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Am J Hum Genet. 2003 Nov;73(5):1157-61. Epub 2003 Oct 1.

Missense mutations in hMLH1 and hMSH2 are associated with exonic splicing enhancers.

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Department of Epidemiology, The University of Texas M. D. Anderson Cancer Center, Houston, TX 77030, USA.


There is a critical need to understand why missense mutations are deleterious. The deleterious effects of missense mutations are commonly attributed to their impact on primary amino acid sequence and protein structure. However, several recent studies have shown that some missense mutations are deleterious because they disturb cis-acting splicing elements-so-called "exonic splicing enhancers" (ESEs). It is not clear whether the ESE-related deleterious effects of missense mutations are common. We have evaluated colocalization of pathogenic missense mutations (found in affected individuals) with high-score ESE motifs in the human mismatch-repair genes hMSH2 and hMLH1. We found that pathogenic missense mutations in the hMSH2 and hMLH1 genes are located in ESE sites significantly more frequently than expected. Pathogenic missense mutations also tended to decrease ESE scores, thus leading to a higher propensity for splicing defects. In contrast, nonpathogenic missense mutations (polymorphisms found in unaffected individuals) and nonsense mutations are distributed randomly in relation to ESE sites. Comparison of the observed and expected frequencies of missense mutations in ESE sites shows that pathogenic effects of >/=20% of mutations in hMSH2 result from disruption of ESE sites and disturbed splicing. Similarly, pathogenic effects of >/=16% of missense mutations in the hMLH1 gene are ESE related. The colocalization of pathogenic missense mutations with ESE sites strongly suggests that their pathogenic effects are splicing related.

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