DamMet: ancient methylome mapping accounting for errors, true variants, and post-mortem DNA damage | Zendy

Kristian Hanghøj | Zendy; Gabriel Renaud | Zendy; Anders Albrechtsen | Zendy; Ludovic Orlando | Zendy

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DamMet: ancient methylome mapping accounting for errors, true variants, and post-mortem DNA damage

Author(s) -

Kristian Hanghøj,

Gabriel Renaud,

Anders Albrechtsen,

Ludovic Orlando

Publication year - 2019

Publication title -

gigascience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.947

H-Index - 54

ISSN - 2047-217X

DOI - 10.1093/gigascience/giz025

Subject(s) - dna methylation , computational biology , ancient dna , dna , biology , computer science , genetics , medicine , gene , gene expression , population , environmental health

Recent computational advances in ancient DNA research have opened access to the detection of ancient DNA methylation footprints at the genome-wide scale. The most commonly used approach infers the methylation state of a given genomic region on the basis of the amount of nucleotide mis-incorporations observed at CpG dinucleotide sites. However, this approach overlooks a number of confounding factors, including the presence of sequencing errors and true variants. The scale and distribution of the inferred methylation measurements are also variable across samples, precluding direct comparisons.

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