两株棉花立枯病拮抗菌MH1和MH25的筛选与鉴定

从棉花根际分离了1277个细菌分离物,以棉花立枯病病原真菌立枯丝核菌(Rhizoctonia solani Kuhn)为靶标菌,通过平板对峙法获得25个具有拮抗性能的分离物,其中MH1和MH25具有较强的拮抗性能,且拮抗性能稳定,具有较好的生防潜力.经过形态观察、生理生化特征分析及16S rDNA序列分析,MH1为短芽孢杆菌(Brevibacillus brevis),MH25为枯草芽孢杆菌(Bacillus subtilis).MH1和MH25的16S rDNA序列在GenBank中注册号分别为:EF488102,EF488103.     

施硅增强水稻对纹枯病的抗性

采用水培的方法,从细胞学和生理生化方面研究了硅增强水稻对纹枯病的抗性作用。结果表明：加硅处理的水稻叶片硅化细胞和叶片表面的硅元素含量均显著高于缺硅处理（对照）：接种纹枯病菌后,加硅处理的MDA含量总体上低于缺硅处理,峰值尤为显著;加硅处理的SOD活性始终高于缺硅处理,接种后第4天加硅处理SOD活性较低时,其POD活性较高,而缺硅处理的POD活性较低,表明硅增强了SOD和POD之间的协调性;接种后硅对CAT和PAL活性没有产生明显影响,但降低了PP0活性;加硅能显著降低水稻植株的纹枯病病情指数。     

Greek indigenous streptomycetes as biocontrol agents against the soil‐borne fungal plant pathogen Rhizoctonia solani

Aims

To examine the biocontrol potential of multiactive Greek indigenous Streptomyces isolates carrying antifungal activity against Rhizoctonia solani that causes damping‐off symptoms on beans.

Methods and Results

A total of 605 Streptomyces isolates originated from 12 diverse Greek habitats were screened for antifungal activity against R. solani DSM843. Almost one‐third of the isolates proved to be antagonistic against the fungus. From the above isolates, six were selected due to their higher antifungal activity, identified by analysing their 16S rRNA gene sequence and studied further. The obtained data showed the following: firstly, the isolates ACTA1383 and ACTA1557 exhibited the highest antagonistic activity, and therefore, they were selected for in vivo experiments using bean seeds as target; secondly, in solid and liquid culture experiments under optimum antagonistic conditions, the medium extracts from the isolates OL80, ACTA1523, ACTA1551 and ACTA1522 suppressed the growth of the fungal mycelium, while extracts from ACTA 1383 and ACTA1557 did not show any activity.

Conclusions

These results corresponded important indications for the utility of two Greek indigenous Streptomyces isolates (ACTA1557 and ACTA1383) for the protection of the bean crops from R. solani damping‐off symptoms, while four of them (isolates OL80, ACTA1523, ACTA1551 and ACTA1522) seem to be promising producers of antifungal metabolites.

Significance and Impact of the Study

This is the first study on the biocontrol of R. solani using multiactive Streptomyces isolates originated from ecophysiologically special Greek habitats. Our study provides basic information to further explore managing strategies to control this critical disease.     

转PvPGIP2基因小麦的获得与纹枯病抗性鉴定

多聚半乳糖醛酸酶抑制蛋白(PGIP)是一种植物防卫蛋白,可阻止一些病原真菌的侵害。本研究克隆出扁豆PvP-GIP2基因编码序列,构建了受玉米泛素(ubiquitin)启动子控制的PvPGIP2基因表达载体pA25-PvPGIP2;采用基因枪法将pA25-PvPGIP2转化小麦推广品种扬麦18幼胚愈伤组织4000块,获得了203株再生植株。PCR检测出阳性植株65株,转化率为1.625%。对转PvPGIP2基因小麦T1～T2植株,进行外源基因的PCR、RT-PCR、荧光定量RT-PCR(Q-RT-PCR)分析和小麦纹枯病抗性鉴定。结果表明,转入的PvPGIP2能够在转基因小麦中遗传、转录与表达;PvPGIP2基因的表达提高了转基因植株对小麦纹枯病的抗性。     

Changes in the biochemical composition of stored potato tubers during pathogenesis by Rhizoctonia bataticola

The nutrient contents of the two cultivare of Potato‐Irish Cobbler and Red Pontiac were quantitatively altered by Rhizoctonia bataticola during pathogenesis. The glucose content of both cultivare increased whereas sucrose, maltose and fructose contents decreased appreciably in quantity during the period of incubation. The total protein and lipid contents of both cultivare were also lowered quantitatively by the rot‐causing organism. The depletion of total carbohydrate, protein and lipid contents, was more in Irish Cobbler cultivar than in Red Pontiac cultivar.     

Biological control of Meloidogyne incognita and Fusarium solani in dry common bean in the field

Meloidoyne incognita (root-knot nematode) and Fusarium solani (root-rot pathogen) were the common soil-borne pathogens and cause severe damage to bean plants in newly reclaimed sandy soil in Nubaryia district, Behera Governorate, Egypt. The antagonistic effects of Trichoderma album and Trichoderma viride as well as three commercial products namely Rhizo-N^® (Bacillus subtilis), Bio-Arc^® 6% (Bacillus megaterium) and Bio-Zeid^® 2.5% (T. album) were tested against M. incognita and F. solani under naturally infected field conditions. T. album and T. viride highly reduced the frequency (%) population of pathogenic fungi such as Fusarium spp., F. solani and Rhizoctonia spp., than the commercial products. Results indicated that all the tested bio-control agents reduced, significantly, the nematode criteria as evidenced by the number of juvenile (J₂) in soil and number of galls and egg masses on roots of common bean and Fusarium root-rot incidence (%). Rhizo-N^® highly reduced the number of J₂ in soil, while T. album was the best in reducing the number of galls and egg masses in roots. The bio-control agents also increased the plant growth parameters of common bean plants i.e. plant height, plant weight, branch no./plant, pods no./plant, pod weight/plant, pod weight, seeds no./plant, fresh seeds weight/pod, dry seeds weight/pod and dry weight of 100 seeds.     

Distribution analysis of population structures for Rhizoctonia solani AG-1 IA in Japanese paddy field,using rep-PCR assay

In the present study, characterisation of genotypic variations of Rhizoctonia solani AG-1 IA associated with rice sheath blight by Rep-PCR assay and their structure of the genotypic variations by monitoring vertical and horizontal movements of their populations at a short distance level were investigated in Japanese paddy fields. Differences of the Rep-PCR fingerprintings were observed and distinguished into four genotypic variations referred to as GI, GII, GIII and GIV, respectively. Although similarity index of each genotype showed high levels of homology (85–90%) within the same genotypes, low levels of similarity index (65–70%) were also varied among the comparison of different genotypes. Moreover, diversity of genotypic populations was observed which is consistent with the correlations between the geographical undulations of the paddy fields and the occupation of their genotypic populations, indicating the presence of genotype GI on low lands such as AK1 and also the presence ofgenotype GIV on high lands such as AK4.     

Modification of plant bait technique for direct diagnosis for Rhizoctonia rice pathogens from Myanmar paddy field soils

A modified baiting technique was conducted for selective isolation, fungal DNA diagnosis and fungal cell lipid assay derived from Myanmar isolates of Rhizoctonia spp., causal agents of rice sheath diseases by trapping selective plant stem segments. Bait plant materials of rice, mat rush and cotton were successfully used to isolate R. solani AG1-IA, R. oryzae and R. oryzae-sativae. Moreover, the three plant materials were also effectively used to detect genomic DNA derived from all Rhizoctonia spp. obtained from Myanmar. Rice segment was the most successful materials for detection of fungal cell lipids including palmitic, stearic and linoleic acids. The results of this experiment demonstrate that bait plant materials of rice, mat rush and cotton were the best useful tools for not only direct isolation, but also fungal DNA diagnosis and cell lipid assay of Myanmar soil environmental conditions.     

Susceptibility of tall fescue to Rhizoctonia zeae infection as affected by endophyte symbiosis

Endophytic fungi belonging to the genus Neotyphodium often form symbiotic associations with grasses. The host plants usually benefit from the association with an endophyte. Presence of the symbiont may increase host resistance to infection by some pathogens. However, the exact mechanism of the lower susceptibility of endophyte‐infected plants to diseases is still unclear. Growth chamber trials were conducted to determine whether (a) tall fescue plants infected with the endophyte Neotyphodium coenophialum (E+) are more resistant to sheath and leaf spot disease caused by Rhizoctonia zeae than endophyte‐free (E?) plants, and (b) R. zeae growth inhibition is associated with endophyte presence. Tall fescue genotypes, each symbiotic with a genetically different native endophyte strain, were inoculated with isolates of R. zeae. The tillers infection by R. zeae, density of endophyte hyphae and content of total phenolic compounds in tillers were studied. Antifungal activity of the N. coenophialum towards R. zeae, Rhizoctonia solani, Bipolaris sorokiniana and Curvularia lunata was also investigated in dual‐culture assays. For Tf3, Tf4, TfA2 and TfA9 tall fescue genotypes, the E+ plants had reduced R. zeae infection. In the Tf9 and Tf8085 genotypes, R. zeae infection was similar for both E+ and E? plants. The strongest effect was observed for the Tf4 endophyte. A strongly positive correlation (r = 0.94) occurred between endophyte hyphal density and disease index across all tall fescue genotypes. Dual‐culture assays showed no inhibitory interaction between the seven endophyte strains and the R. zeae isolates; however, some endophytes inhibited R. solani, B. sorokiniana and C. lunata. Endophyte presence increased the production of phenolic compounds by the host grasses. The level of phenolics also differed significantly depending on the time of analysis after inoculation of plants by R. zeae. The results indicate that N. coenophialum can suppress disease severity caused by R. zeae infection. The mechanism of higher resistance of E+ plants is likely not based on direct inhibition such as antibiosis or competition. Thus, the induction of specific mechanisms in the host plant, for example, production of phenolic compounds, seems to be the main way of providing resistance to the grass by the endophyte.