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Parental transposable element loads influence their dynamics in young Nicotiana hybrids and allotetraploids
C. Mhiri, C. Parisod, J. Daniel, M. Petit, KY. Lim, F. Dorlhac de Borne, A. Kovarik, AR. Leitch, MA. Grandbastien,
Language English Country Great Britain
Document type Journal Article, Research Support, Non-U.S. Gov't
Grant support
BTH01453
Association pour la Recherche sur les Nicotianées - International
ANR-05-BDIV-015
Agence Nationale de la Recherche - International
09150SH
Campus France - International
08782YM
Campus France - International
NLK
Free Medical Journals
from 1902 to 1 year ago
Wiley Free Content
from 1997 to 1 year ago
PubMed
30220091
DOI
10.1111/nph.15484
Knihovny.cz E-resources
- MeSH
- Phylogeny MeSH
- Genetic Variation MeSH
- Genetic Loci MeSH
- Hybridization, Genetic * MeSH
- Polyploidy * MeSH
- Base Sequence MeSH
- Nicotiana genetics MeSH
- DNA Transposable Elements genetics MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
The genomic shock hypothesis suggests that allopolyploidy is associated with genome changes driven by transposable elements, as a response to imbalances between parental insertion loads. To explore this hypothesis, we compared three allotetraploids, Nicotiana arentsii, N. rustica and N. tabacum, which arose over comparable time frames from hybridisation between increasingly divergent diploid species. We used sequence-specific amplification polymorphism (SSAP) to compare the dynamics of six transposable elements in these allopolyploids, their diploid progenitors and in corresponding synthetic hybrids. We show that element-specific dynamics in young Nicotiana allopolyploids reflect their dynamics in diploid progenitors. Transposable element mobilisation is not concomitant with immediate genome merger, but occurs within the first generations of allopolyploid formation. In natural allopolyploids, such mobilisations correlate with imbalances in the repeat profile of the parental species, which increases with their genetic divergence. Other restructuring leading to locus loss is immediate, nonrandom and targeted at specific subgenomes, independently of cross orientation. The correlation between transposable element mobilisation in allopolyploids and quantitative imbalances in parental transposable element loads supports the genome shock hypothesis proposed by McClintock.
Ecological Genomics Institute of Plant Sciences University of Bern Bern CH 3013 Switzerland
Institut Jean Pierre Bourgin INRA AgroParisTech CNRS Université Paris Saclay 78000 Versailles France
Institute of Biophysics Academy of Sciences of the Czech Republic Brno CZ 61265 Czech Republic
Leaf Research Imperial Brands 24100 Bergerac France
School of Biological and Chemical Sciences Queen Mary University of London London E1 4NS UK
References provided by Crossref.org
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