The tendency of individual CpG sites to be methylated is distinctive, non-random and well-regulated throughout the genome. We investigated the structural and spatial factors influencing CpGs methylation by performing an ultra-deep targeted methylation analysis on human, mouse and zebrafish genes. We found that methylation is not a random process and that closer neighboring CpG sites are more likely to share the same methylation status. Moreover, if the distance between CpGs increases, the degree of co-methylation decreases. We set up a simulation model to analyze the contribution of both the intrinsic susceptibility and the distance effect on the probability of a CpG to be methylated. Our finding suggests that the establishment of a specific methylation pattern follows a universal rule that must take into account of the synergistic and dynamic interplay of these two main factors: the intrinsic methylation susceptibility of specific CpG and the nucleotide distance between two CpG sites.

Nucleotide distance influences co-methylation between nearby CpG sites / Affinito, O.; Palumbo, D.; Fierro, A.; Cuomo, M.; DE RISO, Giulia; Monticelli, A.; Miele, G.; Chiariotti, L.; Cocozza, Sergio. - In: GENOMICS. - ISSN 0888-7543. - 112:1(2020), pp. 144-150. [10.1016/j.ygeno.2019.05.007]

Nucleotide distance influences co-methylation between nearby CpG sites

M. Cuomo;DE RISO, GIULIA;G. Miele;L. Chiariotti;S. Cocozza.
2020

Abstract

The tendency of individual CpG sites to be methylated is distinctive, non-random and well-regulated throughout the genome. We investigated the structural and spatial factors influencing CpGs methylation by performing an ultra-deep targeted methylation analysis on human, mouse and zebrafish genes. We found that methylation is not a random process and that closer neighboring CpG sites are more likely to share the same methylation status. Moreover, if the distance between CpGs increases, the degree of co-methylation decreases. We set up a simulation model to analyze the contribution of both the intrinsic susceptibility and the distance effect on the probability of a CpG to be methylated. Our finding suggests that the establishment of a specific methylation pattern follows a universal rule that must take into account of the synergistic and dynamic interplay of these two main factors: the intrinsic methylation susceptibility of specific CpG and the nucleotide distance between two CpG sites.
2020
Nucleotide distance influences co-methylation between nearby CpG sites / Affinito, O.; Palumbo, D.; Fierro, A.; Cuomo, M.; DE RISO, Giulia; Monticelli, A.; Miele, G.; Chiariotti, L.; Cocozza, Sergio. - In: GENOMICS. - ISSN 0888-7543. - 112:1(2020), pp. 144-150. [10.1016/j.ygeno.2019.05.007]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/776947
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