Over-expression of the Arabidopsis <Emphasis Type="BoldItalic">NPR1</Emphasis> gene in citrus increases resistance to citrus canker

Citrus canker, caused by the bacterial pathogen Xanthomonas citri subsp. citri (Xcc), is a serious leaf and fruit spotting disease affecting many important citrus cultivars including grapefruit and certain sweet oranges. Currently, efficacious and economical disease control measures for highly susceptible citrus cultivars are lacking. Development of commercial cultivars with greater field resistance to citrus canker is the optimum strategy for effective disease management. In this study, we generated transgenic ‘Duncan’ grapefruit (DG) and ‘Hamlin’ sweet orange (Ham) expressing the Arabidopsis NPR1 gene (AtNPR1), which is a key positive regulator of the long-lasting broad-spectrum resistance known as systemic acquired resistance (SAR). Our results indicate that over-expression of AtNPR1 in citrus increases resistance to citrus canker and that the resistance is related with the expression levels of AtNPR1 in the transgenic plants. The line (DG 42-2) with the highest expression level of AtNPR1 was also the most resistant, which developed significant fewer lesions accompanied by a ten-fold reduction in Xcc population. The lesions developed on DG 42-2 were smaller and darker than those on the control and lacked callus formation. These lesion phenotypes resemble those on canker resistant kumquats and canker susceptible citrus trees treated with SAR-inducing compounds. Therefore, over-expression of AtNPR1 in citrus is a promising approach for development of more resistant cultivars to citrus canker.     

Detached leaf inoculation of germplasm for rapid screening of resistance to citrus canker and citrus bacterial spot

A detached leaf protocol for rapid screening of germplasm for resistance to citrus canker (Xanthomonas citri subsp. citri, Xcc) and citrus bacterial spot (Xanthomonas alfalfae subsp. citrumelonis, Xac) was developed to evaluate limited quantities of leaf material. Bacterial inocula of Xcc or Xac at 10⁴, 10⁵, or 10⁸ cfu ml⁻¹ were injection-infiltrated into the abaxial surface of disinfested, immature leaves of susceptible and resistant genotypes. Inoculated detached leaves were placed on the surface of 0.5% water agar plates and incubated at 28°C under a 12 h photoperiod. Likewise, inocula were infiltrated into attached leaves of greenhouse plants. At high inoculum concentrations of Xcc or Xac (10⁸ cfu ml⁻¹), resistant cultivars of kumquat developed a hypersensitive-like reaction within 3 days post inoculation (dpi). At 10⁵ cfu ml⁻¹, populations 14 dpi were <10⁴ per inoculation site. In canker-susceptible Citrus spp. (‘Duncan’ grapefruit and ‘Rough’ lemon), water-soaked areas occurred by 3 dpi and typical canker lesions developed by 7 to14 dpi. Concentration of Xcc recovered from inoculation sites was approximately 10⁵ cfu ml⁻¹ by 14 dpi. In citrus bacterial spot-susceptible citrus (‘Swingle’ citrumelo and grapefruit), symptoms developed within 7 dpi. Populations of Xac after inoculation at 10⁵ cfu ml⁻¹ were comparable to Xcc in susceptible hosts 14 dpi (>10⁵). The detached leaf assay is useful for the characterization and differentiation of lesion phenotype for each Xanthomonas pathogen permitting rapid screening of germplasm resistance based on the quantification of number of lesions and bacterial concentration.     

Hsp70 and Hsp90 expression in citrus and pepper plants in response to <Emphasis Type="Italic">Xanthomonas axonopodis</Emphasis> pv. <Emphasis Type="Italic">citri</Emphasis>

Hsp70 and Hsp90 expression in response to high and low temperatures was studied in orange, the host plant of Xanthomonas axonopodis pv. citri and in a non-host resistant plant, pepper. As expected in both plants, the expression of these chaperones was induced at high temperatures while at cold temperatures the response was chaperone and plant-dependent. Expression of Hsp70 and Hsp90 was analysed during citrus canker and no changes in their levels could be observed whereas pepper plants infiltrated with the phytopathogen showed an increase in the levels of both chaperones. These results suggest that no changes in Hsp70 and Hsp90 expression are necessary during the disease while they are increased in non-host resistance.     

Enhanced resistance to citrus canker in transgenic sweet orange expressing the sarcotoxin IA gene

Citrus canker, caused by the bacterial pathogen Xanthomonas citri subp. Citri (Xcc), is a serious disease reported in most citrus-producing areas around the world. Although different levels of field resistance to citrus canker have been reported in sweet oranges, they are usually not sufficient to provide adequate control of the disease. Ectopic over-expression of antibacterial genes is one of the potential strategies to increase plant resistance to bacterial diseases. Previous in vitro results showed that sarcotoxin IA, an antimicrobial peptide isolated from the flesh fly (Sarcophaga peregrina), can be efficient to control different plant pathogenic bacteria, including Xcc. Transgenic “Pera” sweet orange (Citrus sinensis [L.] Osbeck) plants constitutively expressing the sarcotoxin IA peptide fused to the PR1a signal peptide from Nicotiana tabacum for secretion in the intercellular space were obtained by Agrobacterium-mediated transformation using thin sections of mature explants. Citrus canker resistance evaluation in leaves of transgenic and non-transgenic plants was performed through inoculations with Xcc by infiltration and spraying. The Xcc population was up to 2 log unit lower in leaves of the transgenic plants compared to those of non-transgenic controls. Incidence of canker lesions was significantly higher in non-transformed controls (>10 lesions/cm²) than in the transgenic plants (<5 lesions/cm²) after injection infiltration or spraying with Xcc inoculum. Accumulation of sarcotoxin IA peptide in sweet orange tissue did not cause any deleterious effects on the growth and development of the transgenic plants, indicating this approach is suitable to provide resistance to citrus canker.     

Temperature Sensitivity of the Hypersensitive Response of Bell Pepper to Xanthomonas axonopodis pv. vesicatoria

ABSTRACT When bacterial spot-resistant pepper plants carrying resistance gene Bs2 and infiltrated with incompatible strains of Xanthomonas axonopodis pv. vesicatoria carrying a functional avrBs2 gene (races P1 and P3) were incubated at 32 degrees C, they exhibited an electrolyte leakage and bacterial multiplication pattern in planta similar to that obtained with a compatible strain (race P4) carrying a nonfunctional avrBs2 gene. They also developed disease-like symptoms. Pretreatment of incompatible bacteria at 32 degrees C before infiltration caused a delay in electrolyte leakage less pronounced than that caused by exposing plants to 32 degrees C. Also, plants had to be exposed to 32 degrees C for an hour prior to inoculation to increase symptom expression. These data suggest that the Bs2 gene is temperature sensitive. In other experiments, the avrBs1-Bs1 interaction appeared to be the most heat tolerant and thus the least likely to revert to compatible, whereas the avrBs3-Bs3 interaction had an intermediate sensitivity to elevated temperatures.     

Wind speed and wind-associated leaf injury affect severity of citrus canker on Swingle citrumelo

Citrus canker (caused by the bacterial pathogen Xanthomonas citri subsp. citri, Xcc) can cause severe damage to citrus. It is endemic in Florida, and occurs in other citrus growing regions. The bacterium is dispersed predominantly in rain splash. To simulate dispersal in splash, and to investigate the effect of wind speed on infection, young plants of Swingle citrumelo were exposed to sprayed inoculum at different wind speeds. Wind was generated using an axial fan, and a pressurized sprayer delivered the inoculum spray. In the five experiments, higher wind speeds (>10 m s⁻¹) consistently resulted in higher incidence and severity of citrus canker developing. By 15 ms⁻¹, there was a dramatic increase in disease. Visible injury to leaves of Swingle citrumelo due to wind was evident at wind speeds ≥ 13 m s⁻¹. The relationship between wind speed and disease, and wind speed and injury was described by a logistic model. More disease was associated with visible injury as the wind speed increased, and disease not associated with visible injury also increased with wind speed. The petiole-leaflet junction was more often infected at higher wind speeds (≥17 m s⁻¹). The concentration of the Xcc inoculum increased the incidence and severity of citrus canker in all experiments. Reducing wind speed in citrus groves with the aid of wind breaks may contribute to a reduction in the severity of an epidemic by reducing dispersal and infection events.     

Effect of the duration of inoculum exposure on development of citrus canker symptoms on seedlings of Swingle citrumelo

Citrus canker (Xanthomonas citri subsp. citri, Xcc) is one of the most serious diseases citrus in Florida, and elsewhere in the world. The disease causes yield loss and some fresh fruit trade restrictions may apply. Cultural management techniques such as windbreaks may work by not only reducing wind speed, but also reducing the period of exposure of susceptible foliage or fruit to those wind speeds that support infection from incoming inoculum. To investigate the effect of exposure period to inoculum of Xcc, seedlings of canker-susceptible Swingle citrumelo were exposed to sprayed inoculum for increasing periods at different wind speeds. The incidence and severity of citrus canker was assessed. In three experiments the incidence and severity of citrus canker most often increased with longer periods of exposure to inoculum, especially so at wind speeds of ≥16 m/s compared to wind speeds of ≤5 m/s (wind speed also increased disease incidence and severity). Regression analysis demonstrated relationships between period of exposure to inoculum and the percent infected leaves per plant, the number of lesions per plant, the number of lesions per infected leaf, and for the percent of infected leaves with lesions on the petioles at wind speeds of ≥16 m/s (R²?=?0.16–0.72). Due to the effect of inoculum exposure period and wind speed, attempts should be made to minimize exposure of canker-susceptible citrus when wind speed is highest and inoculum is available. Windbreaks should help minimize periods of exposure to splashed inoculum in high winds.     

Soil application of imidacloprid and related SAR-inducing compounds produces effective and persistent control of citrus canker

Soil application of the systemic insecticide imidacloprid (Admire®, Bayer Crop Science) produced season-long control of citrus canker caused by Xanthomonas citri sbsp. citri. Imidacloprid is a neo-nicotinoid that breaks down in planta into 6-chloronicotinic acid, a compound closely related to the systemic acquired resistance (SAR) inducer isonicotinic acid. Potted Swingle citrumelo seedlings (Citrus paradisi × Poncirus trifoliata) were treated with imidacloprid and the SAR inducers, isonicotinic acid, and acibenzolar-s-methyl as soil drenches or with acibenzolar-s-methyl as a foliar spray 1week prior to inoculation of immature leaves with X. citri sbsp. citri. Seedlings were re-inoculated four times over a 24-week period. SAR induction was confirmed by expression of the PR-2 gene (β-1,3 glucanase). Soil drenches of imidacloprid, isonicotinic acid, and acibenzolar-s-methyl induced a high and persistent up-regulation of PR-2 gene expression and reduced the number of canker lesions for up to 24 weeks compared to 4 weeks for foliar acibenzolar-s-methyl. Soil applied inducers of SAR reduced canker lesions up to 70% compared with the untreated inoculated plants. Lesions on leaves were small, necrotic, and flat compared to pustular lesions on inoculated untreated plants. Populations of X. citri sbsp. citri per leaf were reduced 1–3 log units in soil-treated plants compared to inoculated untreated plants.     

柑橘溃疡病菌的侵染过程及噻森铜对溃疡病的防治效果

为高效精准防治柑橘溃疡病,本研究对不同成熟度柑橘叶片接种溃疡病菌Xanthomonas citri subsp.cirri后的发病情况进行观察,并在显微镜下观察溃疡病菌侵染叶片的过程,并对不同浓度、不同施用方法下噻森铜的室内防治效果和田间防治效果进行测定,对施用噻森铜后土壤、叶片和果实中的残留进行测定.结果 表明,溃疡...     

Bacteria from the citrus phylloplane can disrupt cell–cell signalling in Xanthomonas citri and reduce citrus canker disease severity

Xanthomonas citri subsp. citri (Xcc) is the causal agent of citrus canker, a disease that affects almost all types of citrus crops. Production of particular Xcc pathogenicity factors is controlled by a gene cluster rpf, which encodes elements of a cell–cell communication system called quorum sensing (QS), mediated by molecules of the diffusible signal factor (DSF) family. Interference with cell–cell signalling, also termed quorum quenching, either by signal degradation or over‐production, has been suggested as a strategy to control bacterial disease. In this study, three bacterial strains were isolated from citrus leaves that displayed the ability to disrupt QS signalling in Xcc. Pathogenicity assays in sweet orange (Citrus sinensis) showed that bacteria of the genera Pseudomonas and Bacillus also have a strong ability to reduce the severity of citrus canker disease. These effects were associated with alteration in bacterial attachment and biofilm formation, factors that are known to contribute to Xcc virulence. These quorum‐quenching bacteria may represent a highly valuable tool in the process of biological control and offer an alternative to the traditional copper treatment currently used to treat citrus canker disease.     

Functional analysis of the 3′ end of avrBs3/pthA genes from two Xanthomonas species

The phytopathogens Xanthomonas oryzae pathovar (pv.) oryzae and Xanthomonas axonopodis pv. citri each contain several avrBs3/pthA family genes. Structural features of these genes important for avirulence and/or virulence functions include a central region of multiple direct repeats and three nuclear localization signals (NLSs) and an acidic activation domain (AAD) at the 3′ end. To identify other regions critical to function in the 3′ ends of these genes, we constructed several chimeras using apl1 and apl2 from X. axonopodis pv. citri and avrXa10 and avrXa7 from X. oryzae pv. oryzae and evaluated their functions by inoculation to citrus and rice. The apl1 and avrXa7 genes are major virulence determinants in citrus and rice, respectively, while the contributions of apl2 and avrXa10 to virulence are negligible or not measurable. Constructs that contained a 417 bp HincII-SphI fragment from the 3′ end of apl1 in combination with the repeats from avrXa7, avrXa10, and apl1 caused a canker phenotype on citrus. Interchange of the HincII-SphI fragment between avrXa7 and avrXa10 abolishes avrXa7 avirulence function and reduces its virulence but it does not affect avrXa10 avirulence function in rice. avrXa7 caused a hypersensitive response (HR) in citrus and replacement of it's 3′ end with that of apl1 resulted in loss of canker and induction of HR. Thus, the HincII-SphI fragment of the avrBs3/pthA gene family is important for avirulence and virulence functions in two different plant species, Oryza sativa and Citrus natsudaidai HAYATA.     

Description of copper tolerant Xanthomonas citri subsp. citri and genotypic comparison with sensitive and resistant strains

The copper-based products widely used for control of citrus canker may lead to the development of Xanthomonas citri subsp. citri (X. citri) resistant to copper (Cu^R). However, the study of copper sensitivity of X. citri strains from Paraná state, Brazil, did not reveal the existence of Cu^R, but copper tolerant (Cu^T) strains. The aim of this study was to describe for the first time the existence of Cu^T X. citri and compare the genetic determinants that differentiate the Cu^T strains from the sensitive (Cu^S) and Cu^R strains. Cu^T strains supported intermediate concentrations of copper in comparison to Cu^S and Cu^R. Cu^T strains lack the gene clusters copLAB or copABCD responsible for copper resistance in Cu^R strains and the large plasmids (c. ≥200 kb) that normally carry these genes. The nucleotide sequences of chromosomal homologous genes cohLAB, involved in copper homeostasis, were 100% similar in strains of all phenotypes. Cu^T strains differed from Cu^S strains by the higher expression of the homologous chromosomal genes cohA and cohB in the presence of copper. Cu^T X. citri strains are not precursors of Cu^R strains and do not pose a threat to the efficient use of copper-based bactericides for management of citrus canker in citrus orchards. Copper resistance and tolerance are distinct phenotypes and should not be used as synonyms. The proper characterization of the sensitivity to copper leads to a more confident monitoring of the distribution of copper resistant populations of X. citri and adoption of containment measures only when necessary.     

Narrow host range phages associated with citrus canker lesions in Florida and Argentina

Bacteriophages were isolated from naturally infected citrus canker lesions from diverse locations in Florida and Argentina and characterized for host range using a world-wide collection of Xanthomonas citri subsp. citri (Xcc) strains. Sixty-seven bacteriophages isolated from citrus canker lesions in Florida (37 bacteriophages) and Argentina (30 bacteriophages) revealed little diversity. All 30 phages isolated from four locations in Argentina had identical host ranges (group ARG), while 37 phages from Florida made up two groups (FLA and FLB). ARG and the 31 FLA phages produced clear plaques and had nearly identical host ranges as phage CP2 of Japan in that they only reacted with typical A strains and none of the atypical A strains (A^* and A^W) or other Xanthomonas spp. FLB phages had a different host range from the other strains and produced turbid plaques. We used phage typing, fatty acid analysis and riboprinter analysis to classify citrus-associated xanthomonads. Phage typing using 12 phages isolated from Xcc, X. fuscans subsp. aurantifolii (Xfa), X. alfalfae subsp. citrumelonis (Xacm), and other sources proved useful for classifying all major Xcc pathotypes and/or strains (A, A*, Miami (MI), Manatee (MA) and Wellington (A^W)), as well as B and C types of Xfa. X. citri subsp. citri strains from a worldwide collection were diverse in phage susceptibility. The majority of Xcc strains, which originated from different regions of the world and which were typical “A” pathotype strains based on pathogenicity characteristics, was sensitive to most phages (including CP2, FLA and ARG), and had nearly identical phage sensitivity profiles. MA strains were quite unique in that they reacted with none of the phages; furthermore, they were different from the putative progenitor MA strain, ATCC 49118, which reacted with a group of phages. Fatty acid analysis revealed considerable variation in Xcc-A, Xfa-B, Xfa-C and Xacm strains. Using riboprinter analysis, we identified a unique riboprinter pattern for strains isolated from an etrog tree (Citrus medica) in Florida that were “A” pathotype strains based on pathogenicity characteristics. Phage typing and fatty acid analysis were useful in corroborating that the etrog strains represent a unique new Xcc strain in Florida.     

Detection of Xanthomonas citri subsp. citri from field samples using single‐tube nested PCR

A single‐tube nested PCR was developed for detection of Xanthomonas citri subsp. citri (Xcc), the causal agent of citrus canker disease. The assay targets the pthA gene of Xcc and utilizes different annealing temperatures for the two primer pairs. It reliably detected as few as 1·0 × 10² Xcc cells, and was unaffected by the presence of PCR inhibitors. It was 10‐fold and 8500‐fold more sensitive than standard PCR and ELISA, respectively. Increased sensitivity was also achieved via the use of a washing method for DNA extraction, as opposed to direct extraction from leaf tissue. When evaluated for Xcc detection in 90 samples collected from affected pomelo orchards, the single‐tube nested PCR was superior to standard PCR, detecting the pathogen in 67 vs. 54 samples. It was also able to detect Xcc from samples with and without symptoms. This assay can be used as a rapid and sensitive technique for routine Xcc detection in field samples for surveillance of citrus canker.     

Annual and polyetic progression of citrus canker on trees protected with copper sprays

The effects of copper sprays on annual and polyetic progress of citrus canker, caused by Xanthomonas citri subsp. citri, in the presence of the Asian citrus leafminer (Phyllocnistis citrella), were evaluated in a study conducted in a commercial orchard in northwest Paraná state, Brazil, where citrus canker is endemic. Nonlinear monomolecular, logistic and Gompertz models were fitted to monthly disease incidence data (proportion of leaves with symptoms) for each treatment for three seasons. The logistic model provided the best estimate of disease progress for all years and treatments evaluated and logistic parameter estimates were used to describe polyetic disease dynamics. Although citrus canker incidence increased during each of the seasons studied, it decreased over the whole study period, more so in copper‐treated trees than in water‐sprayed controls. Copper treatment reduced disease incidence compared with controls in every year, especially 2004–2005, when incidence was ca. 10‐fold higher in controls than in treated plots (estimated asymptote values 0·82 and 0·07, respectively). Copper treatment also reduced estimated initial disease incidence and epidemic growth rates every year.     

N‐acetylcysteine interferes with the biofilm formation,motility and epiphytic behaviour of Xanthomonas citri subsp. citri

Citrus canker is caused by Xanthomonas citri subsp. citri. Bacterial biofilm formation is important in the development of this disease because it is a factor in epiphytic bacterial survival on leaves and in infection. N‐acetylcysteine (NAC), in addition to having antibacterial properties, reduces biofilm formation by a variety of bacteria and was therefore tested for impairing biofilm formation by X. citri. Copper is currently the antimicrobial compound most commonly applied in agriculture to control citrus canker. Therefore, this study also evaluated a possible synergistic effect between NAC and copper to improve the strategy for controlling this phytopathogen. NAC was found to decrease biofilm formation, the production of extracellular polysaccharides and bacterial stickiness. Motility was also affected in the presence of NAC. The best combination of NAC and copper for controlling X. citri was application of NAC followed by copper 48 h later. The concentrations of 6 mg mL^?1 of NAC and 3·5 μg mL^?1 of copper were able to kill X. citri. NAC inhibited the epiphytic behaviour of X. citri on leaves, altering cell growth and the bacterial ability to form biofilms. The addition of copper to cells previously treated with NAC enhanced its bactericidal activity. In conclusion, NAC has antibacterial properties against X. citri, interfering with bacterial growth, motility and biofilm formation. Under epiphytic conditions, NAC made the cells more susceptible to copper by affecting X. citri biofilm formation. This study opens new possibilities for the use of NAC in combination with copper, possibly resulting in more sustainable management of citrus canker.     

A functional XopAG homologue in Xanthomonas fuscans pv. aurantifolii strain C limits host range

Citrus canker is caused by two Xanthomonas species, Xanthomonas citri, which has become the primary pathogen where citrus canker occurs (type A citrus canker, Xc‐A), and X. fuscans pv. aurantifolii (Xfa), which consists of strains B and C. The B strain is less pathogenic than the A strain, but produces symptoms in all citrus species. The C‐type cankers only infect Key lime (Citrus aurantifolia) and produce a hypersensitive reaction (HR) in grapefruit (Citrus paradisi) leaves. An avirulence gene, avrGf2, was identified in a C strain that was responsible for the HR in grapefruit. AvrGf2 is a member of XopAG effector family and shares 45% identity at amino acid level with another member of the same family, AvrGf1 from strain Xc‐A^w, which was previously shown to elicit an HR in grapefruit. AvrGf2 shares sequence identity with other XopAG effectors present in Xanthomonas vasculorum, Xanthomonas campestris pv. musacearum and Pseudomonas syringae pv. tomato. Mutagenesis of avrGf2 in C strain resulted in a compatible reaction in grapefruit. There was no observable effect on virulence when Xc‐A transconjugants containing either avirulence gene were inoculated on Key lime. Expression of avrGf1 or avrGf2 in Xc‐A resulted in a similar phenotype following infiltration into grapefruit leaves, although the avrGf2 transconjugant elicited a faster HR and lower populations than the transconjugant containing avrGf1. Also, it was shown that all Xfa‐B strains tested contain a transposon in avrGf2 that helps to explain the differences in host range between B and C strains.     

Over-expression of the citrus gene CtNH1 confers resistance to bacterial canker disease

Citrus canker is a devastating disease, caused by Xanthomonas axonopodis pv. citri (Xac). It is well established that the NPR1 gene plays a pivotal role in systemic acquired resistance (SAR) in Arabidopsis. In this study, we report the isolation and characterization of an NPR1 homolog from citrus, namely Citrus NPR1 homolog 1 (CtNH1). Sequence alignment and phylogenetic analysis indicate that CtNH1 is closely-related to the Arabidopsis NPR1 gene and its orthologs from rice, grapevine, and cacao. When over-expressed in citrus, CtNH1 confers resistance to Xac and leads to constitutive expression of the pathogenesis-related (PR) gene chitinase 1 (Chi1), suggesting that CtNH1 is orthologous to NPR1.