Huanglongbing (HLB), a highly destructive disease of citrus production worldwide, is presumably caused by ‘Candidatus Liberibacter asiaticus’ (CLas) because Koch's postulates have not been fulfilled.
More...Huanglongbing (HLB), a highly destructive disease of citrus production worldwide, is presumably caused by ‘Candidatus Liberibacter asiaticus’ (CLas) because Koch's postulates have not been fulfilled. No HLB resistant genotypes have been so far identified in commercial citrus species, hindering the development of resistance breeding. China is an important center of citrus germplasm resources with abundant wild citrus species. However, studies on the susceptibility or resistance of these wild citrus and their response mechanisms to CLas infection have been limited. In this study, we evaluated the symptom development and transcriptional differences among two wild citrus species, Citrus ichangensis ‘2586’Swingle and C. daoxianensis S.W. He, and the highly susceptible sweet orange (C. sinensis L. Osbeck).
No typical symptoms was observed and much less CLas accumulated in CLas inoculation tests showed that C. ichangensis did not display typical symptoms and accumulated much lower levels of bacterial, compared with C. daoxianensis and C. sinensis. Much greater number of differentially expressed genes were identified and pathways were purebred in diseased C. sinensis, followed by diseased C. daoxianensis then C. sinensis. Many pathways including cell wall, secondary metabolism, stress responses, RNA transcriptional regulation and protein modification were differentially regulated in three diseased citrus species but with different preferences. Particularly, genes associated with carbohydrate metabolism, callose deposition and photosynthesis process were significantly regulated in CLas-infected C. daoxianensis and C. sinensis but not in CLas-infected C. ichangensis.
Taken together, it seem to indicate that the relatively successful defenses of C. ichangensis against multiplication of CLas and its symptom development may involve a novel mechanism in which the carbohydrate metabolism and photosynthesis process was balanced with the normal physiology of the plant, and coordinationed with other regulation pathways. Transcriptome analysis showed that phloem protein 2 (pp2) genes related with callose deposition, starch synthesis and photosynthesis process were not significantly differentially expressed in CLas-affected C. ichangensis compared with the healthy control. Notably, genes from a group involved in secondary metabolism, such as isoprenoid and flavonoid biosynthesis pathway, were significantly up-regulated in CLas-affected C. ichangensis. The coordination of carbohydrate metabolism, photosynthesis process, phloem protein, cell wall metabolism and secondary metabolism may play important roles in mediating the tolerance of C. ichangensis against CLas infection. Evaluation of wild citrus resources to CLas infection is promising useful for citrus HLB resistance breeding in the future. Less...