Add to ORKGEvidence accumulated over the last decade has shown that allopolyploid genomes may undergo drastic reorganization. However, timing and mechanisms of structural diploidization over evolutionary timescales are still poorly known. As transposable elements (TEs) represent major and labile components of plant genomes, they likely play a pivotal role in fuelling genome changes leading to long-term diploidization. Here, we exploit the 4.5 MY old allopolyploid Nicotiana section Repandae to investigate the impact of TEs on the evolutionary dynamics of genomes. Sequence-specific amplified polymorphisms (SSAP) on seven TEs with expected contrasted dynamics were used to survey genome-wide TE insertion polymorphisms. Comparisons of TE insertions in the ...
Background: the growing wealth of knowledge on whole-plant genome sequences is highlighting the key ...
Background Polyploidization can activate specific transposable elements, leading to their accumulat...
Allopolyploidy is acknowledged as an important force in plant evolution. Frequent allopolyploidy in ...
<div><p>Evidence accumulated over the last decade has shown that allopolyploid genomes may undergo d...
PubMed ID: 23185607This is an open-access article distributed under the terms of the Creative Common...
The genomic shock hypothesis suggests that allopolyploidy is associated with genome changes driven b...
International audienceThe genomic shock hypothesis suggests that allopolyploidy is associated with g...
Transposable elements (TEs) represent an important fraction of plant genomes and are likely to play ...
This is the peer reviewed version of the following article: Mhiri, C., et al. (2018). "Parental tran...
Summary Recent advances have highlighted the ubiquity of whole-genome duplication (polyploidy) in an...
International audienceThe role played by whole-genome duplication (WGD) in evolution and adaptation ...
International audienceAnalyses of selected bacterial artificial chromosomes (BACs) clones suggest th...
To provide insights into the fate of transposable elements (TEs) across timescales in a post-polyplo...
Allopolyploidy is a major driving force in plant evolution and can induce rapid structural changes i...
Background How new forms arise in nature has engaged evolutionary biologists since Darwin's seminal ...
Background: the growing wealth of knowledge on whole-plant genome sequences is highlighting the key ...
Background Polyploidization can activate specific transposable elements, leading to their accumulat...
Allopolyploidy is acknowledged as an important force in plant evolution. Frequent allopolyploidy in ...
<div><p>Evidence accumulated over the last decade has shown that allopolyploid genomes may undergo d...
PubMed ID: 23185607This is an open-access article distributed under the terms of the Creative Common...
The genomic shock hypothesis suggests that allopolyploidy is associated with genome changes driven b...
International audienceThe genomic shock hypothesis suggests that allopolyploidy is associated with g...
Transposable elements (TEs) represent an important fraction of plant genomes and are likely to play ...
This is the peer reviewed version of the following article: Mhiri, C., et al. (2018). "Parental tran...
Summary Recent advances have highlighted the ubiquity of whole-genome duplication (polyploidy) in an...
International audienceThe role played by whole-genome duplication (WGD) in evolution and adaptation ...
International audienceAnalyses of selected bacterial artificial chromosomes (BACs) clones suggest th...
To provide insights into the fate of transposable elements (TEs) across timescales in a post-polyplo...
Allopolyploidy is a major driving force in plant evolution and can induce rapid structural changes i...
Background How new forms arise in nature has engaged evolutionary biologists since Darwin's seminal ...
Background: the growing wealth of knowledge on whole-plant genome sequences is highlighting the key ...
Background Polyploidization can activate specific transposable elements, leading to their accumulat...
Allopolyploidy is acknowledged as an important force in plant evolution. Frequent allopolyploidy in ...