A research team has summarized current progress on the yam genome, plastome, transcriptome, proteome, and metabolome, highlighting the nutrient-rich and bioactive compound-laden Dioscorea species. This research holds significant value for genetic studies and molecular breeding in yams, particularly as their global production has doubled in the past two decades, bolstering food security and sustenance in Africa. A research team has summarized current progress on the yam genome, plastome, transcriptome, proteome, and metabolome, highlighting the nutrient-rich and bioactive compound-laden Dioscorea species. This research holds significant value for genetic studies and molecular breeding in yams, particularly as their global production has doubled in the past two decades, bolstering food security and sustenance in Africa. Molecular & Computational biology Agriculture Phys.org – latest science and technology news stories
Researchers use omics technologies to accelerate yam research progress
