灰葡萄孢菌nit突变体的诱导及其在营养体亲和性测定中的应用初探

 从山西运城、临汾、长治、晋中、大同等地保护地黄瓜灰霉病病株上采集、分离的分属于3个不同菌丝融合群的8个灰葡萄孢菌单孢菌株,经氯酸盐诱导处理,共获得了抗氯酸盐的硝酸盐利用缺陷突变体(nit突变体)59株,其中nit1型38株,nit3型10株,nitM型11株。所有nit突变株分别在PDA斜面转管培养3次(21 d)后,除6株恢复成野生菌株外,其余多数nit突变菌株表现稳定。来源于同一野生菌株的不同类型nit突变体间或同一菌丝融合群不同野生菌株的nit突变体间可产生互补反应而形成异核体,其中以nitM型突变株互补性最好,在利用nit突变体测定灰葡萄孢菌营养体亲和性时应作为标准菌株。来源于不同菌丝融合群的nit突变体间不能产生互补反应。     

Genetic Relationships Among Verticillium dahliae Isolates from Cotton in Greece Based on Vegetative Compatibility

Vegetative compatibility groups of a collection of 71 Greek Verticillium dahliae isolates obtained from cotton plants were tested. Nit mutants were generated from single spore wild strains by selecting chlorate-resistant sectors on minimal medium amended with potassium chlorate, 25g/l. These mutants were tested against tester strains from the USA and Greece of the previously described VCGs 1, 2, 3 and 4. Forty-six of 71 isolates belonged to VCG2, because they were able to anastomose with the testers of this group, two isolates belonged to VCG4 and one to VCG1, while the 22 remaining strains could not be assigned to any of the identified VCGs. Our data demonstrated that wilt of cotton is caused only by V. dahliae in Greece, and VCG2 is the most commonly detected VCG. Some strains were found to be more virulent to cotton than other strains from the same VCG. This is the first report of VCG1 of Verticillium in Greece.     

Genetic diversity of the entomopathogen<Emphasis Type="Italic">Verticillium lecanii</Emphasis> on the basis of vegetative compatibility

Forty-three isolates ofVerticillium lecanii from insects, phytopathogenic fungi and other substrates were tested for vegetative compatibility by observing heterokaryon formation among complementary nitrate-nonutilizing (nit) mutants.nit mutants were isolated from 42/43 strains examined. Twenty-one isolates were self-incompatible, and the remaining 21 isolates were divided into 14 vegetative compatibility groups (VCGs): ten containing only a single strain each, and the remaining four containing two to four isolates each. Members of isolates in each of these VCGs all shared the same IGS haplotype. Further, the isolates within a VCG were correlated with one another in part by fragment patterns of mt-LrDNA, -SrDNA, Bt-2 and H4 region, by PCR-RFLP and -SSCP, but not by dsRNA. Two isolates belonging to VL-J2 have high virulence to aphids, whereas strains from VL-J1 lack this character. These findings indicate that two VCGs (VL-J1 and -J2) may originate from two distinct clonal lineages. Alternatively, high VCG diversity and HSI frequency ofV. lecanii might be associated with an array of distinct lineages. These data not only suggest relationships among DNA polymorphisms, virulence, and VCG, but also demonstrate genetic heterogeneity ofV. lecanii. http://www.phytoparasitica.org posting Sept. 30, 2003.     

Vegetative compatibility among isolates ofColletotrichum gloeosporioides from almond in Israel

Anthracnose, caused byColletotrichum gloeosporioides, is the major disease of almond in Israel. Pathogen attack of young fruit results in fruit rot and leaf wilting. Seventy isolates ofC. gloeosporioides were obtained from affected almond fruits collected at 11 sites during 1991–2 and 1994. Chlorate-resistant nitrate-nonutilizing (nit) mutants were generated from each isolate and used in complementation (heterokaryon) tests. The formation of complementary stable heterokaryons between mutants from different isolates showed that all the isolates belonged to a single vegetative compatibility group. Representative isolates ofC. gloeosporioides from almond did not form heterokaryons with local isolates ofColletotrichum from anemone and avocado, indicating that the almond isolates constitute a distinct subspecific group withinC. gloeosporioides.     

尖孢镰刀菌异核体及其不同核型分离子的孢子萌发时期同工酶分析

在获得尖孢镰刀菌棉花萎蔫专化型异核体菌株及其3个稳定的不同核型分离子的基础上，选择孢子萌发时期的幼嫩菌丝制备粗酶提取液，采用聚丙烯酰胺凝胶电泳方法进行了7种同工酶分析。结果表明，酯酶和乳酸脱氢酶电泳图谱在4个样品中完全一致；没有致病能力的菌株在葡萄糖－6磷酸脱氢酶在苹果酸脱氢酶的表达量高于致病力强的菌株；致病力强的菌株没有乙醇脱氢酶的表达。在4个样品中都没有检测到苹果酸酶和过氧化氢酶。     

双孢蘑菇原生质体同核体及杂交异核体的RAPD分析

本研究以双孢蘑菇原生质体同核体及杂交异核体为材料,用5对随机双引物进行RAPD分析。结果表明,RAPD反应扩增出的特异DNA谱带能够将原生质体同核体与异核体出发菌株以及杂交异核体与同核体亲本明显区别开来。因此,RAPD分析是一种快速有效的手段,能够在双孢蘑菇的遗传研究和菌种改良中发挥重要作用。     

Characterization of mating type (MAT) alleles differentiated by a natural inversion in Sclerotinia minor

A recent study on fungal mating type genes revealed two MAT alleles within homothallic Sclerotinia sclerotiorum differentiated by an inversion, Inv? (inversion negative) and Inv+ (inversion positive). An analysis of mating type in closely related S. minor was conducted to shed light on the evolution of this MAT inversion. Inv? and Inv+ MAT alleles were identified in S. minor and were characterized. Both MAT alleles in S. minor were flanked by APN2 and SLA2, and consisted of two idiomorphs fused as in other homothallic ascomycetes. However, in the Inv+ MAT, the 3·6 kb MAT region was inverted relative to the Inv? MAT. Except for the inversion, both Inv? and Inv+ MAT in S. minor were equal in size and identical in nucleotide sequence. The MAT inversion in Inv+ S. minor was at exactly the same place as in Inv+ S. sclerotiorum and affected three of four MAT genes: MAT1‐1‐1 was truncated and MAT1‐2‐4 and MAT1‐2‐1 were inverted. Unlike S. sclerotiorum, expression of MAT genes did not differ between Inv? and Inv+ S. minor. The 250 bp inverted repeat motif that flanked the inverted MAT region in S. sclerotiorum and believed responsible for the MAT inversion was also found in S. minor, but was 256 bp. Depending on the MAT genes, 93–96% nucleotide identity was observed between Sclerotinia species. Both Inv+ and Inv? MAT S. minor and S. sclerotiorum isolates were commonly found in lettuce fields of Arizona along with MAT heterokaryons.     

Vegetative compatibility and heterokaryon stability in Fusarium oxysporum f.sp. radicis-lycopersici from Italy

Fusarium crown and root rot, caused by Fusarium oxysporum f.sp. radicis-lycopersici ( Forl ), is one of the most destructive soilborne diseases of tomato in Italy. Chlorate-resistant, nitrate-nonutilizing ( nit ) mutants were used to determine vegetative compatibility among 191 isolates of Forl collected in five geographic regions (Calabria, Emilia-Romagna, Liguria, Sardinia, Sicily) in Italy. The isolates were assigned to five vegetative compatibility groups (VCGs): 65 isolates to VCG 0090; 99 to VCG 0091; 23 to VCG 0092; two to VCG 0093; and two to VCG 0096. The population structure of Forl in Italy is similar to that reported for Israel, and differs from that found in North Atlantic European countries, where VCG 0094 is predominant. The stability of prototrophic heterokaryons originating from hyphal anastomosis between compatible complementary nit mutants was assessed through conidial analysis and mycelial mass transfer. Most monoconidial cultures (84%) recovered from 117 prototrophic heterokaryons were nit mutants, indicating that heterokaryons generally do not proliferate well through conidiation; most of the 177 prototrophic heterokaryons examined were unstable, and only 9% sustained prototrophic growth through the tenth mycelial transfer upon subculturing. The prototrophic growth is proposed to be maintained through restoration of the heterokaryotic state by continual anastomosis between adjacent homokaryotic hyphae. Since heterokaryosis is a prerequisite for parasexual recombination, we speculate that this mechanism is unlikely to play a major role in generating the VCG diversity found among Forl or other strains of F. oxysporum.     

Improved plant heterokaryon formation by surfactant-supplementation of polyethylene glycol fusogen solution

Summary PEG fusion solution for leaf protoplasts of Petunia parodii and cell suspension protoplasts of albino P. hybrida cv. Comanche was supplemented with 0.01–1.0% (w/v) Pluronic F-68. This stimulated protoplast fusion overall, including parental homokaryon formation, with increased means of 23% and 83% respectively, over appropriate controls using 1.0% (w/v) surfactant added to the standard PEG solution. Interestingly, the percentage heterokaryon formation increased near 2-fold (P<0.001) for fusogen solutions supplemented with 0.01% (w/v) Pluronic. Protoplasts regenerated to colonies in KM8P/KM8 liquid medium, indicating no adverse effects of Pluronic F-68 on viability, both in the short and longer terms.Abbreviations BA 6-benzyladenine - MS Murashige & Skoog (1962) - NAA -naphthaleneacetic acid - PEG polyethylene glycol