Development of a highly efficient gene targeting system for Fusarium graminearum using the disruption of a polyketide synthase gene as a visible marker

We cloned a polyketide synthase gene (pks12) from Fusarium graminearum, a devastating fungal pathogen of cereals. Transformation-mediated gene disruption led to an easily detectable albino phenotype of the disruptants. We used the disruption of the pks12 gene as a visible marker for transformation-mediated homologous recombination and optimized the transformation procedure to achieve a high rate of homologous recombination. In combination with the published genomic sequence data and the generation of expressed sequence tags (ESTs) for F. graminearum, this is a useful tool to investigate this important plant pathogen on a molecular level. Optimized transformation of F. graminearum resulted in at least 93% homologous recombination events when the homologous genomic DNA fragment in the vector had a size of approximately 800bp and was linearized in the middle. Using a genomic sequence of approximately 500bp in the transformation vector, 70% of the transformants still exhibited homologous recombination. On the contrary, no more than 10% homologous recombination events were observed when less than 400bp DNA fragments were used. We co-transformed F. graminearum with two different vectors. One vector harboured a DNA insert homologous to the pks12 gene, while the other vector consisted of the same vector backbone carrying the selection marker specific for F. graminearum. About 70% of the transformants had a disrupted pks12 gene, and all of these showed an integration of the second vector into the pks disruption vector. Therefore, the time-consuming construction of a single transformation vector can be avoided; furthermore, it is now easily feasible to express a gene construct at a defined and mutated genomic site.     

氟康唑体外诱导白假丝酵母菌耐药基因表达的研究

目的 对白假丝酵母菌耐药机制进行研究.方法 将临床分离对氟康唑敏感的白假丝酵母菌种,经体外诱导产生耐药.半定量PCR检测敏感株、耐药株、回复敏感株多药耐药基因CDR1、CDR2、MDR1和转录调控因子TAC1编码基因表达水平的变化,并对TAC1编码基因进行测序.结果 与敏感株和回复敏感株比较,耐药株CDR1、CDR2相对表达量增高,发现1株TAC1 N977D氨基酸置换.结论 氟康唑体外诱导白假丝酵母菌产生耐药的机制与CDR1、CDR2表达相关.TAC1基因突变在诱导耐药中的机制有待进一步研究.     

Development of an efficient gene targeting system in Colletotrichum higginsianum using a non-homologous end-joining mutant and Agrobacterium tumefaciens-mediated gene transfer

The hemibiotrophic ascomycete Colletotrichum higginsianum is the casual agent of anthracnose disease of cruciferous plants. High efficiency transformation by Agrobacterium tumefaciens-mediated gene transfer has been established for this fungus. However, targeted gene mutagenesis through homologous recombination rarely occurs in C. higginsianum. We have identified and disrupted the C. higginsianum homologue of the human Ku70 gene, ChKU70, which encodes a protein that plays a role in non-homologous end-joining for repair of DNA breaks. chku70 mutants showed a dramatic increase in the frequency of integration of introduced exogenous DNA fragments by homologous recombination without any detectable phenotypic defects. This result demonstrates that the chku70 mutant is an efficient recipient for targeted gene mutagenesis in C. higginsianum. We have also developed a novel approach [named direct repeat recombination-mediated gene targeting (DRGT)] for targeted gene disruption through Agrobacterium tumefaciens-mediated gene transfer. DRGT utilizes homologous recombination between repeated sequences on the T-DNA flanking a partial fragment of the target gene. Our results suggest that DRGT in the chku70 mutant background could be a useful tool for rapid isolation of targeted gene disruptants in C. higginsianum.     

Development of a transient expression system in grapevine via agro-infiltration

Transient expression of genes using Agrobacterium is a powerful tool for the analysis of gene function in plants. We have developed this method for the analysis of genes involved in disease resistance in grapevine leaves. Our research showed that the quality of the plant material, the plant genotype used for agro-infiltration and the presence of additional virulence factors (carried on plasmid pCH32) in the Agrobacterium strain are all important factors for success of the procedure. After optimising these factors, we consistently achieve sufficient acceptable levels of expression of the markers beta-glucuronidase (GUS) and green fluorescent protein (GFP) using vacuum infiltration of grapevine leaves from plants grown in vitro. We used this procedure to investigate the proposed role of stilbenes in defense against grapevine downy mildew (Plasmopara viticola) by transiently overexpressing stilbene synthase in grapevine leaves, before infection with P. viticola. We found that agro-infiltration itself induces the synthesis of stilbenes in grapevine leaves, thus preventing us to test the effect of the overexpression of stilbene synthase in defense. However, our results revealed that agro-infiltration before P. viticola inoculation had an effect on the development of the infection. Further research is required to show whether stilbenes or some other factor are the causal agent restricting pathogen development. The method described here provides and excellent tool to exploit at the many grapevine genomic resources now available, and will contribute to a better understanding of many areas of grapevine biology.     

Effects of fluconazole on Candida glabrata biofilms and its relationship with ABC transporter gene expression

Candida glabrata has emerged as the second most prevalent fungal pathogen and its ability to form biofilms has been considered one of the most important virulence factors, since biofilms present a high tolerance to antifungal agents used in fungal infection treatment. The mechanisms of biofilm tolerance to antifungal agents remain poorly understood. Thus, the aim of this study was to evaluate the effects of fluconazole (FLU) on the formation and control of C. glabrata biofilms and its relation with the expression of genes encoding for ABC transporters, CDR1, SNQ2, and PDR1. For that, minimal inhibitory concentration values for seven C. glabrata strains were determined and the effect of FLU against C. glabrata biofilms was evaluated by total biomass quantification and viable cell enumeration. Matrices from biofilms were analyzed in terms of protein, carbohydrate and DNA content. ABC transporter gene expression was analyzed for quantitative real-time PCR. In addition to the high amounts of proteins and carbohydrates detected in the extracellular matrices in the presence of FLU, this work showed that the overexpression of efflux pumps is a possible mechanism of biofilm tolerance to FLU and this phenomenon alters the structure of C. glabrata biofilms by creating cell clusters.     

A simple, rapid, and highly efficient gene expression system for multiheme cytochromes c

The genes of tetraheme cytochrome c3 and hexadecaheme high-molecular-weight cytochrome c from Desulfovibrio vulgaris could be overexpressed as holoproteins in Shewanella oneidensis TSP-C using pUC-type vectors of E. coli. Surprisingly, S. oneidensis was transformed directly by pUC-type vectors through electroporation. The yields of the recombinant proteins in this expression system were much higher than the previously reported ones.     

Tup1突变对转录抑制局部网络中基因表达的非线性影响

研究基因网络的非线性行为特征是研制基因网络技术的基础。Tup1基因是酵母中作用最为广泛的转录抑制因子之一,利用酵母生物信息学数据库中蛋白相互作用关系,构建一个以Tup1为中心,4个层次741个基因的局部基因网络。统计分析六张Tup1不同突变的基因表达芯片数据,将局部基因网络中的全部基因按照3个网络特征进行统计分析：必需、非必需基因、网络层次和网络节点,并研究这些特征与基因表达之间的关系。初步发现基因表达变化的强度与节点数目成一定的反比关系,必需基因的平均变化程度较非必需基因为低,且由Tup1突变引发的其他基因的表达变化在以Tup1为中心的局部基因网络中近层次网络变化程度较大,远层次网络变化程度较低。     

Development of a robust transient expression screening system in protoplasts of Cannabis

In Vitro Cellular & Developmental Biology - Plant - Transient expression systems in mesophyll protoplasts have been utilised in many plant species as an indispensable tool for gene function...