2014
DOI: 10.1073/pnas.1321818111
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Lineage-specific expansions of TET/JBP genes and a new class of DNA transposons shape fungal genomic and epigenetic landscapes

Abstract: TET/JBP dioxygenases oxidize methylpyrimidines in nucleic acids and are implicated in generation of epigenetic marks and potential intermediates for DNA demethylation. We show that TET/JBP genes are lineage-specifically expanded in all major clades of basidiomycete fungi, with the majority of copies predicted to encode catalytically active proteins. This pattern differs starkly from the situation in most other organisms that possess just a single or a few copies of the TET/JBP family. In most basidiomycetes, T… Show more

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Cited by 58 publications
(60 citation statements)
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“…The C. cinerea genome contains a total of 47 TET/JBP genes (Table S1), most of which are part of Kyakuja transposons (8). At least 32 of the TET/JBP genes are predicted to encode catalytically active proteins, and 29 of them belong to "complete" Kyakuja elements defined as possessing the three core genes, encoding a transposase, the TET/JBP enzyme, and a protein with a divergent HMG domain (8) (Fig. 1A and Tables S1 and S2).…”
Section: Resultsmentioning
confidence: 99%
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“…The C. cinerea genome contains a total of 47 TET/JBP genes (Table S1), most of which are part of Kyakuja transposons (8). At least 32 of the TET/JBP genes are predicted to encode catalytically active proteins, and 29 of them belong to "complete" Kyakuja elements defined as possessing the three core genes, encoding a transposase, the TET/JBP enzyme, and a protein with a divergent HMG domain (8) (Fig. 1A and Tables S1 and S2).…”
Section: Resultsmentioning
confidence: 99%
“…1A and Tables S1 and S2). The C. cinerea genome has two distinct paralogs of DNA cytosine methyltransferase 1 (DNMT1) (CC1G_01237 and CC1G_00579) that are present across all Agaricomycetes (mushrooms), but not other fungi (8). C. cinerea also encodes a third predicted DNA cytosine methylase (CC1G_00872, also called DNMT5) with a distinct architecture (8) which has been recently shown to methylate cytosines with a bias towards those in internucleosomal linker regions (27).…”
Section: Resultsmentioning
confidence: 99%
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