Erysiphe necator is the causal agent of powdery mildew(PM),one of the most destructive diseases of grapevine.PM is controlled by sulfur-based and synthetic fungicides,which every year are dispersed into the environmen...Erysiphe necator is the causal agent of powdery mildew(PM),one of the most destructive diseases of grapevine.PM is controlled by sulfur-based and synthetic fungicides,which every year are dispersed into the environment.This is why PM-resistant varieties should become a priority for sustainable grapevine and wine production.PM resistance can be achieved in other crops by knocking out susceptibility S-genes,such as those residing at genetic loci known as MLO(Mildew Locus O).All MLO S-genes of dicots belong to the phylogenetic clade V,including grapevine genes VvMLO7,11 and 13,which are upregulated during PM infection,and VvMLO6,which is not upregulated.Before adopting a gene-editing approach to knockout candidate S-genes,the evidence that loss of function of MLO genes can reduce PM susceptibility is necessary.This paper reports the knockdown through RNA interference of VvMLO6,7,11 and 13.The knockdown of VvMLO6,11 and 13 did not decrease PM severity,whereas the knockdown of VvMLO7 in combination with VvMLO6 and VvMLO11 reduced PM severity up to 77%.The knockdown of VvMLO7 and VvMLO6 seemed to be important for PM resistance,whereas a role for VvMLO11 does not seem likely.Cell wall appositions(papillae)were present in both resistant and susceptible lines in response to PM attack.Thirteen genes involved in defense were less upregulated in infected mlo plants,highlighting the early mlo-dependent disruption of PM invasion.展开更多
Polyploidy is characterized by the presence of two or more complete sets of chromosomes coming from intraspecies whole-genome duplication(i.e.,autopolyploidy)or from hybridization between distinct but related species(...Polyploidy is characterized by the presence of two or more complete sets of chromosomes coming from intraspecies whole-genome duplication(i.e.,autopolyploidy)or from hybridization between distinct but related species(i.e.,allopolyploidy).Poly-ploidization is a driving force in the evolution of higher plants,most of the plant species have experienced ancient or recent genome duplication events that have led to several genome modifications,such as chromosomal reorganization,gene conversion,sub-genome dominance,alteration of gene expression patterns,and expansion/contraction of some gene families.展开更多
基金This work was funded by the autonomous province of Trento(Italy)and the GMPF PhD program.
文摘Erysiphe necator is the causal agent of powdery mildew(PM),one of the most destructive diseases of grapevine.PM is controlled by sulfur-based and synthetic fungicides,which every year are dispersed into the environment.This is why PM-resistant varieties should become a priority for sustainable grapevine and wine production.PM resistance can be achieved in other crops by knocking out susceptibility S-genes,such as those residing at genetic loci known as MLO(Mildew Locus O).All MLO S-genes of dicots belong to the phylogenetic clade V,including grapevine genes VvMLO7,11 and 13,which are upregulated during PM infection,and VvMLO6,which is not upregulated.Before adopting a gene-editing approach to knockout candidate S-genes,the evidence that loss of function of MLO genes can reduce PM susceptibility is necessary.This paper reports the knockdown through RNA interference of VvMLO6,7,11 and 13.The knockdown of VvMLO6,11 and 13 did not decrease PM severity,whereas the knockdown of VvMLO7 in combination with VvMLO6 and VvMLO11 reduced PM severity up to 77%.The knockdown of VvMLO7 and VvMLO6 seemed to be important for PM resistance,whereas a role for VvMLO11 does not seem likely.Cell wall appositions(papillae)were present in both resistant and susceptible lines in response to PM attack.Thirteen genes involved in defense were less upregulated in infected mlo plants,highlighting the early mlo-dependent disruption of PM invasion.
文摘Polyploidy is characterized by the presence of two or more complete sets of chromosomes coming from intraspecies whole-genome duplication(i.e.,autopolyploidy)or from hybridization between distinct but related species(i.e.,allopolyploidy).Poly-ploidization is a driving force in the evolution of higher plants,most of the plant species have experienced ancient or recent genome duplication events that have led to several genome modifications,such as chromosomal reorganization,gene conversion,sub-genome dominance,alteration of gene expression patterns,and expansion/contraction of some gene families.
