BACKGROUND: We investigated how an extremely transposon element (TE)-rich organism such as the plant-symbiotic ascomycete truffle Tuber melanosporum exploits DNA methylation to cope with the more than 45,000 repeated elements that populate its genome. RESULTS: Whole-genome bisulfite sequencing performed on different developmental stages reveals a high fraction of methylated cytosines with a strong preference for CpG sites. The methylation pattern is highly similar among samples and selectively targets TEs rather than genes. A marked trend toward hypomethylation is observed for TEs located within a 1 kb distance from expressed genes, rather than segregated in TE-rich regions of the genome. Approximately 300 hypomethylated or unmethylated TEs are transcriptionally active, with higher expression levels in free-living mycelium compared to fruitbody. Indeed, multiple TE-enriched, copy number variant regions bearing a significant fraction of hypomethylated and expressed TEs are found almost exclusively in free-living mycelium. A reduction of DNA methylation, restricted to non-CpG sites and accompanied by an increase in TE expression, is observed upon treatment of free-living mycelia with 5-azacytidine. CONCLUSIONS: Evidence derived from analysis of the T. melanosporum methylome indicates that a non-exhaustive, partly reversible, methylation process operates in truffles. This allows for the existence of hypomethylated, transcriptionally active TEs that are associated with copy number variant regions of the genome. Non-exhaustive TE methylation may reflect a role of active TEs in promoting genome plasticity and the ability to adapt to sudden environmental changes.
BACKGROUND: We investigated how an extremely transposon element (TE)-rich organism such as the plant-symbiotic ascomycete truffle Tuber melanosporum exploits DNA methylation to cope with the more than 45,000 repeated elements that populate its genome. RESULTS: Whole-genome bisulfite sequencing performed on different developmental stages reveals a high fraction of methylated cytosines with a strong preference for CpG sites. The methylation pattern is highly similar among samples and selectively targets TEs rather than genes. A marked trend toward hypomethylation is observed for TEs located within a 1 kb distance from expressed genes, rather than segregated in TE-rich regions of the genome. Approximately 300 hypomethylated or unmethylated TEs are transcriptionally active, with higher expression levels in free-living mycelium compared to fruitbody. Indeed, multiple TE-enriched, copy number variant regions bearing a significant fraction of hypomethylated and expressed TEs are found almost exclusively in free-living mycelium. A reduction of DNA methylation, restricted to non-CpG sites and accompanied by an increase in TE expression, is observed upon treatment of free-living mycelia with 5-azacytidine. CONCLUSIONS: Evidence derived from analysis of the T. melanosporum methylome indicates that a non-exhaustive, partly reversible, methylation process operates in truffles. This allows for the existence of hypomethylated, transcriptionally active TEs that are associated with copy number variant regions of the genome. Non-exhaustive TE methylation may reflect a role of active TEs in promoting genome plasticity and the ability to adapt to sudden environmental changes.
Authors: Chul Min Ki; Byoung Il Je; Hai Long Piao; Soon Ju Par; Min Jung Kim; Sung Han Park; Jin Young Park; Su Hyun Park; Eun Kyeong Lee; Nam Soo Chon; Yong Jae Won; Gi Hwan Lee; Min Hee Nam; Doh Won Yun; Myung Chul Lee; Young Soon Cha; Ho Le Kon; Moo Young Eun; Chang-Deok Han Journal: Mol Cells Date: 2002-10-31 Impact factor: 5.034
Authors: Eric U Selker; Nikolaos A Tountas; Sally H Cross; Brian S Margolin; Jonathan G Murphy; Adrian P Bird; Michael Freitag Journal: Nature Date: 2003-04-24 Impact factor: 49.962
Authors: Zsolt Merényi; Máté Virágh; Emile Gluck-Thaler; Jason C Slot; Brigitta Kiss; Torda Varga; András Geösel; Botond Hegedüs; Balázs Bálint; László G Nagy Journal: Elife Date: 2022-02-14 Impact factor: 8.713
Authors: Raúl Castanera; Leticia López-Varas; Alessandra Borgognone; Kurt LaButti; Alla Lapidus; Jeremy Schmutz; Jane Grimwood; Gúmer Pérez; Antonio G Pisabarro; Igor V Grigoriev; Jason E Stajich; Lucía Ramírez Journal: PLoS Genet Date: 2016-06-13 Impact factor: 5.917