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Broomcorn millet (Panicum miliaceum L.) was domesticated in northern China at least 7,000 years ago and was subsequentially adopted as a cereal in many areas throughout Eurasia. One such locale is Areni-1 an archaeological cave site in Southern Armenia, a region that has an important history in crop domestication. The rich botanical material found at Areni-1 includes grains identified by morphology as broomcorn millet that were 14C dated to the medieval era (873 ± 36 CE and 1118 ± 35 CE). To retrace the demographic history of these broomcorn millet samples, we used ancient DNA extraction and hybridization capture enrichment to sequence and assemble three chloroplast genomes from the Areni-1 grains and then compared these sequences to 50 modern chloroplast genomes. Overall, the chloroplast genomes contained a low amount of diversity and little inference on broomcorn demography could be made. However, in a phylogeny the chloroplast genomes separated into two clades with strong bootstrap support, similar to what has been reported for nuclear DNA from broomcorn millet. In a haplotype network, the chloroplast genomes of two accessions of wild (undomesticated) broomcorn millet contained a relatively large number of variants, 11 SNPs. These SNPs were not present in the domesticated varieties, suggesting these wild accessions may not be directly related to the lineages that underwent domestication or that broomcorn millet may have undergone a domestication bottleneck resulting in lost diversity in the chloroplast genome. These results demonstrate that broomcorn millet from archaeological sites can preserve DNA for at least 1000 years and serve as a genetic resource to study the domestication of this cereal crop. |
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