Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene
Background: Transposable elements (TEs) can be key drivers of evolution, but the mechanisms and scope of how they impact gene and genome function are largely unknown. Previous analyses revealed that TE-mediated gene amplifications can have variable effects on fungal genomes, from inactivation of function to production of multiple active copies. For example, a DNA methyltransferase gene in the wheat pathogen Zymoseptoria tritici (synonym Mycosphaerella graminicola) was amplified to tens of copies, all of which were inactivated by Repeat-Induced Point mutation (RIP) including the original, resulting in loss of cytosine methylation. In another wheat pathogen, Pyrenophora tritici-repentis, a histone H3 gene was amplified to tens of copies with little evidence of RIP, leading to many potentially active copies. To further test the effects of transposon-Aided gene amplifications on genome evolution and architecture, the repetitive fraction of the significantly expanded genome of the banana pathogen, Pseudocercospora fijiensis, was analyzed in greater detail. Results: These analyses identified a housekeeping gene, histone H3, which was captured and amplified to hundreds of copies by a hAT DNA transposon, all of which were inactivated by RIP, except for the original. In P. fijiensis the original H3 gene probably was not protected from RIP, but most likely was maintained intact due to strong purifying selection. Comparative analyses revealed that a similar event occurred in five additional genomes representing the fungal genera Cercospora, Pseudocercospora and Sphaerulina. Conclusions: These results indicate that the interplay of TEs and RIP can result in different and unpredictable fates of amplified genes, with variable effects on gene and genome evolution.
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| Language: | English |
| Subjects: | Fungal evolution, Genome evolution, Purifying selection, Transduplication, |
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dig-wur-nl-wurpubs-5538812024-12-04 Dhillon, Braham Kema, Gert H.J. Hamelin, Richard C. Bluhm, Burt H. Goodwin, Stephen B. Article/Letter to editor Mobile DNA 10 (2019) 1 ISSN: 1759-8753 Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene 2019 Background: Transposable elements (TEs) can be key drivers of evolution, but the mechanisms and scope of how they impact gene and genome function are largely unknown. Previous analyses revealed that TE-mediated gene amplifications can have variable effects on fungal genomes, from inactivation of function to production of multiple active copies. For example, a DNA methyltransferase gene in the wheat pathogen Zymoseptoria tritici (synonym Mycosphaerella graminicola) was amplified to tens of copies, all of which were inactivated by Repeat-Induced Point mutation (RIP) including the original, resulting in loss of cytosine methylation. In another wheat pathogen, Pyrenophora tritici-repentis, a histone H3 gene was amplified to tens of copies with little evidence of RIP, leading to many potentially active copies. To further test the effects of transposon-Aided gene amplifications on genome evolution and architecture, the repetitive fraction of the significantly expanded genome of the banana pathogen, Pseudocercospora fijiensis, was analyzed in greater detail. Results: These analyses identified a housekeeping gene, histone H3, which was captured and amplified to hundreds of copies by a hAT DNA transposon, all of which were inactivated by RIP, except for the original. In P. fijiensis the original H3 gene probably was not protected from RIP, but most likely was maintained intact due to strong purifying selection. Comparative analyses revealed that a similar event occurred in five additional genomes representing the fungal genera Cercospora, Pseudocercospora and Sphaerulina. Conclusions: These results indicate that the interplay of TEs and RIP can result in different and unpredictable fates of amplified genes, with variable effects on gene and genome evolution. en application/pdf https://research.wur.nl/en/publications/variable-genome-evolution-in-fungi-after-transposon-mediated-ampl 10.1186/s13100-019-0177-0 https://edepot.wur.nl/500952 Fungal evolution Genome evolution Purifying selection Transduplication https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Fungal evolution Genome evolution Purifying selection Transduplication Fungal evolution Genome evolution Purifying selection Transduplication |
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Fungal evolution Genome evolution Purifying selection Transduplication Fungal evolution Genome evolution Purifying selection Transduplication Dhillon, Braham Kema, Gert H.J. Hamelin, Richard C. Bluhm, Burt H. Goodwin, Stephen B. Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
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Background: Transposable elements (TEs) can be key drivers of evolution, but the mechanisms and scope of how they impact gene and genome function are largely unknown. Previous analyses revealed that TE-mediated gene amplifications can have variable effects on fungal genomes, from inactivation of function to production of multiple active copies. For example, a DNA methyltransferase gene in the wheat pathogen Zymoseptoria tritici (synonym Mycosphaerella graminicola) was amplified to tens of copies, all of which were inactivated by Repeat-Induced Point mutation (RIP) including the original, resulting in loss of cytosine methylation. In another wheat pathogen, Pyrenophora tritici-repentis, a histone H3 gene was amplified to tens of copies with little evidence of RIP, leading to many potentially active copies. To further test the effects of transposon-Aided gene amplifications on genome evolution and architecture, the repetitive fraction of the significantly expanded genome of the banana pathogen, Pseudocercospora fijiensis, was analyzed in greater detail. Results: These analyses identified a housekeeping gene, histone H3, which was captured and amplified to hundreds of copies by a hAT DNA transposon, all of which were inactivated by RIP, except for the original. In P. fijiensis the original H3 gene probably was not protected from RIP, but most likely was maintained intact due to strong purifying selection. Comparative analyses revealed that a similar event occurred in five additional genomes representing the fungal genera Cercospora, Pseudocercospora and Sphaerulina. Conclusions: These results indicate that the interplay of TEs and RIP can result in different and unpredictable fates of amplified genes, with variable effects on gene and genome evolution. |
| format |
Article/Letter to editor |
| topic_facet |
Fungal evolution Genome evolution Purifying selection Transduplication |
| author |
Dhillon, Braham Kema, Gert H.J. Hamelin, Richard C. Bluhm, Burt H. Goodwin, Stephen B. |
| author_facet |
Dhillon, Braham Kema, Gert H.J. Hamelin, Richard C. Bluhm, Burt H. Goodwin, Stephen B. |
| author_sort |
Dhillon, Braham |
| title |
Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| title_short |
Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| title_full |
Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| title_fullStr |
Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| title_full_unstemmed |
Variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| title_sort |
variable genome evolution in fungi after transposon-mediated amplification of a housekeeping gene |
| url |
https://research.wur.nl/en/publications/variable-genome-evolution-in-fungi-after-transposon-mediated-ampl |
| work_keys_str_mv |
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1819145653142421504 |