Progressive increase of temperatures as well as longer seasonal drought periods revealed by climate studies correspond to fast environmental changes that forest species face with their actual genetic background. Natural selective processes cannot develop an adaptive response within this time frame. Thus the capability of forest tree species to adapt to the new environments will depend on their genetic background, but also rely on their phenotypic plasticity. Several reports have shown the involvement of epigenetic modifiers as the basis of the phenotypic plasticity, and in particular to the adaptation to abiotic stresses. DNA methylation (methylation of cytosine residues)is one the most important epigenetic modification in eukaryotes. Itis involved in specific biological processes such as gene transcription regulation, gene silencing, mobile element control or genome imprinting.Therefore, there is a great interest in analyzing cytosine methylation levels and distribution within the genome
CITATION STYLE
Guevara, A., Sáez, E., Díaz, L.-M., Herranz, T., Barbero, C., Vélez, D., … Cervera, T. (2011). DNA methylation and adaptive response in forest tree species. BMC Proceedings, 5(S7). https://doi.org/10.1186/1753-6561-5-s7-p86
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