European Stone Fruit Yellows (ESFY) is an emerging disease caused by 'Candidatus Phytoplasma prunorum' ('Ca. P. prunorum') affecting stone fruits, as apricots. Resistant apricot cultivars are unknown, but it has been demonstrated that individual plants can recover from the disease, behaving as completely tolerant to ESFY. The status of tolerance is transmissible by grafting to successive apricot individuals, but it is not clear whether recovery corresponds to a transmissible tolerance that depends on a plant-mediated reaction or if it is due to a cross-protection promoted by a transmissible protective agent i.e. hypovirulent strain/s of 'Ca. P. prunorum'. Results achieved after prolonged field experiments support the first hypothesis. Two groups of apricot plants derived from a common recovered mother (one 'Ca. P. prunorum'-free after heat-treatment and the second not heat-treated, i.e. harbouring potential protective strain/s of the phytoplasma), behaved similarly: no plants from either of the two groups developed stable ESFY symptoms after natural infections. Corresponding groups of plants, derived from symptomatic mothers, developed a high percentage of diseased plants after natural infection. No potential protective 'Ca. P. prunorum' hypovirulent strains were detected in the asymptomatic apricot plants. The summarized evidence supports a host-defence induction, likely of epigenetic feature. The present long-term study in apricot represents an uncommon empiric proof supporting the theory of inducible resistance to pathogens in plants
This work reports the comparison of the genome sequence and the ability to inhibit fungal growth of two Pseudomonas protegens related strains that were isolated from the same hydroponic culture of lamb's lettuce. The two strains were very similar in their core genome but one strain, Pf4, contained three gene clusters for the production of secondary metabolites, i.e., pyoluteorin (plt), pyrrolnitrin (prn), and rhizoxin (rzx), that were missing in the other strain, Pf11. The difference between the two strains was not due to simple insertion events, but to a relatively complex differentiation focused on the accessory genomes. In dual culture assays, both strains inhibited nearly all tested fungal strains, yet Pf4 exerted a significantly stronger fungal growth inhibition than Pf11. In addition to the differences in the secondary metabolite production associated genes abundance, the genome of Pf4 was more stable, smaller in size and with a lower number of transposons. The preservation of a dynamic equilibrium within natural populations of different strains comprised in the same species but differing in their secondary metabolite repertoire and in their genome stability may be functional to the adaptation to environmental changes.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.