Subfunctionalization via adaptive evolution influenced by genomic context: the case of histone chaperones ASF1a and ASF1b.
@article{Abascal2013SubfunctionalizationVA,
title={Subfunctionalization via adaptive evolution influenced by genomic context: the case of histone chaperones ASF1a and ASF1b.},
author={Federico Abascal and Armelle Corpet and Zachary A. Gurard-Levin and David de Juan and Françoise Ochsenbein and Daniel Rico and Alfonso Valencia and Genevi{\`e}ve Almouzni},
journal={Molecular biology and evolution},
year={2013},
volume={30 8},
pages={
1853-66
}
}Gene duplication is regarded as the main source of adaptive functional novelty in eukaryotes. Processes such as neo- and subfunctionalization impact the evolution of paralogous proteins where functional divergence is frequently key to retain the gene copies. Here, we examined antisilencing function 1 (ASF1), a conserved eukaryotic H3-H4 histone chaperone, involved in histone dynamics during replication, transcription, and DNA repair. Although yeast feature a single ASF1 protein, two paralogs…
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