SMILE

Stochastic Models for the Inference of Life Evolution

Bibtex

@article{loire_hypermutability_2009,
Author = {Loire, Etienne and Praz, Françoise and Higuet,
Dominique and Netter, Pierre and Achaz, Guillaume},
Title = {Hypermutability of genes in {Homo} sapiens due to the
hosting of long mono-{SSR}},
Journal = {Molecular Biology and Evolution},
Volume = {26},
Number = {1},
Pages = {111--121},
abstract = {Simple sequence repeats (SSRs) are very common short
repeats in eukaryotic genomes. "Long" SSRs are
considered "hypermutable" sequences because they
exhibit a high rate of expansion and contraction.
Because they are potentially deleterious, long SSRs
tend to be uncommon in coding sequences. However,
several genes contain long SSRs in their exonic
sequences. Here, we identify 1,291 human genes that
host a mononucleotide SSR long enough to be prone to
expansion or contraction, being called hypermutable
hereafter. On the basis of Gene Ontology annotations,
we show that only a restricted number of functions are
overrepresented among those hypermutable genes
including cell cycle and maintenance of DNA integrity.
Using a probabilistic model, we show that genes
involved in these functions are expected to host long
SSRs because they tend to be long and/or are biased in
nucleotide composition. Finally, we show that for
almost all functions we observe fewer hypermutable
sequences than expected under a neutral model. There
are however interesting exceptions, for example, genes
involved in protein and RNA transport, as well as
meiosis and mismatch repair functions that have as many
hypermutable genes as expected under neutrality.
Conversely, there are functions (e.g., collagen-related
genes) where hypermutable genes are more often avoided
than in other functions. Our results show that, even
though several functions harbor unusually long SSR in
their exons, long SSRs are deleterious sequences in
almost all functions and are removed by purifying
selection. The strength of this purifying selection
however greatly varies from function to function. We
discuss possible explanations for this intriguing
result.},
doi = {10.1093/molbev/msn230},
issn = {1537-1719},
language = {eng},
month = jan,
pmid = {18845548},
year = 2009
}