Establishment of a New Cross of the Rice Blast Fungus Derived from Japanese Differential Strain Ina168 and Hermaphroditic Rice Pathogen Guy11

Mating experiments between Magnaporthe grisea Japanese rice pathogens and Guy11, a hermaphroditic fertile rice pathogen, were done aimed at identification of avirulence genes. A cross named cross 2107 with thirty-six random progenies was obtained. Segregation analyses of genetic markers found that the cross was less suitable for genetic analysis. Backcrosses with cross 2107 progenies and Guy11 were done and another cross named cross 5307 with sixty-five progenies was obtained. A locus controlling kasugamycin resistance named Ksg1R was identified and used for a model case of genetic mapping. Bulked segregant analysis was done to find adjacent RAPD markers for mapping of the gene. Three adjacent markers to Ksg1R were obtained and a genetic map around the Ksg1R was made, but these markers were not located on a single chromosome. These results suggest that genetic analysis to identify a gene locus is available in cross 5307. Infection assay of parental strains of cross 5307 to Japanese differential rice cultivars suggested the possibility of genetic analysis of cultivar specificity toward four rice cultivars: Aichiasahi, Kusabue, Tsuyuake, and K59.     

甘薯根腐病菌侵染对甘薯内源激素水平的影响

甘薯根腐病病原菌[Fusarium solani(Mart.)Sacc.f.sp.batatas McClure,简称FSB]侵染及其培养液滤液处理高敏感性甘薯品种‘胜利百号’后,引起甘薯叶片、茎尖和根部组织内源ABA含量大幅升高。其中在根部出现最早,但茎尖中积累浓度最高。侵染后甘薯叶片、茎尖和根部组织内源GA1/3含量显著低于对照。甘薯组培苗经FSB培养滤液处理9h后,ABA含量显著上升,处理15h,ABA含量呈下降趋势,而GA1/3含量在101和102稀释液处理15h(103稀释液处理12h)时出现显著上升。这些结果有助于解释甘薯根腐病株矮小不产生藤蔓,并在秋季大量现蕾开花的生理现象。     

稻瘟病菌致病突变体的REMI诱变与鉴定

以水稻“爱知旭”(Aichi—aShahi)为寄主,将带选择标记的质粒pCSN43和pBF101为外源DNA,利用限制酶诱导整合(REMI)这种新方法转化稻瘟病菌原生质体,从筛选到的数百个转化体中分离出3个与致病能力密切相关的突变体R2H65、R2H69和R281565。其中,R2H65和R2H69只产生畸形分生孢子,分生孢子的发育和附着胞的形成以及黑色素的合成均受到极大影响,致病性测试证明完全丧失致病能力;R281565的许多表型与野生型的相似,但致病能力却大大降低。     

靛红衍生物的合成及其对稻瘟菌的生物活性

以靛红为原料合成了系列3-亚胺基/亚甲基-吲哚-2-酮化合物及其Mannich碱衍生物,研究了它们在抗稻瘟菌方面的活性,发现了这两种类型的若干化合物有较好的抑制稻瘟菌孢子萌发的活性,初步讨论了构效关系。认为1位的羟甲基和胺甲基、3位的亚甲基是药效团,芳基亚甲基苯环上对位取代基、羟基取代基和吸电子取代基不利于活性的提高,邻位的供电子取代基有利于活性的提高。     

Allozyme variation in the endangered insular endemic Castilleja grisea

BACKGROUND AND AIMS: Genetic diversity in Castilleja grisea, an endangered, perennial herb endemic to San Clemente Island, California was investigated. Subsequent to the elimination of goats from the island in 1992, many populations of C. grisea have reappeared and have been increasing in size. METHODS: Nineteen populations were surveyed for their genotype at 19 allozyme loci. KEY RESULTS: At the taxon level, 57.9 % of loci are polymorphic with A(P) = 3.09 and H(E) = 0.137. Populations averaged 33.0 % polymorphic loci with A(P) = 2.43 and H(E) = 0.099. Most variation is found within rather than among populations (G(ST) = 0.128), although differentiation among populations is significant. Genetic identities range from I = 0.960 to I = 1.000 with mean I = 0.990. There is no significant relationship between genetic and geographic distance. Gene flow among populations is Nm = 2.50 based on private alleles and Nm = 1.70 based on F(ST). Outcrossing rates based on fixation indices average t = 1.01, indicating a primarily out-crossed mating system. CONCLUSIONS: The observed genetic variation is moderately high, unusually so for an insular endemic species, suggesting that C. grisea may not have lost substantial genetic variation during 150 years of overgrazing, and indicating that it is unlikely to be endangered by genetic factors.     

Tête à tête inside a plant cell: establishing compatibility between plants and biotrophic fungi and oomycetes

'Compatibility' describes the complementary relationship between a plant species and an adapted pathogen species that underlies susceptibility and which ultimately results in disease. Owing to elaborate surveillance systems and defence mechanisms on the plant side and a common lack of adaptation of many microbial pathogens, resistance is the rule and compatibility the exception for most plant-microbe combinations. While there has been major scientific interest in 'resistance' in the past decade, which has revealed many of its underlying molecular components, the analysis of 'compatibility', although intimately intertwined with 'resistance', has not been pursued with a similar intensity. Various recent studies, however, provide a first glimpse of the pivotal players and potential molecular mechanisms essential for compatibility in both the plant and parasite partners. In this review we highlight these findings with a particular emphasis on obligate biotrophic and hemibiotrophic fungal and oomycete pathogens and discuss novel strategies that might help to uncover further the molecular principles underlying compatibility to these highly specialized pathogens.     

Control of blast and sheath blight diseases of rice using antifungal metabolites produced by Streptomyces sp. PM5

Two antifungal aliphatic compounds, SPM5C-1 and SPM5C-2 with a lactone and ketone carbonyl unit, respectively obtained from Streptomyces sp. PM5 were evaluated under in vitro and in vivo conditions against major rice pathogens, Pyricularia oryzae and Rhizoctonia solani. These compounds were dissolved in distilled water/medium to get the required concentrations. The well diffusion bioassay indicated that the of SPM5C-1 remarkably inhibited the mycelial growth of P. oryzae and R. solani in comparison to SPM5C-2. Though SPM5C-2 showed low antifungal activity against P. oryzae, it was not active against R. solani. Further, SPM5C-1 completely inhibited the growth of P. oryzae and R. solani at concentrations of 25, 50, 75 and 100 μg/ml. Greenhouse experiments revealed that spraying of SPM5C-1 at 500 μg/ml on rice significantly decreased blast and sheath blight development by 76.1% and 82.3%, respectively, as compared to the control with a corresponding increase in rice grain yield.     

A Novel Gene Involved in Lesion Formation in Magnaporthe grisea

To date, a number of genes that are expressed in the early stages of infection have been reported, while few genes that are expressed during the course of colonization, after the initiation of plant infection, have been studied. Plant inoculations, real‐time polymerase chain reaction (PCR), gene cloning, protein expression and bioinformatics analysis were combined to identify a novel gene, MgNIP04, in the rice blast fungus, Magnaporthe grisea. Bioinformatics analysis showed that the amino acid sequence contained a signal peptide. The wounded inoculation resulted in necrosis specks when the total expressed proteins including MBP‐MgNIP04 was inoculated on the wounded rice leaves, which demonstrated the protein directly interacted with rice. The real‐time PCR result of infected leaves showed that it is upregulated during late stages of infection of rice. Additionally, the copies of the gene expression absolute quantity of the gene were 7.61 × 10², 1.06 × 10³, 1.31 × 10³, 4.13 × 10³, and 4.00 × 10³, at 24, 48, 72, 96 and 168 h postinoculation (HPI), respectively. The higher copies of MgNIP04 were found at 96 and 168 HPI. The copies of MgNIP04 in mycelia of Y98‐63C, Y99‐16, 94‐64‐1b and 95‐23‐4a were significantly lower than those of infected leaves. Through the above bioinformatics and experimental analysis, our result suggested that the MgNIP04 was novel pathogenicity‐related protein in rice blast fungus.     

9F系列海洋真菌代谢产物分离纯化及稻瘟霉活性研究

自帕劳群岛的3株9F系列海洋真菌中分离得到4个化合物,采用MS,NMR等光谱技术,确定结构分别为trans-dehydrocurvularin（1）,terrein（2）,paxilline（3）和citreopyrone（4）,其对稻瘟霉P-2b菌株的最小抑制浓度分别为：10,100,1．56,3．12μg/mL。其中化合物1是首次从海洋真菌中分离得到。