Login / Signup

Mutations in DNA polymerase δ subunit 1 co-segregate with CMD2-type resistance to Cassava Mosaic Geminiviruses.

Yi-Wen LimBen N MansfeldPascal SchläpferKerrigan B GilbertNarayanan N NarayananWeihong QiQi WangZhenhui ZhongAdam BoyherJackson GehanGetu BeyeneZuh-Jyh Daniel LinWilliams EsumaSuhua FengChristelle ChanezNadine EggenbergerGerald AdigaTitus AlicaiSteven E JacobsenNigel J TaylorWilhelm GruissemRebecca S Bart
Published in: Nature communications (2022)
Cassava mosaic disease (CMD) suppresses cassava yields across the tropics. The dominant CMD2 locus confers resistance to cassava mosaic geminiviruses. It has been reported that CMD2-type landraces lose resistance after regeneration through de novo morphogenesis. As full genome bisulfite sequencing failed to uncover an epigenetic mechanism for this loss of resistance, whole genome sequencing and genetic variant analysis was performed and the CMD2 locus was fine-mapped to a 190 kilobase interval. Collectively, these data indicate that CMD2-type resistance is caused by a nonsynonymous, single nucleotide polymorphism in DNA polymerase δ subunit 1 (MePOLD1) located within this region. Virus-induced gene silencing of MePOLD1 in a CMD-susceptible cassava variety produced a recovery phenotype typical of CMD2-type resistance. Analysis of other CMD2-type cassava varieties identified additional candidate resistance alleles within MePOLD1. Genetic variation of MePOLD1, therefore, could represent an important genetic resource for resistance breeding and/or genome editing, and elucidating mechanisms of resistance to geminiviruses.
Keyphrases
  • crispr cas
  • genome editing
  • stem cells
  • gene expression
  • genome wide
  • signaling pathway
  • air pollution
  • endothelial cells
  • circulating tumor
  • copy number
  • artificial intelligence
  • high glucose