Transformation of the entomopathogenic fungus Metarhizium anisopliae to benomyl resistance

Abstract Protoplasts of the entomopathogenic fungus Metarhizium anisopliae were transformed to benomyl resistance using cosmid pSV50 which harbours a β-tubulin gene cloned from a Neurospora crassa benomyl-resistant mutant. Transformant colonies, which appeared at a frequency of 4 per 50 μg DNA, grew and sporulated on 10 μg/ml benomyl, whereas the wild type was inhibited by 3 μg/ml. Southern blot hybridization of DNA from transformants showed that, in each case, tandem repeats of the cosmid had integrated at several chromosomal loci. The transformants were mitotically stable when subcultured on non-selective agar and retained the ability to infect and kill larvae of Manduca sexta . Two transformants were less virulent than the wild type and one of them showed slower in vitro spore germination. The benomyl-resistant phenotype persisted in reisolates from insect cadavers.     

赤霉菌原生质体DNA转化*

Methods for the protoplast preparation and DNA transformation of Gibberella fujikuroi were established. The protoplasts were transformed with plasmid pAN7-1, which carries hygromycin B resistant gene (hPh), and the transformation frequency was about 10. Some transformants grew vigorously on the selectivemedium containing 400μg / ml of hygromycin B, while the minimum inhibitory concentration (MIC) of the antibiotic to the recipient strain was oniy 20μg / ml. Southern hybridization showed that the hph gene ha…     

Transformation of the entomopathogenic fungus, Metarhizium flavoviride strain CG423 to benomyl resistance

Metarhizium flavoviride strain CG423 is being developed as a mycoinsecticide against grasshoppers. This strain has been transformed to resistance to the fungicide benomyl by a polyethylene glycol (PEG)-mediated procedure using a mutant tubulin gene from Neurospora crassa . Transformation frequencies of up to 84 transformants per microgram of transforming DNA were achieved. Benomyl-resistant transformants were obtained that could tolerate greater than 30 μg ml⁻¹ benomyl. Southern blot analysis of genomic DNA reveals that the mechanism of genetic transformation of all transformants was by homologous gene replacement of the β-tubulin allele.     

Enhanced frequency of Beauveria bassiana blastospore transformation by restriction enzyme-mediated integration and electroporation

The techniques of restriction enzyme-mediated integration (REMI) and electroporation (EP) were applied for the first time to improving the blastospore transformation of fungal biocontrol agent Beauveria bassiana for higher frequency. The blastospores from < or =24 h incubation in glucose-mineral medium after shaking conidia for 48 h in Subouraud dextrose broth were found most competent for integrating 1 microg plasmid DNA vectoring the phosphinothricin (PPT) resistance gene bar in 360 microL reaction system containing 100 U HindIII or XbaI. Such blastospores were also most suitable for EP transformation at the optimized field strength of 10 kV cm(-1). The optimized REMI and EP generated averagely 39 and 53 transformants microg(-1) plasmid DNA whereas polyethylene glycol (PEG) integration yielded only 22. All transformants grew well on Czapek's agar containing 400 microg PPT mL(-1) after three rounds of cultivation on the same agar excluding PPT but their parental strain showed no resistance. The target gene inserted into the genomes of 10 transformants randomly taken from REMI or EP transformation was consistently detected by both PCR and Southern blotting. Compared to the PEG integration, REMI and EP enhanced the frequency of the blastospore transformation by 73 and 137%, respectively.     

Agrobacterium tumefaciens-mediated genetic transformation of the entomopathogenic fungus Beauveria bassiana

Agrobacterium tumefaciens-mediated transformation (agro-transformation) was successfully applied to the entomogenous fungus Beauveria bassiana. Conidia of B. bassiana were transformed to hygromycin B resistance using the hph gene of Escherichia coli as the selective trait, under the control of a heterologous fungal promoter and the Aspergillus nidulans trpC terminator. The efficiency of transformation was up to 28 and 96 transformants per 10(4) and 10(5) target conidia, respectively, using three distinct vectors. High mitotic stability of the transformants (80-100%) was demonstrated after five successive transfers on a nonselective medium. Abortive transformants were observed for all the hph(r) vectors used. Putative transformants were analysed for the presence of the hph gene by PCR and Southern analysis. The latter analysis revealed the integration of two or more copies of the hph gene in the genome. The agro-transformation method was found to be effective for the isolation of B. bassiana hygromycin resistant transformants and may represent a useful tool for insertional mutagenesis studies in this fungus.     

Beauveria bassiana protoplast regeneration and transformation using electroporation

Summary Regeneration of Beauveria bassiana GK2016 protoplasts demonstrated three phases: (1) enlargement, (2) formation of a chain of budding cells, and (3) development of a true germ tube from the original protoplast. Regeneration frequencies of up to 80% were obtained when using the stabilizer ammonium sulphate. Using electroporation, protoplasts were transformed to methyl 1,2-benzimidazole carbamate (MBC) resistance with the Neurospora crassa MBC-resistant -tubulin gene. A transformation efficiency of one of three transformants per 5 g vector DNA was obtained. The MBC phenotype was stable and transformants grew in the presence of 5 g MBC/ml. Southern DNA-DNA hybridization analysis demonstrated that integration of the vector into the chromosomal DNA had occurred. Correspondence to: G. G. Khachatourians     

Alternative methods for genetic transformation of Pseudozyma antarctica, a basidiomycetous yeast-like fungus

Electroporation and Agrobacterium tumefaciens-mediated transformation (ATMT) were adapted and optimized for genetic transformation of the basidiomycetous yeast-like fungus Pseudozyma antarctica as alternatives to the cumbersome PEG/CaCl₂-mediated transformation of protoplasts. Electroporation yielded 100–200 transformants per μg of DNA per 10⁸ cells after 3 days on selective medium. For its part, ATMT yielded 60–160 transformants per 10⁶ input cfu after 5–10 days on a selective medium. Transformants obtained from both methods showed stable hygromycin resistance and strong expression of green fluorescent protein. Analysis of integration events revealed a limited number of predominantly tandem insertions in the genome of transformants, an improvement over PEG/CaCl₂-mediated transformation. Both protocols relied on intact conidia of P. antarctica as starting material and thus eliminated the need for cell wall-degrading or weakening agents such as lytic enzymes or chemicals. Other advantages over protoplast transformation included higher yield of transformants and shorter recovery time of transformed colonies on selective medium.     

Insertional mutagenesis of Aspergillus fumigatus

We have investigated transformation with heterologous DNA as a method for insertional mutagenesis of Aspergillus fumigatus. Two methods, polyethylene glycol-mediated transformation of protoplasts and electroporation of germinating spores, were used to establish conditions leading to single-copy integration of transforming DNA at different genomic sites. We have assessed the effect of restriction enzyme-mediated integration (REMI) for both methods. Non-REMI protoplast transformation led to integration of multiple copies of transforming DNA in the majority of transformants. Results of REMI with protoplast transformation varied depending on the enzyme used. Low concentrations of several restriction enzymes stimulated transformation, but of ten enzymes investigated only REMI with XhoI and KpnI resulted in single-copy integration of transforming DNA for the majority of transformants. For protoplast transformation with XhoI- or KpnI-based REMI, 50% and 76% of insertions, respectively, were due to integrations at a genomic enzyme site corresponding to the enzyme used for REMI. Electroporation of spores without addition of restriction enzyme resulted in a high transformation efficiency, with up to 67% of transformants containing a single copy of transforming DNA. In contrast to protoplast transformation, electroporation of spores in the presence of a restriction enzyme did not improve transformation efficiency or lead to insertion at genomic restriction sites. Southern analysis indicated that for both protoplast transformation with REMI using KpnI or XhoI and for electroporation of spores without addition of restriction enzymes, transforming DNA inserted at different genomic sites in a high proportion of transformants. Received: 6 March 1998 / Accepted: 25 May 1998     

猕猴桃间座壳菌Diaporthe actinidiae的绿色荧光蛋白基因标记及侵染过程

果实软腐病是猕猴桃贮藏期间最严重的真菌病害,猕猴桃间座壳Diaporthe actinidiae是该病检出率最高且致病力最强的病原菌.该病菌从花前期开始侵染,至果实贮藏期才表现症状,侵染至发病周期较长,可借助荧光标记对其侵染过程进行研究.本研究采用PEG介导原生质体转化的技术,运用携带GFP及潮霉素抗性基因的双元载体p...     

Transformation of UV-hypersensitive Chinese hamster ovary cell mutants with UV-irradiated plasmids

Transfection of UV-hypersensitive, DNA repair-deficient Chinese hamster ovary (CHO) cell lines and parental, repair-proficient CHO cells with UV-irradiated pHaprt-1 or pSV2gpt plasmids resulted in different responses by recipient cell lines to UV damage in transfected DNA. Unlike results that have been reported for human cells, UV irradiation of transfecting DNA did not stimulate the genetic transformation of CHO recipient cells. In repair-deficient CHO cells, proportionally fewer transformants were produced with increasing UV damage than in repair-proficient cells in transfections with the UV-irradiated hamster adenine phosphoribosyltransferase (APRT) gene contained in plasmid pHaprt-1. However, transfection of CHO cells with UV-irradiated pSV2gpt resulted in neither decline in transformation frequencies in repair-deficient cell lines relative to repair-proficient cells nor stimulation of genetic transformation by UV damage in the plasmid. Blot hybridization analysis of DNA samples isolated from transformed cells showed no dramatic changes in copy number or arrangement of transfected plasmid DNA with increasing UV dose. We conclude that the responses of recipient cells to UV-damaged transfecting plasmids depend both on the type of recipient cell and the characteristics of the genetic sequence used for transfection.     

基于PEG介导原生质体转化构建粉红聚端孢荧光标记

粉红聚端孢是多种植物的重要病原菌。本研究通过酶解粉红聚端孢幼嫩菌丝细胞壁获得原生质体,用PEG介导原生质体转化将携带GFP基因和博来霉素抗性基因的外源DNA随机插入粉红聚端孢基因组,共获得博来霉素抗性菌株90株,转化效率达18个/μg。选取22株转化子荧光观察,发现均可表达荧光,菌株间荧光强度不同,其中10株转化子荧光表达较强。与野生型相比,突变菌株TR45的菌落生长、产孢量和致病力等生物学特性均未改变,在不含博来霉素的培养皿中继代培养10代荧光仍能稳定表达。本研究构建的高效原生质体制备和PEG介导粉红聚端孢遗传转化方法,可用于该菌基因功能研究,绿色荧光标记菌株可用于病菌侵入、田间监测、侵染循环等发生规律研究。     

Insertional mutagenesis of Aspergillus fumigatus

We have investigated transformation with heterologous DNA as a method for insertional mutagenesis of Aspergillus fumigatus. Two methods, polyethylene glycol-mediated transformation of protoplasts and electroporation of germinating spores, were used to establish conditions leading to single-copy integration of transforming DNA at different genomic sites. We have assessed the effect of restriction enzyme-mediated integration (REMI) for both methods. Non-REMI protoplast transformation led to integration of multiple copies of transforming DNA in the majority of transformants. Results of REMI with protoplast transformation varied depending on the enzyme used. Low concentrations of several restriction enzymes stimulated transformation, but of ten enzymes investigated only REMI with XhoI and KpnI resulted in single-copy integration of transforming DNA for the majority of transformants. For protoplast transformation with XhoI- or KpnI-based REMI, 50% and 76% of insertions, respectively, were due to integrations at a genomic enzyme site corresponding to the enzyme used for REMI. Electroporation of spores without addition of restriction enzyme resulted in a high transformation efficiency, with up to 67% of transformants containing a single copy of transforming DNA. In contrast to protoplast transformation, electroporation of spores in the presence of a restriction enzyme did not improve transformation efficiency or lead to insertion at genomic restriction sites. Southern analysis indicated that for both protoplast transformation with REMI using KpnI or XhoI and for electroporation of spores without addition of restriction enzymes, transforming DNA inserted at different genomic sites in a high proportion of transformants.     

Transformation system of Beauveria bassiana and Metarhizium anisopliae using nitrate reductase gene of Aspergillus nidulans

An heterologous transformation system for entomopathogenic fungi B. bassiana and M. anisopliae was developed based on the use of A. nidulans nitrate reductase gene (niaD). B. bassiana and M. anisopliae niaD stable mutants were selected by treatment of protoplast with ethane methane sulphonate (EMS) and regenerated on chlorate medium. The cloned gene was capable of transforming B. bassiana and M. anisopliae at a frequency of 5.8 to 20 transformants per microg of DNA. Most of them were mitotically stable.     

PEG介导的猴头菌遗传转化体系的建立

对猴头菌Hericium erinaceus原生质体制备的各种因素进行比较研究,结果表明,猴头菌原生质体制备的最佳体系为：液体培养5d的猴头菌丝,以0.6mol/L KCl作为稳渗剂,加入含1.0%纤维素酶+1.0%蜗牛酶+1.0%溶壁酶的复合酶,在30℃酶解猴头菌丝3h时,原生质体得率达到3.0×106个/mL。潮霉素敏感性测试表明,猴头菌在PDSA固体培养基上的潮霉素最低筛选浓度为60μg/mL。采用PEG介导的原生质体法,将质粒pBgGI-hph（含有灵芝gpd1-Gl启动子和潮霉素抗性基因hph）转化猴头菌原生质体,经潮霉素初步筛选以及PCR鉴定,表明有4株猴头菌拟转化子的基因组扩增出hph基因;转化子经过多次转接后进行Southern杂交验证,结果表明4个转化子的基因组中均稳定整合了hph抗性基因。     

PEG介导的柱状田头菇遗传转化体系建立

柱状田头菇（茶树菇）Agrocybe aegerita是一种美味的食用菌,具有极高的经济价值。随着其全基因组测序的完成,功能基因组学研究也逐渐展开,其中,高效的遗传转化体系作为技术基础成为研究重点。本研究以柱状田头菇原生质体为受体、潮霉素抗性基因（hph）作为筛选标记,以增强型绿色荧光蛋白基因（egfp）为报告基因,应用PEG介导法进行柱状田头菇遗传转化体系研究。结果表明,150μg/mL潮霉素可以完全抑制柱状田头菇的生长。30℃下用2%裂解酶液酶解菌丝3h,能够获得最大得率的原生质体。通过PEG介导将构建好的DNA片段转化入柱状田头菇原生质体,通过潮霉素抗性筛选获得转化子,转化得率达到7个/μg DNA。PCR验证和荧光显微镜观察,外源片段成功转入柱状田头菇中并稳定表达。本研究建立的PEG介导转化体系,为柱状田头菇基因功能研究提供了技术基础。     

Improving UV resistance and virulence of Beauveria bassiana by genetic engineering with an exogenous tyrosinase gene

Insect pathogenic fungi like Beauveria bassiana have been developed as environmentally friendly biocontrol agents against arthropod pests. However, restrictive environmental factors, including solar ultraviolet (UV) radiation frequently lead to inconsistent field performance. To improve resistance to UV damage, we used Agrobacterium-mediated transformation to engineer B. bassiana with an exogenous tyrosinase gene. The results showed that the mitotically stable transformants produced larger amounts of yellowish pigments than the wild-type strain, and these imparted significantly increased UV-resistance. The virulence of the transgenic isolate was also significantly increased against the silkworm Bombyx mori and the mealworm Tenebrio molitor. This study demonstrated that genetic engineering of B. bassiana with a tyrosinase gene is an effective way to improve fungal tolerance against UV damage.     

Liposome-enhanced transformation of streptococcus lactis and plasmid transfer by intergeneric protoplast fusion of streptococcus lactis and bacillus subtilis

Abstract An efficient protoplast transformation system and a procedure of plasmid transfer by means of protoplast fusion is described for Streptococcus lactis . Protoplasts of S. lactis IL1403 and S. lactis MG1363 were transformed by pGK12 [2.9 MDa erythromycin resistance (Em^r)] with an efficiency of 3 × 10⁵ transformants per μg plasmid DNA. This high efficiency was obtained by the inclusion in the transformation mixture of liposomes composed of cardiolipin and phosphatidyl choline in a molar ratio of 1 to 6 in the presence of 22.5% polyethylene glycol (PEG). This paper also reports an efficient plasmid transfer method between lactic and streptococci and Bacillus subtilis by means of protoplast fusion. When S. lactis and B. lactis protoplasts undergo fusion mediated by exposure to 37.5% polyethylene glycol, plasmid pGKV21 (3.2 MDa; Em^r) was transfered from one host to the other with a frequency of 10⁻³−10⁻⁵ transformants per regenerating recipient protoplast.     

An improved method for Beauveria bassiana transformation using phosphinothricin acetlytransferase and green fluorescent protein fusion gene as a selectable and visible marker

An improved transformation method for the biocontrol agent, Beauveria bassiana, was developed. For convenience of transformation selection and detection, the coding regions of the genes for phosphinothricin acetyltransferase and green fluorescent protein were fused and an expression vector, pBFT, carrying this fusion was constructed. Under optimum conditions, over 60 transformants microg(-1) plasmid DNA were obtained. B. bassiana conidia frozen 1 month at -80 degrees C were fully competent for transformation. The method was significantly less laborious and more rapid than current methods for B. bassiana. The bar::egfp provides a selectable and visible marker which may expedite future genetic engineering of this fungus.     

Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence

Entomopathogenic fungi can produce a series of chitinases, some of which act synergistically with proteases to degrade insect cuticle. However, chitinase involvement in insect fungus pathogenesis has not been fully characterized. In this paper, an endochitinase, Bbchit1, was purified to homogeneity from liquid cultures of Beauveria bassiana grown in a medium containing colloidal chitin. Bbchit1 had a molecular mass of about 33 kDa and pI of 5.4. Based on the N-terminal amino acid sequence, the chitinase gene, Bbchit1, and its upstream regulatory sequence were cloned. Bbchit1 was intronless, and there was a single copy in B. bassiana. Its regulatory sequence contained putative CreA/Crel carbon catabolic repressor binding domains, which was consistent with glucose suppression of Bbchit1. At the amino acid level, Bbchit1 showed significant similarity to a Streptomyces avermitilis putative endochitinase, a Streptomyces coelicolor putative chitinase, and Trichoderma harzianum endochitinase Chit36Y. However, Bbchit1 had very low levels of identity to other chitinase genes previously isolated from entomopathogenic fungi, indicating that Bbchit1 was a novel chitinase gene from an insect-pathogenic fungus. A gpd-Bbchit1 construct, in which Bbchit1 was driven by the Aspergiullus nidulans constitutive promoter, was transformed into the genome of B. bassiana, and three transformants that overproduced Bbchit1 were obtained. Insect bioassays revealed that overproduction of Bbchit1 enhanced the virulence of B. bassiana for aphids, as indicated by significantly lower 50% lethal concentrations and 50% lethal times of the transformants compared to the values for the wild-type strain.