Multidrug-resistance plasmid of <Emphasis Type="Italic">Enterobacter cloacae</Emphasis>: transfer to <Emphasis Type="Italic">Erwinia herbicola</Emphasis> on the phylloplane of mulberry and weeds

A mulberry epiphytic Enterobacter cloacae MUL1 harbors plasmid pMUL1 encoding five drug-resistance genes. This plasmid was examined upon its conjugal transfer into epiphytic Erwinia herbicola on the phylloplane of mulberry and 12 species of weeds. The plasmid was transferred into Er. herbicola at a frequency of 10^–5–10^–3/recipient in mulberry and Lolium multiflorum LAM. 1–8 days after wound inoculation with 10⁶–10⁸/ml suspensions. In Chenopodium album L. and C. album L. var. centrorubrum, however, it was transferred only after wound inoculation with a 10⁸/ml suspension, but not with 10⁷/ml or 10⁶/ml suspensions, owing to the weak epiphytic fitness of Ent. cloacae on these weeds. Transconjugants were also obtained for seven other species of weeds in the case of inoculation with a 10⁸/ml suspension. In contrast, when bacterial suspensions were sprayed on mulberry leaves with or without fresh wounds, transconjugants were obtained only in wounded leaves, which were considered suitable for bacterial conjugation. These findings suggest that epiphytic bacteria, including Ent. cloacae and Er. herbicola, may be carriers of drug-resistance genes distributed among plant pathogenic bacteria in nature.     

Copper resistance genes from different xanthomonads and citrus epiphytic bacteria confer resistance to Xanthomonas citri subsp. citri

Genetic exchange is considered to be an important process in the selective adaptation of microorganisms to shifting and challenging environmental conditions. As a consequence of the copious use of copper bactericides, many species of plant pathogenic bacteria, including Xanthomonas citri subsp. citri (Xcc), have developed resistance to copper. This study assesses whether copper resistant (Cu^R) strains of other Xanthomonas species and citrus epiphytic bacteria pose a risk for the development of copper resistance in Xcc. Cu^R epiphytic bacteria were isolated on MGY agar from citrus leaves collected in two citrus groves treated with copper bactericides in Florida. Horizontal gene transfer of copper resistance genes was investigated within different Xanthomonas species and from citrus epiphytic bacteria to Xanthomonas. Cu^R epiphytic bacteria from citrus were screened for the presence of copper resistance genes homologous to copL, copA and copB genes from Xcc and characterized regarding tolerance to copper. Copper resistance determinants from a citrus epiphytic strain of Stenotrophomonas maltophilia (Stm) were cloned and expressed in Xcc and other Xanthomonas strains. Copper resistance genes in Xcc were determined to be present on a large (~300?kb) conjugative plasmid. Cu resistance was transferred via conjugation from two copper resistant citrus strains, Xcc and X. alfalfae subsp. citrumelonis (Xac), and two tomato pathogens, X. euvesicatoria (Xe) and X. perforans (Xp), to Xcc. PCR analysis revealed that two Cu^R strains from citrus, an epiphytic Xanthomonas ssp. and a strain of Stm, harboured homologs of the copper resistance genes found in Cu^R Xcc. The introduction of copLAB gene cluster from Stm into different xanthomonads conferred copper resistance to sensitive strains of Xcc, Xac, Xe and Xp. Based on these results there is a low, but significant, likelihood of horizontal gene transfer of copper resistance genes from other xanthomonads or epiphytic bacteria to Xcc in nature.     

Complete sequence of Erwinia piriflorinigrans plasmids pEPIR37 and pEPIR5 and role of pEPIR37 in pathogen virulence

Erwinia piriflorinigrans is a newly described pathogen causing necrosis of pear blossoms. Complete sequencing of the 37‐kb plasmid pEPIR37 common to 27 E. piriflorinigrans strains revealed homology to sequences of the ubiquitous plasmids pEA29 of the fire blight pathogen E. amylovora, plasmid pEP36 of E. pyrifoliae, plasmid pEJ30 of Erwinia sp. from Japan, and genomic regions of the related Rosaceae epiphytic Erwinia species E. tasmaniensis and E. billingiae. A second 5·5‐kb cryptic plasmid pEPIR5, found in 12 E. piriflorinigrans strains, was also sequenced revealing mobilization and replication proteins with similarities to many small ColE1‐type plasmids in Erwinia spp. and other enterobacteria. Functional analyses of pEPIR37 introduced into a strain of E. amylovora cured of pEA29 plasmid, which has a reduced virulence, showed a role in increasing symptom development similar to that observed in E. amylovora carrying plasmid pEA29.     

Induction of Systemic Resistance Against Bacterial Wilt in <Emphasis Type="Italic">Eucalyptus urophylla</Emphasis> by Fluorescent <Emphasis Type="Italic">Pseudomonas</Emphasis> spp

The ability of selected strains of fluorescent Pseudomonas spp. to cause induced systemic resistance (ISR) in Eucalyptus urophylla against bacterial wilt caused by Ralstonia solanacearum was investigated. Four of the five strains used can produce salicylic acid (SA) in vitro and, therefore, chemical SA, that is known to induce resistance in many plant species, was used as a reference treatment. Whereas a soil drench with SA did induce systemic resistance in E. urophylla, infiltration of SA into leaves did not. None of the fluorescent Pseudomonas spp. strains caused ISR against bacterial wilt when applied to the soil, but two strains, P. putida WCS358r and P. fluorescens WCS374r triggered ISR when infiltrated into two lower leaves 3–7 days before challenge inoculation. A mutant of strain WCS358r defective in the biosynthesis of the fluorescent siderophore pseudobactin, did not cause ISR, while the purified siderophore of WCS358r did, suggesting that pseudobactin358 is the ISR determinant of WCS358. A siderophore-minus mutant of WCS374r induced the same level of disease resistance as its parental strain, but the purified siderophore induced resistance as well, indicating that both the siderophore and another, unknown, inducing determinant(s) of WCS374r can trigger ISR in Eucalyptus. A possible role of WCS374r-produced SA remains uncertain. Transformation of a siderophore-minus mutant of WCS358 with the SA biosynthetic gene cluster from WCS374 did not enable this transformant to cause ISR in E. urophylla.     

Detection of streptomycin resistance in Erwinia amylovora strains isolated from apple orchards in Chihuahua, Mexico

Fire blight, one of the most severe diseases of apple and pear, is caused by the bacterium Erwinia amylovora. One control method is the use of antibiotics like streptomycin; however, streptomycin is the only antibiotic registered to control fire blight. A total of 107 E. amylovora strains were isolated from apple orchards located in Cuauhtémoc and Guerrero, Chihuahua, two major apple-producing areas in Mexico, showing 40 and 24 % streptomycin-resistant strains, respectively. The identification of E. amylovora strains was performed by polymerase chain reaction (PCR) amplification of a 900-bp region located within the non-transferable pEA29 plasmid and by amplification of a specific 1,269-bp region located on the E. amylovora chromosome. The 107 isolates tested carried the pEA29 plasmid, and 36 % of the isolates from both locations showed high resistance to streptomycin at levels that ranged from 200 to ≥1,000 μg ml^?1 streptomycin. The strA-strB and aadA genes, which encode enzymes that inactivate streptomycin, and a mutation in codon 43 of the rpsL gene that confers high resistance to the antibiotic were examined to determine the mechanism of streptomycin resistance. In total, 95 % of the resistant strains showed a single base pair mutation in codon 43 of the rpsL gene, causing an amino acid substitution in ribosomal protein S12. The presence of strA-strB and aadA genes or the rpsL mutation was not identified in the other 5 % of resistant strains, suggesting the existence of a new streptomycin resistance mechanism in E. amylovora.     

Nematode quantitative resistance conferred by the pepper genetic background presents additive effects and is stable against different isolates of Meloidogyne incognita

Root‐knot nematodes (RKNs), Meloidogyne spp., are a major disease problem in solanaceous crops worldwide, including pepper (Capsicum spp.). Genetic control provides an economically and environmentally sustainable protection alternative to soil fumigants. In pepper, resistance to the main RKN species (M. incognita, M. javanica and M. arenaria) is conferred by the major genes (R genes) Me1, Me3 and N. However, RKNs are able to develop virulence, thus endangering the efficiency of R genes. Quantitative resistance (QR) against Meloidogyne spp. is expected to provide an alternative to R genes, or to be combined with R genes, to increase the resistance efficiency and durability in pepper. In order to explore the ability of QR to protect pepper against RKNs, five pepper inbred lines, differing in their QR level, were tested directly, or after combination with the Me1 and Me3 genes, for their resistance to a panel of M. arenaria, M. javanica and M. incognita isolates. The M. arenaria and M. javanica isolates showed low pathogenicity to pepper, unlike the M. incognita isolates. The QR, controlled by the pepper genetic background, displayed a high resistance level with a broad spectrum of action, protecting pepper against Me3‐virulent as well as avirulent M. incognita isolates. The QR was also expressed when combined with the Me1 and Me3 genes, but presented additive genetic effects so that heterozygous F₁ hybrids proved less resistant than homozygous inbred lines. The discovery of this QR is expected to provide promising applications for preserving the efficiency and durability of nematode resistance.     

46份野生葡萄株系对霜霉病的抗性鉴定及其相关基因的表达

为明确不同野生葡萄株系对霜霉病的抗性差异,以18个种的46份野生葡萄株系为试材,采用叶盘法鉴定其对霜霉病的抗性,并利用实时荧光定量PCR(real-time quantitative polymerase chain reaction,RT-qPCR)技术对部分关键基因进行定量分析,探讨其在不同抗病株系中的表达模式差异。结果表明,46份野生葡萄株系的病情指数为0～34.72,其中17份为感病株系,病情指数在25.93～34.72;21份为抗病株系,病情指数在5.32～24.35;5份圆叶葡萄株系均表现为免疫,病情指数为0.00;云南-元谋2、云南-2和木扎岭-3为高抗株系,病情指数分别为1.81、4.40和1.62。当被霜霉病菌侵染后,抗病株系和感病株系中的PAL、PR1、TLP和NPR1基因的诱导表达模式不同;与感病株系相比,抗病株系中的TLP、PR1和NPR1基因有强烈的诱导表达,PAL基因在感病株系比在抗病株系中表达量高。在免疫株系普莱德和高抗株系云南-元谋2中,NPR1与其它3个基因的表达模式差异最大;TLP在抗病株系蘡薁-林县中与其它3个基因的表达模式差异最大;在感病株系秋-嵩县中,NPR1与TLP表达模式相近,PAL和PR1表达模式相近。研究表明,在中国野生葡萄种质中,云南-元谋2、云南-2和木扎岭-3对霜霉病有良好的抗性,可作为抗病育种的原始材料;抗性基因可能在抗病株系中发挥着重要作用。     

Characterization of a Clavibacter michiganensis subsp. michiganensis population in Israel

Clavibacter michiganensis subsp. michiganensis (Cmm) strains, collected during the last decade from different locations in Israel, were analyzed by macrorestriction pulsed-field gel electrophoresis (PFGE). Fifty-eight strains from Israel and 18 from other sources were differentiated into 11 haplotypes with either VspI or DraI restriction enzymes. The strains from Israel formed four distinct groups among which groups A (16 strains) and B (32 strains) constituted the major clusters. These two groups originated from the Besor region, which is the main area for growing tomatoes under cover. Rep-PCR, with either ERIC or BOX primers, confirmed results obtained by PFGE. PCR with primers based on three genes – ppaA, chpC and tomA – that spanned the pathogenicity island of the reference strain NCPPB382, produced the expected products with the tested pathogenic strains. Plasmid analysis of representative strains revealed different profiles of one or two plasmids. However all the strains, including five non-pathogenic ones, reacted positively in PCR with primers based on celA gene, which resides on the plasmid pCM1 of NCPPB382. Southern hybridization of total DNA with a 3.2-kb BglII-fragment of pCM1 containing the celA gene was positive when carried out with 31 strains, but the size of the reacting band was not always the same as that of pCM1, suggesting that the plasmids carrying celA may differ in size. Comparison between the colonization rates of strain Cmm42 (group A) and of Cmm32 (group B) did not show any significant differences. The high diversity of the Cmm strains, on the one hand, and the presence of two persistent groups in the Besor region, on the other hand, suggests that the primary inoculum originated each year from residual plants in the soil rather than from infested seeds, in spite of extensive control measures taken by the growers in this area.     

Biological control of rice blast by the epiphytic bacterium <Emphasis Type="Italic">Erwinia ananas</Emphasis> transformed with a chitinolytic enzyme gene from an antagonistic bacterium, <Emphasis Type="Italic">Serratia marcescens</Emphasis> strain B2

The gene chiA, encoding for the endochitinase ChiA, was cloned from Serratia marcescens strain B2, a tomato epiphytic bacterium, and introduced into the epiphytic bacterium Erwinia ananas NR-1, isolated from rice phylloplane. The gene chiA was introduced under the control of two types of promoter into a broad-host-range plasmid vector. The vector contained various fragments with promoter activity isolated from E. ananas chromosomal DNA. The constructed vectors were designated pchiA-V1pcf9 and pchiA-V1pcf53 for their respective promoters. E. ananas NR-1 transformed with either of these vectors produced and secreted ChiA. The antifungal activity of ChiA produced by transformed E. ananas NR-1 was demonstrated in vitro by the inhibition of Pyricularia oryzae germ tube elongation such as bursting of the hyphal tip. Transformed E. ananas NR-1 suppressed the incidence of rice blast caused by P. oryzae under greenhouse conditions; however, the magnitude of the suppressive effect depended on which promoter was used. Both transformants and the nontransformant E. ananas NR-1 survived on rice phylloplane. It is expected that the rice epiphytic bacterium E. ananas NR-1 carrying a chitinolytic enzyme gene is an efficient biological control agent against rice blast.     

Monitoring for resistant populations of <Emphasis Type="BoldItalic">Xanthomonas citri</Emphasis> subsp. <Emphasis Type="Italic">citri</Emphasis> and epiphytic bacteria on citrus trees treated with copper or streptomycin using a new semi-selective medium

Streptomycin has been tested as an alternative to copper bactericides, which are routinely used for the control of citrus canker (Xanthomonas citri subsp. citri, Xcc) in citrus producing areas where the disease is endemic. A major concern is that excessive use of copper as a bactericide may lead to development of copper-resistant strains of Xcc. In this study, we developed a semi-selective medium to recover copper or streptomycin-resistant strains of Xcc from citrus leaves. The newly developed semi-selective medium was used to monitor the effect of a 21-day-interval copper or streptomycin spray program on Xcc for three consecutive seasons and on citrus epiphytic bacterial populations for two seasons in a commercial grapefruit grove. Although, no copper- or streptomycin-resistant strains of Xcc were isolated after three seasons, we observed a significant increase over time in the frequency of citrus epiphytic bacteria resistant to these chemicals. Overall, the proportion of epiphytic bacteria resistant to streptomycin on treated and untreated leaves was proportionally lower than the copper-resistant bacterial population. When application of each bactericide was suspended for the season, the proportion of bactericide-resistant bacteria in the epiphytic population decreased to that of the non-treated bacterial population. Availability of an alternative bactericide, such as streptomycin, to integrate into a copper-based program would reduce the amount of each bactericide sprayed in citrus orchards and possibly lower the selection pressure for bacterial resistance to these chemicals.     

Characterization and host range of five tumorigenic Agrobacterium tumefaciens strains and possible application in plant transient transformation assays

Agrobacterium tumefaciens is a Gram‐negative bacterium. It causes plants to produce crown gall disease because of the transfer, integration and expression of oncogenes encoded by the T‐DNA (transferred DNA) region of the tumour‐inducing (Ti) plasmid. A set of transferred genes directs the production of bacterial nutrients, called opines, formed by condensation of an amino acid and a keto acid or a sugar. Transformed cells synthesize and secrete substantial quantities of particular opines, which A. tumefaciens then uses as a carbon and sometimes nitrogen source. Agrobacterium tumefaciens strains are usually classified on the basis of the opines they can catabolize. Because of the ability to transfer DNA between different kingdoms, A. tumefaciens is also frequently used to generate transgenic plants. This study analyses five poorly characterized wildtype Agrobacterium strains, 1D1108, 1D1460, 1D132, 1D1478 and 1D1487, isolated from Euonymus, cane, cherry, Salix and apple, respectively. Partial Ti‐plasmid sequence analysis demonstrated that the five strains harbour the nopaline‐type Ti plasmid. Tumorigenesis and transient transformation assays of the five analysed and six wildtype A. tumefaciens strains were performed with selected plant species, including two or three species of Brassicaceae, Asteraceae, Solanaceae, Apiaceae and Leguminosae. The A. tumefaciens strains 1D1108, 1D1460 and 1D1478 showed higher transformation efficiencies than the previously characterized A. tumefaciens strains with several economically important crops. These data suggest the potential use of these newly characterized wildtype A. tumefaciens strains in transient transformation assays with certain plant species.     

Induction of resistance against pine wilt disease caused by Bursaphelenchus xylophilus using selected pine endophytic bacteria

Pine wilt disease (PWD) is the most destructive disease threatening pine worldwide. The disease is mainly caused by the pine wood nematode, Bursaphelenchus xylophilus, which is vectored by pine sawyer longhorn-beetles, Monochamus spp. This study aimed to select resistance-inducing pine endophytic bacteria for management of PWD. To set up a defence-related genes expression pattern for screening, four chemical inducers (salicylic acid, γ-aminobutyric acid (GABA), β-aminobutyric acid and α-aminobutyric acid) were tested in vitro on pine calli and in vivo on pine seedlings. Treatment with GABA had the greatest reduction in PWD severity on pine seedlings. The pattern of defence-related gene expression in calli treated with GABA was used to select potential resistance-inducing bacterial strains. In addition, 92 bacterial strains were isolated from pine tree needles and stems and were tested for expression of defence-related genes in pine calli in vitro. Among the tested strains, 13 showed a similar pattern to GABA treatment in at least four tested defence-related genes and were selected for the seedling assay. From the seedling assay, three bacterial strains (16YSM-E48, 16YSM-P180 and 16YSM-P39) showed significant reduction in PWD severity compared to the untreated control. Moreover, among the selected strains, cell-free culture supernatant of strain 16YSM-P180 significantly reduced PWD severity in inoculated pine seedlings. The selected strains were identified based on the 16S rRNA sequence as Pseudomonas putida 16YSM-E48, Curtobacterium pusillum 16YSM-P180 and Stenotrophomonas rhizophila 16YSM-P39. These selected strains are suggested as potential alternatives for management of PWD by induction of systemic resistance.     

Phylogenetic,genetic, and phenotypic diversity of Pseudomonas syringae pv. syringae strains isolated from citrus blast and black pit in Tunisia

Citrus blast and black pit caused by Pseudomonas syringae pv. syringae (Pss) is the only bacterial disease reported in Tunisian Citrus orchards. The phylogenetic relationship between Pss strains was studied based on multilocus sequence analysis (MLSA), using partial sequences of housekeeping genes rpoD, rpoB, gyrB, cts, and pfk for 14 representative Pss Citrus strains, including the reference strain LMG5496. The MLSA revealed that the studied Tunisian Citrus strains are closely related to LMG5496 and cluster in phylogroup 02. Based on the cts gene, the majority of Citrus strains clustered in clades “a” and “b”. However, five strains were placed in a newly defined clade “g”. We describe the presence of six different type III secreted effectors (T3SEs). These were found with frequencies of 100% for the effector hopAN1 and the helper hrpK1, 65% for hopT1-2, and 14% for hopN1, hopR1, and hopQ1-2. Investigation of copper resistance showed that 67% of our Pss Citrus strains from Tunisia are resistant to copper sulphate in vitro, and the copper resistance genes copABCDR were detected in 23% of the strains. Our results present new data concerning the genetic diversity and phylogeny, presence of T3SEs, and copper resistance within the Pss populations that affect Citrus in Tunisia.     

Clonal populations of Clavibacter michiganensis subsp. michiganensis are responsible for the outbreaks of bacterial canker in greenhouse tomatoes in Italy

Clavibacter michiganensis subsp. michiganensis (Cmm) strains, collected in greenhouses from 17 farms during tomato bacterial canker outbreaks occurring between 2005 and 2008 in Sicily, were analysed by a multiphasic approach. Population studies were conducted to investigate the possible sources of inocula. Cmm strains were characterized by PCR assays targeting virulence genes, fingerprinting techniques, metabolic profiles and virulence. These strains were comparatively analysed with Cmm strains isolated in other parts of Italy over a period of 15 years. Chromosomal genes encoding virulence determinants tomA, ppaA, chpC, and the plasmid‐encoded genes pat‐1 and celA were detected by PCR in all tested strains, except for four Sicilian Cmm strains where the pat‐1 gene was not amplified. Using BOX‐PCR, Cmm strains were differentiated into 13 haplotypes and clonal populations were identified. Cmm strains isolated from different farms in 2008 showed the same BOX‐PCR haplotype. A distinct BOX‐PCR haplotype was obtained from atypical Cmm strains lacking pat‐1 and isolated in 2006/7 from three farms. Cmm strains with two different haplotypes were detected in one farm, whereas the other farms contained strains with only a single haplotype. A new fAFLP protocol based on the amplification of ApaI/MseI fragments was developed and was able to differentiate C. michiganensis subspecies. Different populations were delineated for the multiple outbreaks occurring in Sicily, whereas similar populations were recorded in other Italian regions over a period of 12 years. The results are consistent with previous studies that demonstrate that Cmm outbreaks are associated with propagation material.     

Resistance to Root-knot Nematodes (Meloidogyne spp.) in Vegetable Crops

Abstract

The development of root-knot nematode resistant vegetable varieties has provided an alternative control method to chemical and crop rotation. The term resistance is discussed. Work on 18 vegetables is reviewed.

Thirty tomato strains resistant to one or more Meloidogyne sp. are listed, there was a marked absence of reports on varieties resistant to M. hapla. Several workers have observed resistance in some cultivated and wild Solanum spp. The resistance could be increased by further sib and backcrossing experiments. Eggplant varieties tested for resistance to Meloidogyne spp. showed varying degrees of resistance in about 14 varieties. Further backcrossing studies between Solanum melongena and S. sysimbrifolium could provide useful results. Tests on resistance to nematodes in pepper have revealed many resistant varieties. All the pepper varieties tested were susceptible to M. hapla. The nature of resistance in sweet potato has been studied. Some varieties of Cucumis spp. have been found to be resistant to Meloidogyne spp. Since no resistance was found in C. melo, these wild species could be used in the development of a commercial muskmelon variety. Tests with 83 watermelon varieties indicated that all varieties were resistant to M. hapla. It was difficult to find resistance to Meloidogyne spp. in Cucurbita, but tests on wild species have yet to be carried out. Work on lima bean, snap bean, pea, soyabean, cowpea and broadbean has produced a limited number of resistant vegetable varieties, which are described. Since resistance patterns in plants may change under different environmental or biological conditions, it is essential to test varieties under these conditions for a long period before they are released for commercial cultivation. The advantages of using resistant vegetable varieties, as compared with other methods of pest control, are outlined.     

Streptomycin resistance in Clavibacter michiganensis subsp. michiganensis strains from Chile is related to an rpsL gene mutation

Streptomycin has been used for decades in Chile to control Clavibacter michiganensis subsp. michiganensis (Cmm), the causal agent of tomato bacterial canker. The aim of this work was to evaluate streptomycin resistance and to analyse the presence of resistance-related genes in Cmm strains from Chile. A collection of 25 Cmm strains isolated from different localities in central Chile between 1996 and 2015 was analysed. Minimum inhibitory concentration (MIC) of streptomycin was determined. A search of streptomycin resistance-related genes was carried out in Cmm genomes, and the presence of these genes was studied in all Chilean strains using PCR and sequencing techniques. MIC results showed that four of 25 strains were highly sensitive to streptomycin, with MIC values <2 μg mL⁻¹. The remaining 21 strains possessed MIC of streptomycin ≥100 μg mL⁻¹. The strB gene, encoding an aminoglycoside 6-phosphotransferase that inactivates streptomycin, was detected in all Chilean strains, including sensitive and resistant strains. In the 21 resistant strains, a mutation in codon 43 of the rpsL gene was determined, conferring high streptomycin resistance. Interestingly, the four streptomycin-sensitive Cmm strains did not possess this mutation. This study proposes that the continuous use of streptomycin leads to emergence of resistant Cmm strains, challenging researchers to look for novel alternatives to control this plant pathogenic bacterium.     

Disease resistance induced by nonantagonistic endophytic Streptomyces spp. on tissue-cultured seedlings of rhododendron

Of 82 strains of endophytic actinomycetes isolated from rhododendron plants, 12 were not antagonistic against Pestalotiopsis sydowiana, which is the causal agent of Pestalotia disease. Of these 12, MBR-37 and MBR-38 (identified as Streptomyces spp.) grew on IMA-2 medium. Tissue-cultured seedlings of rhododendron treated with these nonantagonistic strains showed less wilting and/or smaller lesions to P. sydowiana, although the degree of resistance was a little lower than that conferred by antagonistic Streptomyces galbus strain R-5. These seedlings accumulated the anthocyanin(s), suggesting that resistance induced by these strains could depend on activated defense responses associated with the phenylpropanoid pathway rather than with antibiosis.     

Durability of resistance in lily to basal rot: evaluation of virulence and aggressiveness among isolates ofFusarium oxysporum f. sp.lilii

Prospects of durability of resistance in lily to basal rot have been evaluated by testing the virulence and aggressiveness of 31 isolates ofFusarium oxysporum f. sp.lilii towards a number of different resistance sources inLilium spp. Isolates differed strongly in aggressiveness as did species and cultivars ofLilium spp. in resistance. Significant interactions were observed between isolates of the pathogen and genotypes ofLilium spp., but the magnitude was very small compared to the main effects. The interactions were mainly due to a small group of isolates with low aggressiveness. It is argued that the interactions might be based on minor genes. No major break down of the resistance was found. For practical purposes it will be sufficient to use highly aggressive isolates in screening tests.     

Microarray analysis of global gene regulation in the Cry1Ab-resistant and Cry1Ab-susceptible strains of Diatraea saccharalis

BACKGROUND: Extensive adoption of transgenic Bt corn in recent years for stalk borer control has increased risk of resistance evolution in the target pest populations. A Bt‐resistant strain of the sugarcane borer, Diatraea saccharalis, was approximately 100‐fold more tolerant to Cry1Ab toxin than the susceptible counterpart. To gain a better understanding of the molecular mechanisms of Bt resistance, the Cry1Ab‐susceptible (Cry1Ab‐SS) and Cry1Ab‐resistant (Cry1Ab‐RR) strains of D. saccharalis were subjected to a microarray analysis. RESULTS: Results showed that the expression levels of many genes were significantly different between the Cry1Ab‐RR and Cry1Ab‐SS strains. Microarray analysis of 7145 cDNAs revealed 384 differentially expressed genes. A total of 273 genes were significantly upregulated 2–51.6‐fold, and 111 genes were significantly downregulated 2–22.6‐fold in the Cry1Ab‐RR strain. The upregulation of three potential resistance‐related genes, coding for a glutathione S‐transferase (GST), a chymotrypsin‐like protease (CHY) and a lipase (LP), was confirmed using real‐time PCR, indicating a reproducibility of the microarray data. Ontology analysis revealed that more than twice the number of metabolic‐related genes were upregulated compared with downregulated genes with the same biological function. Up to 35.2% of the upregulated genes in the resistant strain were associated with catalytic activity, while only 9.5% of the downregulated genes were related to the same catalytic molecular function. CONCLUSION: The large portion of metabolic‐ or catalytic‐related genes with significant upregulations indicated a potential large increase in metabolic or catalytic activities in the Cry1Ab‐RR strain. This cDNA microarray gene expression data could be used to characterize and identify new genes that may be associated with Bt resistance in D. saccharalis. Copyright © 2012 Society of Chemical Industry     

137份云南省地方稻抗白叶枯病多菌系多基因鉴定

为选育水稻抗性品种和发掘抗白叶枯病基因,以来自中国、日本和菲律宾的9株革兰氏阴性菌黄单胞菌水稻变种Xanthomonas oryzae pv. oryzae菌株为供试菌株评价137份云南省地方稻种质资源对白叶枯病菌的抗性,同时检测供试材料中含14个已克隆抗白叶枯病基因的情况。结果显示,供试材料中至少对1株黄单胞菌水稻变种菌株有抗性的材料有104份,抗1、2、3、4、5、6、7、8和9株黄单胞菌水稻变种菌株的材料分别有25、19、14、19、11、6、5、2和3份;其中白杂一号、珍白18、麻旱谷、老来红、晋糯、香谷、毫冷薅、齐头蚂蚱谷、九谷和来之不易10份材料抗谱较广。大部分抗性材料携带1～7个白叶枯病抗性基因或其同源基因,未检测到含有Xa7、xa13、Xa21和Xa45(t)基因或其同源基因的材料。供试材料携带的抗性基因数量与抗性水平均呈极显著相关。