AI Article Synopsis
- Researchers have studied the genome of the model fern Ceratopteris richardii, revealing its complex evolution and adaptations due to a significant genome duplication event 60 million years ago.
- This evolution includes gene loss, duplications, and horizontal gene transfers from bacteria, highlighting changes in defense-related gene families.
- The study enhances our understanding of plant biology and the evolution of seed plants by demonstrating how fern genes influenced seed development.
Article Abstract
The large size and complexity of most fern genomes have hampered efforts to elucidate fundamental aspects of fern biology and land plant evolution through genome-enabled research. Here we present a chromosomal genome assembly and associated methylome, transcriptome and metabolome analyses for the model fern species Ceratopteris richardii. The assembly reveals a history of remarkably dynamic genome evolution including rapid changes in genome content and structure following the most recent whole-genome duplication approximately 60 million years ago. These changes include massive gene loss, rampant tandem duplications and multiple horizontal gene transfers from bacteria, contributing to the diversification of defence-related gene families. The insertion of transposable elements into introns has led to the large size of the Ceratopteris genome and to exceptionally long genes relative to other plants. Gene family analyses indicate that genes directing seed development were co-opted from those controlling the development of fern sporangia, providing insights into seed plant evolution. Our findings and annotated genome assembly extend the utility of Ceratopteris as a model for investigating and teaching plant biology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9477723 | PMC |
| http://dx.doi.org/10.1038/s41477-022-01226-7 | DOI Listing |
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