Genotypic Characterization of the Common Bean Bacterial Blight Pathogens, Xanthomonas axonopodis pv. phaseoli and Xanthomonas axonopodis pv. phaseoli var. fuscans by rep-PCR and PCR–RFLP of the Ribosomal Genes

Common bacterial blight (CBB), caused by Xanthomonas axonopodis pv. phaseoli and X. axonopodis pv. phaseoli var. fuscans is one of the most destructive diseases of common bean worldwide. The interrelatedness, genetic diversity and geographical distribution of the CBB pathogens was assessed using restriction fragment length polymorphism (RFLP) analysis of polymerase chain reaction amplified 16S ribosomal gene, including the 16S–23S intergenic spacer region and repetitive element PCR (rep‐PCR). RFLP profiles generated by the restriction endonucleases MboI, RsaI and HaeIII differentiated X. axonopodis pv. phaseoli from X. axonopodis pv. phaseoli var. fuscans and non‐pathogenic Xanthomonas species associated with common bean. Cluster analysis of rep‐PCR profiles revealed a high level of genetic differentiation (G_ST = 0.56) between the two CBB pathogens, showing that they are genetically distinct. Significant levels of genetic diversity were observed within each strain, indicating that the two bacteria are not clonal. More genetic diversity was observed in X. axonopodis pv. phaseoli (H = 0.134; I = 0.223) than X. axonopodis pv. phaseoli var. fuscans (H = 0.108; I = 0.184). However, no geographical differentiation was evident for either X. axonopodis pv. phaseoli var. fuscans (GST = 0.013) or X. axonopodis pv. phaseoli (G_ST = 0.017). This lack of geographical differentiation has important practical implications, as available host resistance genes are likely to be effective in controlling the disease in diverse geographical areas.     

Biological control of bacterial spot of tomato caused by Xanthomonas campestris pv. vesicatoria by Rahnella aquatilis

Xanthomonas campestris pv. vesicatoria strain 2 was isolated from infected tomato seedlings grown in open field in Egypt. This strain produced irregular yellow-necrotic areas on tomato leaves and spotting of the stem. In an attempt to control this disease biologically, four experiments were conducted and tomato seedlings were pretreated, before the pathogen, with either of two antagonistic strains of Rahnella aquatilis through leaves, roots, soil or seeds. In all experiments, seedlings pretreated with R. aquatilis showed reduced susceptibility toward X. c. pv. vesicatoria. They also contained reduced protein concentration and showed reduced number of protein bands in SDS-PAGE analysis as well as increased fresh and dry weight relative to control seedlings inoculated with the pathogen only. This indicates that R. aquatilis reduced the deleterious effect and the stress exerted by X. c. pv. vesicatoria on tomato seedlings. Foliar application of R. aquatilis was the most effective method in disease reduction which could be attributed to the direct effect of the antagonistic bacteria on the pathogen. The highest amounts of fresh and dry weight ere obtained from seed treatment, which might suggest that bacterial seed inoculation provides earlier protection than could be achieved with foliar, soil or root treatment.     

Identification of sources of resistance to common bacterial blight in common bean in Ethiopia

Common bacterial blight (CBB) caused by Xanthomonas axonopodis pv. phaseoli and X. axonopodis pv. phaseoli var. fuscans is one of the major biotic constraints limiting common bean (Phaseolus vulgaris L.) production and productivity in Ethiopia. The objective of this study was to identify new sources of CBB resistance from a diverse panel of genotypes to develop CBB-resistant common bean varieties. One hundred and ten diverse accessions were evaluated for CBB resistance at three hotspot sites (Melkassa, Arsi Negelle and Mieso) for two seasons (2017 and 2018) in Ethiopia. Data on mean disease severity on leaf (SL) and mean disease severity on pod (SP), the area under disease progress curve (AUDPC), number of pods per plant (PP), number of seeds per pod (SPP) and grain yield (GY) were collected. Data were subjected to standard analysis of variance and principal component analysis. The genotype × site interaction (G × E) had significant (p < .05) effect on all assessed traits. This indicated the presence of marked variation among tested genotypes in CBB resistance across the testing sites. Genotypes including SEC21, SEC23, SMC21, VAX6, SEC12, SEC25, SMC22, VAX5, SEC20, SEC22, SEC24, SEC26, SMC16 SMC24, VAX6, SEC25, SEC21, SEC23 and SMC21 exhibited lower values of SL, SP and AUDPC which are useful genetic resources for future CBB resistance breeding programmes. Nasir provided a grain yield of 3.45 ton/ha followed by VAX1 (2.86 ton/ha) and Hawassa Dume (2.83 ton/ha). Further, CBB-resistant and high yielding genotypes had the higher PPP and SPP making them ideal candidates for common bean breeding in Ethiopia or similar agro-ecologies emphasizing CBB resistance and enhanced agronomic traits.     

Distribution and Races of Xanthomonas axonopodis pv. malvacearum on Cotton (Gossypium hirsutum) in Uganda

Surveys in 1995 and 1996 showed that bacterial blight caused by Xanthomonas axonopodis pv. malvacearum occurs throughout the main cotton growing areas of Uganda, causing seedling blight, angular leaf spot and bacterial boll rot. During the vegetative and early fruiting stages of crop growth, severe symptoms of `blackarm' spread from leaves to the stem, causing loss of fruiting branches. A set of Upland cotton cultivars ( Gossypium hirsutum ) were then used to determine the races of the blight bacterium present in Uganda. Many of the isolates induced moderate to severe symptoms on all the test hosts except 101–102B, indicating infection with race 10 or 18. The next most common isolate was race 7. Races 16 and 6 were also identified and 23% of isolates caused symptoms on all the differential cultivars including 101–102B, results indicating the presence of a race of the pathogen which may be the same as that identified in countries neighbouring Uganda and designated as race 20.     

Phaseolus lunatus,a New Host of Xanthomonas axonopodis pv. phaseoli in Iran

Common bacterial blight caused by Xanthomonas axonopodis pv. phaseoli (Xap) is one of the most destructive diseases limiting the production of common bean (Phaseolus vulgaris) in Iran. The disease has previously been described on common bean and mung bean from several regions of Iran, including the central plain and south‐western provinces. In this study, lima bean (Phaseolus lunatus cv. Christmas) plants are being reported as a new natural host of Xap in East Azerbaijan and West Azerbaijan Provinces, northwestern Iran. Disease symptoms consisted initially of water‐soaked spots that progressed to irregular necrotic lesions with chlorotic margins. Infection was observed to affect up to 40% of plants in the field. Identification of the pathogen was based on the biochemical and molecular characteristics, as well as the pathogenicity tests. To our knowledge, this is the first report of X. axonopodis pv. phaseoli causing common bacterial blight on lima bean plants in Iran.     

Development of pre-detection technique for bacterial blight (Xanthomonas axonopodis pv. dieffenbachiae) disease in Anthurium to produce healthy planting materials

Abstract

Anthurium cut-flowers and potted plants have earned a growing marketing demand both in the local and global markets. Bacterial blight, caused by Xanthomonas axonopodis pv. dieffenbachiae has been of major economic concern among the growers worldwide as the disease could cause heavy losses on Anthuriums and other members of the family Araceae. The disease has the potential of spreading latently exhibiting no symptoms through a range of hosts and this fact makes it a prerequisite to detect the presence of pathogen early. No reliable control method so far has been developed and therefore maintenance of strict crop sanitary measures is of great importance. 100 samples representing 30 nurseries were selected from three of the major producing districts, Gampaha, Kurunegala and Puttlam districts. The pathogen was isolated from the samples using 5% KOH test and yeast dextrose calcium carbonate medium. Isolated pathogen was inoculated to healthy Dieffenbachia cane and leaf slices and after 1 – 2 days, symptoms first developed in cane cuttings while leaves took three days for the development of symptoms. Young, tender leaf and cane slices were observed to be highly susceptible to disease. The mature cane slices and leaf cuttings were found to be resistant to the pathogen, most probably due to the non-specific mechanical impermeability of the tissues. Tender leaf and cane tissues, with their ability to get infected and develop visual symptoms relatively fast, worked best with the technique as they proved to shorten the time taken for the detection. The validity and the precision of the pathogen identification test and therefore, the method, were assessed with an indirect-ELISA pathogen-specific detection step, prior to inoculation of healthy tissues. Pathogen was detected to present in 15 samples from Kurunegala and Gampaha districts. The method confirmed its precision, reliability, cost-effectiveness and application under normal laboratory conditions.     

Distribution and association of factors influencing bean common bacterial blight (Xanthomonas axonopodis pv. phaseoli) epidemics in Southern Ethiopia

Abstract

Field surveys were conducted to determine the spatiotemporal distribution and the association of disease intensity with cropping systems and other environmental factors in Southern Ethiopia during 2016 and 2017. In both years, a total of 190 bean fields were surveyed in five districts, and common bacterial blight (CBB) was 100% prevalent. But disease incidence and severity varied among districts and between cropping years. Bean planting in Arbaminch suffered from 31% to 38%, 6–13%, 12–17% and 8–12% higher CBB severity than bean cultivation in Burjdi, Mihirab Abaya, Demba Gofa and Konso districts, respectively. The associations of disease parameters with independent factors were assessed using the logistic regression analyses. District, cropping year, altitude, land preparation, cropping system, fertiliser application, planting date, growth stage and weed infestation were associated with both disease incidence and severity with variable levels of significance. Common bean genotype was also significantly (P?<?.005) associated with disease severity in a multiple variable model. Concerning incidence, variable associations were demonstrated by the model. These results indicate that CBB is severe and highly prevalent in Southern Ethiopia. Therefore, efforts should be geared towards crop residue management, optimal tillage and fertiliser application, weeding, clean seed source and early planting approach to manage the disease.     

Virulence and type III effector diversities of Xanthomonas citri pv. fuscans and X. phaseoli pv. phaseoli in Brazil

Common bacterial blight (CBB) is caused by four genetic lineages belonging to two species of Xanthomonas, namely Xanthomonas citri pv. fuscans (includes fuscans, NF2 and NF3 lineages) and X. phaseoli pv. phaseoli (lineage NF1). A collection of 117 strains of Xanthomonas isolated from common bean plants grown in several producing regions of Brazil, between 2007 and 2016 was established. For species and lineage identification, the following tests were performed: multiplex PCR with a set of four specific primer pairs, pathogenicity tests on susceptible cultivar BRS Artico and phylogenetic analysis based on housekeeping gene sequences. The presence of the two species were confirmed among the 117 strains, being 62 non-fuscans strains (NF1, NF2 and NF3) and 55 fuscans strains of X. citri pv. fuscans. To select a set of representative strains for the virulence assay, a PCR-based analysis of effector diversity was performed with 42 strains belonging to the two species. PCR with primers for xopL, avrBsT, xopE2 and xopE1 genes were positive for all strains, while for the other six effectors there was variation. Six distinct effector profiles were detected, and one strain representing each type was inoculated in 15 common bean cultivars with varying levels of resistance to CBB. The fuscans strains showed uniformity in their effector profiles and were the most virulent. The phylogenetic analyses of our strain collection revealed that all genetic variants of CBB pathogens (NF1, NF2, NF3 and fuscans) are present in Brazil, with significant variability in virulence to common bean cultivars.     

柑桔溃疡病菌滚环扩增检测体系的建立

根据柑桔溃疡病菌(Xanthomonas axonopodis pv.citri,Xac)独有的蛋白基因序列和锁式探针公共连接序列分别设计特异性的锁式探针及其扩增引物,优化系列反应条件,建立了特异性的柑桔溃疡病菌滚环扩增体系.初步检测结果表明该体系能够特异性地检出Xac的菌体细胞及其DNA,而检测不出供试的其它植物病原细菌和柑桔叶面常见的多种附生细菌;对Xac靶片段克隆质粒DNA的检测灵敏度为10 2 copy/μL,对Xac菌悬液的检测灵敏度为20 cfu/μL,比常规PCR的检测灵敏度稍高.用滚环扩增技术和常规PCR技术对田间采集的实际样品进行了检测,两种方法的检测结果没有显著差异(P＞0.01).由于锁式探针的公共连接序列对扩增的条件要求一致,本体系的建立可以为植物病原微生物多靶标检测和病害检疫检验提供新的技术支撑.     

Profiling Differentially Abundant Proteins by Overexpression of Three Putative Methyltransferases in Xanthomonas axonopodis pv. glycines

Methyltransferases (MTases) are enzymes that modify specific substrates by adding a methyl group using S‐adenosyl‐l ‐methionine. Functions of MTases have been extensively studied in eukaryotic organisms and animal pathogenic bacteria. Despite their importance, mechanisms underlying MTase function in plant pathogenic bacteria have not been studied in depth, as is the case of Xanthomonas axonopodis pv. glycines (Xag) that causes bacterial pustule disease in soybean crops worldwide. Here, the association between Xag proteome alterations and three MTase‐overexpressing strains, Xag(XgMT1), Xag(XgMT2), and Xag(XgMT3), compared to Xag carrying an empty vector, Xag(EV) is reported. Using label‐free shotgun comparative proteomic analysis, proteins are identified in all three biological replicates of the four strains and ranged from 1004 to 1082. In comparative analyses, 124, 135, and 134 proteins are differentially changed (over twofold) by overexpression of XgMT1, XgMT2, and XgMT3, respectively. These proteins are also categorized using cluster of orthologous group (COG) analyses, allowing postulation of biological mechanisms associated with three MTases in Xag. COGs reveal that the three MTases may play distinct roles, although some functions may overlap. These results are expected to allow new insight into understanding and predicting the biological functions of MTases in plant pathogenic bacteria. Data are available via ProteomeXchange (Identifier PXD012590).     

Proteins induced by Xanthomonas axonopodis pv. passiflorae with leaf extract of the host plant (Passiflorae edulis)

Two-dimensional gel electrophoresis was used to identify differentially displayed proteins during treatment of Xanthomonas axonopodis pv. passiflorae in media containing leaf extract of the compatible (passion fruit) and incompatible (tomato) hosts. The results showed that at different times of treatment (5, 25 and 45 h) the global expression of proteins was almost identical in cells grown in minimal medium (MM) and in medium containing leaf extract of the incompatible host (MMT). The protein patterns of cells grown in medium containing passiflorae (MMP) leaf extract and MM were also compared enabling the detection of 17 differential spots. Most of the proteins were induced at earlier times of incubation (5 h) and maintained until 45 h in MMP. By using another carrier ampholyte range, seven additional proteins were identified in MMP treated cells. Five proteins, including one constitutive, two induced and two up-regulated in MMP were microsequenced. All sequences were found in the genome of xanthomonads sharing high level of identity (88-100%). Fructose biphosphate aldolase was expressed in all media employed. A putative membrane-related protein and a hypothetical protein were novel proteins induced specifically by the passiflorae extract. An inorganic pyrophosphatase and a hypothetical protein that showed similarity to the yciF gene of Salmonella thyphimurium were up-regulated in MMP.     

Detection, Survival and Transmission of Xanthomonas axonopodis pv. manihotis and X. axonopodis pv. vignicola, Causal Agents of Cassava and Cowpea Bacterial Blight, respectively, in/by Insect Vectors

Populations of Xanthomonas axonopodis pv. manihotis and X. axonopodis pv. vignicola, causal agents of cassava and cowpea bacterial blight, respectively, were quantified in insects. The pathogens were found in the faeces, the intestines, and on the legs and mandibles of Zonocerusvariegatus. Additionally, X. axonopodis pv. manihotis was localized in the insect gut by immunofluorescence microscopy. Xanthomonas axonopodis pv. manihotis survived at least 1 week in the insect intestines and at least 5 weeks in faeces kept under controlled conditions, while survival in faeces exposed to sunlight was <2 weeks. Five percentage [e.g. 5.8 × 10⁷ colony‐forming units (CFU)/g faeces] of the fed population of X. axonopodis pv. manihotis in cassava leaves were recovered viable in the faeces after passage through the insect. The transmission of cassava bacterial blight by pathogen‐contaminated insect faeces to intact, healthy cassava leaves was demonstrated for the first time. Xanthomonas axonopodis pv. vignicola was isolated from organs and faeces of the grasshopper Pyrgomorpha cognata, the Senegalese grasshopper (Oedaleus senegalensis), bee (Apis mellifera) and three Coleoptera (Ootheca mutabilis, Mylabris spp., Exochomus troberti) collected in bacterial blight‐infected cowpea fields. Cowpea belonged to the diet of 19 grasshopper species collected in cowpea fields as demonstrated by residues in their faeces. Pathogen‐contaminated Z. variegatus initiated an epiphytic population of 8.9 × 10⁴ CFU/g on healthy cowpea leaves. Spraying cassava and cowpea leaves with 10² and 10⁴ CFU/ml of their respective pathogen was sufficient to evoke symptoms. A possible role of insects in the transmission of X. axonopodis pvs. vignicola and manihotis is discussed.     

A new semi-selective medium for the isolation of Xanthomonas axonopodis pv. dieffenbachiae, the etiological agent of anthurium bacterial blight

Aims:  Xanthomonas axonopodis pv. dieffenbachiae causes anthurium blight, which is regarded as the most threatening disease for the anthurium industry worldwide. The bacterium is listed as a quarantine pathogen in several regions, including Europe. We evaluated the use of Neomycin-Cephalexin-Trimethoprime-pivMecillinam 4 (NCTM4) medium for its isolation.
Methods and Results:  A total of 104 bacterial strains were inoculated onto NCTM4 and on the previously published Cellobiose-Starch (CS) and Esculin-Trehalose (ET) media. The strain collection included: the anthurium blight pathogen, Xanthomonas strains, for which false positive results are known to occur using serological identification-tests; other bacterial pathogens of anthurium; and representatives of bacteria that are commonly present in the anthurium phyllosphere. Media were evaluated following the ISO 16140 protocol for the validation of alternative methods.
Conclusion:  Growth of the anthurium blight pathogen was better on NCTM4 and ET media than on CS. NCTM4 provided a better repeatability. It also displayed a lower rate of false positive and false negative results when the pathogen was isolated from plant extracts.
Significance and Impact of the Study:  This study will lead to improved isolation protocols of the anthurium blight in official procedures. NCTM4 medium could also favourably be used in studies, which aim to further understanding of the biology and epidemiology of this pathogen.     

Structural analysis and involvement in plant innate immunity of Xanthomonas axonopodis pv. citri lipopolysaccharide

Xanthomonas axonopodis pv. citri (Xac) causes citrus canker, provoking defoliation and premature fruit drop with concomitant economical damage. In plant pathogenic bacteria, lipopolysaccharides are important virulence factors, and they are being increasingly recognized as major pathogen-associated molecular patterns for plants. In general, three domains are recognized in a lipopolysaccharide: the hydrophobic lipid A, the hydrophilic O-antigen polysaccharide, and the core oligosaccharide, connecting lipid A and O-antigen. In this work, we have determined the structure of purified lipopolysaccharides obtained from Xanthomonas axonopodis pv. citri wild type and a mutant of the O-antigen ABC transporter encoded by the wzt gene. High pH anion exchange chromatography and matrix-assisted laser desorption/ionization mass spectrum analysis were performed, enabling determination of the structure not only of the released oligosaccharides and lipid A moieties but also the intact lipopolysaccharides. The results demonstrate that Xac wild type and Xacwzt LPSs are composed mainly of a penta- or tetra-acylated diglucosamine backbone attached to either two pyrophosphorylethanolamine groups or to one pyrophosphorylethanolamine group and one phosphorylethanolamine group. The core region consists of a branched oligosaccharide formed by Kdo₂Hex₆GalA₃Fuc3NAcRha₄ and two phosphate groups. As expected, the presence of a rhamnose homo-oligosaccharide as O-antigen was determined only in the Xac wild type lipopolysaccharide. In addition, we have examined how lipopolysaccharides from Xac function in the pathogenesis process. We analyzed the response of the different lipopolysaccharides during the stomata aperture closure cycle, the callose deposition, the expression of defense-related genes, and reactive oxygen species production in citrus leaves, suggesting a functional role of the O-antigen from Xac lipopolysaccharides in the basal response.     

The role of type III effectors from Xanthomonas axonopodis pv. manihotis in virulence and suppression of plant immunity

Xanthomonas axonopodis pv. manihotis (Xam) causes cassava bacterial blight, the most important bacterial disease of cassava. Xam, like other Xanthomonas species, requires type III effectors (T3Es) for maximal virulence. Xam strain CIO151 possesses 17 predicted T3Es belonging to the Xanthomonas outer protein (Xop) class. This work aimed to characterize nine Xop effectors present in Xam CIO151 for their role in virulence and modulation of plant immunity. Our findings demonstrate the importance of XopZ, XopX, XopAO1 and AvrBs2 for full virulence, as well as a redundant function in virulence between XopN and XopQ in susceptible cassava plants. We tested their role in pathogen‐associated molecular pattern (PAMP)‐triggered immunity (PTI) and effector‐triggered immunity (ETI) using heterologous systems. AvrBs2, XopR and XopAO1 are capable of suppressing PTI. ETI suppression activity was only detected for XopE4 and XopAO1. These results demonstrate the overall importance and diversity in functions of major virulence effectors AvrBs2 and XopAO1 in Xam during cassava infection.     

Induction of bacterial blight (Xanthomonas oryzae pv. oryzae) resistance in rice by treatment with acibenzolar-S-methyl

The role of the plant defence activator, acibenzolar‐S‐methyl (ASM), in inducing resistance in rice against bacterial leaf blight caused by Xanthomonas oryzae pv. oryzae (Xoo) was studied. Application of ASM induced resistance in rice to infection by Xoo. When the pathogen was clip‐inoculated to the rice plants, it caused bacterial leaf blight symptoms in the untreated control. However, in the rice plants pretreated with ASM, infection was significantly reduced. Induced systemic resistance was found to persist for up to 3 days in the pretreated rice plants. Increased phenolic content and accumulation of pathogenesis‐related (PR) proteins, viz. chitinase, β‐1,3‐glucanase and thaumatin‐like protein (TLP; PR 5) were observed in rice plants pretreated with ASM followed by inoculation with Xoo. Immunoblot analysis using rice TLP and tobacco chitinase antiserum revealed rapid induction and over‐expression of 25 and 35 kDa TLP and chitinase, respectively, in rice in response to pretreatment with ASM followed by Xoo inoculation. Based on these experiments, it is evident that induction of disease resistance in rice was accelerated following treatment with ASM.     

大豆斑疹病菌harpin编码基因的克隆与特性研究

根据黄单胞菌harpin编码基因的同源性,设计简并引物,采用PCR方法从大豆斑疹病菌（Xanthomonas axonopodis pv.glycines, Xag）中克隆了402 bp的[STBX]hpa1[STBZ]同源基因,构建于表达载体pET30(a)上经转化大肠杆菌BL21菌株,获得基因工程菌BHR_3。基因工程菌诱导表达后经收集菌体和破碎细胞,得到表达产物为151kD的蛋白质。该蛋白质富含甘氨酸,不含半胱氨酸,对热稳定,对蛋白酶K敏感,可在非寄主烟草上激发过敏反应。激发的过敏反应需要植物体内水杨酸的积累,还可被真核生物代谢抑制剂抑制。序列比较显示,该基因与Xag中hpaG基因相同,与其它黄单胞菌中的hpa1基因有51.4%～93.8%的同源性,与其它革兰氏阴性植物病原细菌的harpin编码基因无同源性。据此把该基因产物鉴定为harpinXag。黄单胞菌harpin蛋白质序列比较发现,GG_GGG基序的多少并不是harpin蛋白的唯一特性。这为利用harpin蛋白开展植物病害控制的基因药物学设计提供了科学线索。     

Solution structure of ApaG from Xanthomonas axonopodis pv. citri reveals a fibronectin-3 fold

ApaG proteins are found in a wide variety of bacterial genomes but their function is as yet unknown. Some eukaryotic proteins involved in protein-protein interactions, such as the human polymerase delta-interacting protein (PDIP38) and the F Box A (FBA) proteins, contain ApaG homology domains. We have used NMR to determine the solution structure of ApaG protein from the plant pathogen Xanthomonas axonopodis pv. citri (ApaG(Xac)) with the aim to shed some light on its molecular function. ApaG(Xac) is characterized by seven antiparallel beta strands forming two beta sheets, one containing three strands (ABE) and the other four strands (GFCC'). Relaxation measurements indicate that the protein has a quite rigid structure. In spite of the presence of a putative GXGXXG pyrophosphate binding motif ApaG(Xac) does not bind ATP or GTP, in vitro. On the other hand, ApaG(Xac) adopts a fibronectin type III (Fn3) fold, which is consistent with the hypothesis that it is involved in mediating protein-protein interactions. The fact that the proteins of ApaG family do not display significant sequence similarity with the Fn3 domains found in other eukaryotic or bacterial proteins suggests that Fn3 domain may have arisen earlier in evolution than previously estimated.     

Biocontrol potential of actinomycetes against Xanthomonas axonopodis pv. punicae,a causative agent for oily spot disease of pomegranate

India is a largest producer of pomegranate with high export value. The cultivation is affected with the oily spot disease caused by Xanthomonas axonopodis pv. punicae infection. The present study aims to control the disease with newer biocontrol methods. Thirty-six isolates of X. axonopodis were isolated from different varieties of infected pomegranates fruits from Maharashtra. Forty strains of actinomycete were also isolated from natural sources and screened for their antagonistic activity against X. axonopodis isolates. Eight strains of actinomycete were screened out for their high antagonistic activity and were optimized for maximizing antibiotic production. The extracted compound from A5 strain exhibited maximum inhibitory activity against all the pathogenic isolates with a MIC in the range of 0.625 to 1.25 mg mL^?1. It was identified as Streptomyces violaceusnige by 16SrRNA gene sequencing (Accession number KP208943). The extracted compound belonged to aminoglycosides with a molecular formula C₂₂H₂₈N₃O₆ determined by thin layer chromatography, high-performance liquid chromatography, gas chromatography-mass spectroscopy, nuclear magnetic resonance spectroscopy, fourier transform infrared spectroscopy and carbon hydrogen nitrogen ratio analysis. In vivo biocontrol studies with strain A5 and its extracted compound effectively prevented the growth 36 Xanthomonas isolates inoculated on pomegranate fruits, illustrating its biocontrol potential against the oily spot disease of pomegranate.