Abstract
De-domestication is a unique evolutionary process by which domesticated crops are converted into ‘wild predecessor like’ forms. Weedy rice (Oryza sativa f. spontanea) is an excellent model to dissect the molecular processes underlying de-domestication. Here, we analyse the genomes of 155 weedy and 76 locally cultivated rice accessions from four representative regions in China that were sequenced to an average 18.2 × coverage. Phylogenetic and demographic analyses indicate that Chinese weedy rice was de-domesticated independently from cultivated rice and experienced a strong genetic bottleneck. Although evolving from multiple origins, critical genes underlying convergent evolution of different weedy types can be found. Allele frequency analyses suggest that standing variations and new mutations contribute differently to japonica and indica weedy rice. We identify a Mb-scale genomic region present in weedy rice but not cultivated rice genomes that shows evidence of balancing selection, thereby suggesting that there might be more complexity inherent to the process of de-domestication.
Highlights
Approximately an 850 bp portion of one gene (LOC_Os05g19570, OsEXPA3) in the potential balancing selection Mega-base region was selected to sequence by Sanger method in all 38 Jiangsu indica type weedy rice sampled in this study
Four weedy rice sub-populations were independently subjected to demographic inferences
The genome was scanned in a 100 Kb window size and the population parameters (p, FST, Tajima’s D and heterozygosity rate) were estimated for each window by VCFtools[56]
Summary
Approximately an 850 bp portion of one gene (LOC_Os05g19570, OsEXPA3) in the potential balancing selection Mega-base region was selected to sequence by Sanger method in all 38 Jiangsu indica type weedy rice sampled in this study. Four weedy rice sub-populations were independently subjected to demographic inferences (that is, LN1, NX1 de-domesticated from TEJ, respectively; JS1, GD1 de-domesticated from IND, respectively).
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