AI Article Synopsis
- Willows are highly adaptable trees found in the northern hemisphere, and recent genomic data allows for a deeper understanding of their evolutionary patterns.
- Transcript sequences from 10 Salicaceae species were analyzed to construct a phylogenetic tree, estimate divergence times, and identify genes related to environmental stress resistance.
- The study revealed significant divergence around 17.6-16.0 million years ago, highlighting genes that help different willow groups adapt to various environmental conditions, contributing to our knowledge of their evolutionary processes.
Article Abstract
Background: Willows are widely distributed in the northern hemisphere and have good adaptability to different living environment. The increasing of genome and transcriptome data provides a chance for comparative analysis to study the evolution patterns with the different origin and geographical distributions in the Salix phylogeny.
Results: Transcript sequences of 10 Salicaceae species were downloaded from public databases. All pairwise of orthologues were identified by comparative analysis in these species, from which we constructed a phylogenetic tree and estimated the rate of diverse. Divergence times were estimated in the 10 Salicaceae using comparative transcriptomic analysis. All of the fast-evolving positive selection sequences were identified, and some cold-, drought-, light-, universal-, and heat- resistance genes were discovered.
Conclusions: The divergence time of subgenus Vetrix and Salix was about 17.6-16.0 Mya during the period of Middle Miocene Climate Transition (21-14 Mya). Subgenus Vetrix diverged to migratory and resident groups when the climate changed to the cool and dry trend by 14 Mya. Cold- and light- stress genes were involved in positive selection among the resident Vetrix, and which would help them to adapt the cooling stage. Universal- stress genes exhibited positive selection among the migratory group and subgenus Salix. These data are useful for comprehending the adaptive evolution and speciation in the Salix lineage.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6440167 | PMC |
| http://dx.doi.org/10.1186/s12864-019-5627-z | DOI Listing |
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