Appropriate reduction of importin‐α gene expression enhances yellow dwarf disease resistance in common wheat

Abstract

SummaryBarley yellow dwarf viruses (BYDVs) cause widespread damage to global cereal crops. Here we report a novel strategy for elevating resistance to BYDV infection. The 17K protein, a potent virulence factor conserved in BYDVs, interacted with barley IMP‐α1 and ‐α2 proteins that are nuclear transport receptors. Consistently, a nuclear localization signal was predicted in 17K, which was found essential for 17K to be transported into the nucleus and to interact with IMP‐α1 and ‐α2. Reducing HvIMP‐α1 and ‐α2 expression by gene silencing attenuated BYDV‐elicited dwarfism, accompanied by a lowered nuclear accumulation of 17K. Among the eight common wheat CRISPR mutants with two to four TaIMP‐α1 and ‐α2 genes mutated, the triple mutant α1aaBBDD/α2AAbbdd and the tetra‐mutant α1aabbdd/α2AAbbDD displayed strong BYDV resistance without negative effects on plant growth under field conditions. The BYDV resistance exhibited by α1aaBBDD/α2AAbbdd and α1aabbdd/α2AAbbDD was correlated with decreased nuclear accumulation of 17K and lowered viral proliferation in infected plants. Our work uncovers the function of host IMP‐α proteins in BYDV pathogenesis and generates the germplasm valuable for breeding BYDV‐resistant wheat. Appropriate reduction of IMP‐α gene expression may be broadly useful for enhancing antiviral resistance in agricultural crops and other economically important organisms.