Alves, Mônica N.

Among citrus diseases, Huanglongbing (HLB) is recognized as the most destructive and economically damaging worldwide. It is mainly associated with ‘ Candidatus Liberibacter asiaticus’ ( C Las) being transmitted by Diaphorina citri . There are no curative treatments or commercial citrus varieties resistant to C Las. Wild Aurantioideae species have been widely screened and, recently, Oceanian genotypes graft- and sexually compatible with Citrus were identified as HLB-resistant; however, there is no information regarding their use as interstocks of commercial varieties yet. Under greenhouse conditions, six HLB-resistant genotypes were evaluated as interstocks between ‘Valencia’ sweet orange scion and ‘Rangpur’ lime rootstock, both susceptible to HLB, with ‘Valencia’ interstock as the control. Rootstocks were nucellar seedlings, and the scion was a commercial accession preimmunized with a mild CTV strain. Plants were assessed for C Las infection and titer in leaves, stem bark, and roots up to 12–24 months after graft-inoculation in the scion and compared to non-inoculated controls. Furthermore, molecular, anatomical, and biometric variables were investigated. As expected, the scion variety was colonized by C Las regardless of the genotype evaluated as interstock. Although bacteria were detected in the roots of most C Las-inoculated plants, C Las movement from the scion to the roots was blocked in 42% and 86% of composite plants when using a F1 hybrid of C. australis × C. inodora or an admixture hybrid of C. glauca , C. australis , and C. australasica as interstocks. Overall, C Las titers were similar in infected plant tissues among the evaluated genotypes, but titers were lower in interstock bark tissues compared to scion and rootstock ones. After one-two years of C Las + CTV infection (experiments I and II, respectively), the dry weight of the root system decreased by 50% in infected trees compared to control trees for most genotypes, and C Las + CTV infection was associated with changes in the sieve phloem and gene expression. These findings suggest that, despite CTV infection, interstocks derived from some hybrids of Australian citrus types have the potential to restrict the movement of C Las from the scion into the roots of infected citrus trees. Long-term evaluation of composite plants in field conditions is necessary to assess tree performance and, ultimately, the impact of C Las blockage by interstocking on HLB disease damage.

Huanglongbing (HLB) is a devastating disease of citrus plants caused by the non-culturable phloem-inhabiting bacterium Candidatus Liberibacter ssp., being Ca. Liberibacter asiaticus (CLas) the most aggressive species. CLas is vectored by the psyllid Diaphorina citri and introduced into sieve cells, establishing a successful infection in all Citrus species. Partial or complete resistance has been documented in the distant relatives Murraya paniculata and Bergera koenigii, respectively, providing excellent systems to investigate the molecular basis of HLB-resistance. It has been shown previously that the first weeks after bacterial release into the phloem are critical for the establishment of the bacterium. In this study, a thorough transcriptomic analysis of young flushes exposed to CLas-positive and negative psyllids has been performed in Citrus × sinensis, as well as in the aforementioned resistant species, along the first eight weeks after exposure. Our results indicate that the resistant species do not deploy a classical immunity response upon CLas recognition. Instead, transcriptome changes are scarce and only a few genes are differentially expressed when flushes exposed to CLas-positive and negative psyllid are compared. Functional analysis suggests that primary metabolism and other basic cellular functions could be rewired in the resistant species to limit infection. Transcriptomes of young flushes of the three species are very different, supporting the existence of distinct biochemical niches for the bacterium. These findings suggest that both intrinsic metabolic inadequacies to CLas survival, as well as inducible reprogramming of physiological functions upon CLas recognition, could orchestrate together restriction of bacterial multiplication in these resistant hosts.

Huanglongbing (HLB), the most destructive citrus disease, is associated with unculturable, phloem-limited Candidatus Liberibacter species, mainly Ca. L. asiaticus (Las). Las is transmitted naturally by the insect Diaphorina citri. In a previous study, we determined that the Oceanian citrus relatives Eremocitrus glauca, Microcitrus warburgiana, Microcitrus papuana, and Microcitrus australis and three hybrids among them and Citrus were full-resistant to Las. After 2 years of evaluations, leaves of those seven genotypes remained Las-free even with their susceptible rootstock being infected. However, Las was detected in their stem bark above the scion-rootstock graft union. Aiming to gain an understanding of the full-resistance phenotype, new experiments were carried out with the challenge-inoculated Oceanian citrus genotypes through which we evaluated: (1) Las acquisition by D. citri fed onto them; (2) Las infection in sweet orange plants grafted with bark or budwood from them; (3) Las infection in sweet orange plants top-grafted onto them; (4) Las infection in new shoots from rooted plants of them; and (5) Las infection in new shoots of them after drastic back-pruning. Overall, results showed that insects that fed on plants from the Oceanian citrus genotypes, their canopies, new flushes, and leaves from rooted cuttings evaluated remained quantitative real-time polymerase chain reaction (qPCR)-negative. Moreover, their budwood pieces were unable to infect sweet orange through grafting. Furthermore, sweet orange control leaves resulted infected when insects fed onto them and graft-receptor susceptible plants. Genomic and morphological analysis of the Oceanian genotypes corroborated that E. glauca and M. warburgiana are pure species while our M. australis accession is an M. australis × M. inodora hybrid and M. papuana is probably a M. papuana × M. warburgiana hybrid. E. glauca × C. sinensis hybrid was found coming from a cross between E. glauca and mandarin or tangor. Eremocitrus × Microcitrus hybrid is a complex admixture of M. australasica, M. australis, and E. glauca while the last hybrid is an M. australasica × M. australis admixture. Confirmation of consistent full resistance in these genotypes with proper validation of their genomic parentages is essential to map properly genomic regions for breeding programs aimed to generate new Citrus-like cultivars yielding immunity to HLB.

Huanglongbing (HLB) is the most destructive, yet incurable disease of citrus. Finding sources of genetic resistance to HLB-associated ‘CandidatusLiberibacter asiaticus’ (Las) becomes strategic to warrant crop sustainability, but no resistantCitrusgenotypes exist. SomeCitrusrelatives of the family Rutaceae, subfamily Aurantioideae, were described as full-resistant to Las, but they are phylogenetically far, thus incompatible withCitrus. Partial resistance was indicated for certain cross-compatible types. Moreover, other genotypes from subtribe Citrinae, sexually incompatible but graft-compatible withCitrus, may provide new rootstocks able to restrict bacterial titer in the canopy. Use of seedlings from monoembryonic species and inconsistencies in previous reports likely due to Las recalcitrance encouraged us to evaluate more accurately theseCitrusrelatives. We tested for Las resistance a diverse collection of graft-compatible Citrinae species using an aggressive and consistent challenge-inoculation and evaluation procedure. Most Citrinae species examined were either susceptible or partially resistant to Las. However,Eremocitrus glaucaand Papua/New GuineaMicrocitrusspecies as well as their hybrids and those withCitrusarose here for the first time as full-resistant, opening the way for using these underutilized genotypes as Las resistance sources in breeding programs or attempting using them directly as possible new Las-resistantCitrusrootstocks or interstocks.