AI Article Synopsis
- The genus Quercus began diversifying about 55 million years ago, resulting in around 450 species, including the California oak Quercus lobata, which has a high-quality genome assembly that showcases its evolutionary advantages.
- Analysis of the oak's genome revealed a large effective population size despite a historical decline, with extensive gene duplications contributing to its genetic and phenotypic diversity.
- Unique patterns of DNA methylation connected to transposable elements indicate a presence of heterochromatin similar to grasses, supporting the idea that these genetic features enhance adaptability to environmental changes.
Article Abstract
The genus Quercus, which emerged ∼55 million years ago during globally warm temperatures, diversified into ∼450 extant species. We present a high-quality de novo genome assembly of a California endemic oak, Quercus lobata, revealing features consistent with oak evolutionary success. Effective population size remained large throughout history despite declining since early Miocene. Analysis of 39,373 mapped protein-coding genes outlined copious duplications consistent with genetic and phenotypic diversity, both by retention of genes created during the ancient γ whole genome hexaploid duplication event and by tandem duplication within families, including numerous resistance genes and a very large block of duplicated DUF247 genes, which have been found to be associated with self-incompatibility in grasses. An additional surprising finding is that subcontext-specific patterns of DNA methylation associated with transposable elements reveal broadly-distributed heterochromatin in intergenic regions, similar to grasses. Collectively, these features promote genetic and phenotypic variation that would facilitate adaptability to changing environments.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9018854 | PMC |
| http://dx.doi.org/10.1038/s41467-022-29584-y | DOI Listing |
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