so, then exons should tend to encode discrete bits of protein structure, as first suggested by C.C.F.Blake. In order to assess the evidence for Blake's conjecture, we have developed methods for evaluating the significance of correspondences between split gene structure and protein structure, using computer programs for measuring observed correspondences and comparing them to random expectations. Initial results of applying these methods to data on ancient proteins have been presented elsewhere. Here we describe the algorithms in detail, and demonstrate their effectiveness in finding correlations in idealized test cases. The likely effects of deletion and putative displacement (‘sliding’) of introns on the ability to detect correlations are also examined.
ISSN:1367-4803
0266-7061
1460-2059
DOI:10.1093/bioinformatics/11.5.509