粟长蠕孢菌的原生质体转化

本文报道了利用具有潮霉素抗性标记的质粒(pAN7-1)对粟长蠕孢菌原生质体进行转化的结果。经pAN7-1质粒DNA转化处理的粟长蠕孢菌原生质体在含潮霉素(200μg/ml)的选择性培养基上出现两类转化子。一类是正常转化子,其转化率为2个转化子/μg DNA;另一类是流产转化子,其产生频率为500—600个转化子/μg DNA。DNA杂交分析结果表明,在正常转化子中质粒DNA以首尾相接、重复排列的形式整合入受体菌染色体DNA。初筛获得的转化子多数以异核状态存在,经单孢分离纯化后可通过有丝分裂稳定传代。     

Easy detection of green fluorescent protein multicopy transformants in Penicillium griseoroseum

Penicillium griseoroseum, a deuteromycete fungus producer of pectinolytic enzymes, was transformed with a gene encoding for green fluorescent protein (GFP). The selection of transformants was based on the homologous nitrate reductase gene (niaD). Protoplasts of a P. griseoroseum Nia mutant (PG63) were co-transformed with the plasmids pNPG1 and pAN52-1-GFP. The plasmid pNPG-1 carries the homologous niaD gene and pAN52-1-GFP carries the SGFP-TYG version of GFP. The highest transformation efficiency (102 transformants/mug of pNPG1) resulted from the utilization of equimolar amounts of transforming and co-transforming vectors. Analysis of pAN52-1-GFP insertions into the genomic DNA of the transformants revealed single and multiple copy integrations. The transformants possessing a single copy of the gfp gene showed a low level of fluorescence, whereas multicopy transformants displayed strong fluorescence under visualization with fluorescent light. The transformants showing high expression of the gfp gene had the normal mycelia pigmentation altered, displaying a bright green-yellowish color, visible with the naked eye on the plates, without the aid of any kind of fluorescent light or special filter set.     

Analysis of promoter activity by transformation of Acremonium chrysogenum.

Promoter activity was examined in the beta-lactam-producing fungus, Acremonium chrysogenum, by assessment of the properties of transformant isolates. Transformation was achieved using plasmid constructs specifying hygromycin B resistance (HyR) linked to the promoter elements of gpdA (the glucose-6-phosphate dehydrogenase-encoding gene of Aspergillus nidulans), and pcbC [the gene encoding the isopenicillin N synthetase (IPNS) enzyme of A. chrysogenum]. Transformation frequency, HyR levels, and Hy phosphotransferase (HPT) levels suggested that the transformants of constructs using the gpdA promoter showed a higher level of expression of the HyR gene than in transformants obtained using the pcbC promoter. The patterns of integration of the transforming DNA also differed in that pcbC promoter construct transformants appeared to have tandem repeats. All integrations of plasmid DNA occurred on a single chromosome which was different in four out of five transformants studied. Multiple copy transformants of constructs using the pcbC promoter did not show the regulated pattern of expression of HPT activity observed with IPNS in untransformed strains.     

A high efficiency transformation system for the basidiomycete Ustilago violacea employing hygromycin resistance and lithium-acetate treatment

A basidiomycete phytopathogenic fungus, Ustilago violacea, was transformed with pUCH1, a bacterial plasmid containing the hygromycin (Hyg)-resistance hygB gene fused to a promoter from the ascomycete Cochliobolus heterostrophus. After lithium acetate/polyethylene glycol treatment of whole sporidial cells, U. violacea transformants appeared on Hyg-agar at a frequency of 60-80 per microgram pUCH1 DNA. The Hyg phenotype was 100% stable in these transformants for at least 30 generations of mitotic growth under non-selective conditions. Southern DNA-DNA hybridization revealed multiple integrations of the pUCH1 plasmid into the U. violacea nuclear DNA. In addition, Escherichia coli transformants appeared at a frequency of 12 per microgram nuclear fraction DNA from Hyg U. violacea transformants; these E. coli consistently contained a deleted pUCH1 plasmid. This latter result suggested the low-frequency production of circular molecules by recombination within the integrated sequences.     

Transformation of Penicillium chrysogenum using dominant selection markers and expression of an Escherichia coli lacZ fusion gene

An industrial Penicillium chrysogenum strain was transformed using two dominant selection markers, namely the bacterial gene for phleomycin resistance (ble) fused to a fungal promoter, and the acetamidase (amdS) gene from Aspergillus nidulans. Transformation frequencies of up to 20 transformants per microgram of DNA were obtained with the ble system. With the amdS marker the frequency was up to 120 transformants. Cotransformation was very efficient when using amdS as a selection marker. The introduction of pAN5-41B, a plasmid carrying the Escherichia coli lacZ gene fused to the strong glyceraldehyde-3-phosphate dehydrogenase gene (gpd) promoter from A. nidulans, resulted in the formation of blue colonies on XGal plates indicating expression of the lacZ fusion gene in P. chrysogenum. A more detailed analysis of expression levels in several transformants showed that up to 6% of the total amount of soluble protein consists of the beta-galactosidase fusion protein.     

Transformation of Dictyostelium discoideum with plasmid DNA

DNA-mediated transformation is one of the most widely used techniques to study gene function. The eukaryote Dictyostelium discoideum is amenable to numerous genetic manipulations that require insertion of foreign DNA into cells. Here we describe two commonly used methods to transform Dictyostelium cells: calcium phosphate precipitation, resulting in high copy number transformants; and electroporation, an effective technique for producing single integration events into genomic DNA. Single integrations are required for gene disruption by homologous recombination. We also discuss how different selection markers affect vector copy number in transformants and explain why blasticidin has become the preferred selectable marker for making gene knockouts. Both procedures can be accomplished in less than 2 h of hands-on time; however, the calcium phosphate precipitation method contains several incubations, including one of at least 4 h, so the total time required for the transformation is approximately 8 h.     

Selectable genes for transformation of the fungal plant pathogen Glomerella cingulata f. sp. phaseoli (Colletotrichum lindemuthianum)

Glomerella cingulata f. sp. phaseoli (Gcp) was transformed using either of two selectable markers: the amdS + gene of Aspergillus nidulans, which encodes acetamidase and permits growth on acetamide as the sole nitrogen source and the hygBR gene of Escherichia coli which encodes hygromycin B (Hy) phosphotransferase and permits growth in the presence of the antibiotic Hy. The amdS+ gene functioned in Gcp under control of A. nidulans regulatory signals and hygBR was expressed after fusion to a promoter from Cochliobolus heterostrophus, another filamentous ascomycete. Protoplasts to be transformed were generated with the digestive enzyme complex Novozym 234 and then were exposed to plasmid DNA in the presence of 10 mM CaCl2 and polyethylene glycol. Transformation occurred by integration of single or multiple copies of either the amdS+ or hygBR plasmid into the fungal genome. There was no evidence of autonomous plasmid replication. Transformants were mitotically stable on selective and nonselective media. However, transforming DNA in hygBR transformants was observed to occasionally rearrange during nonselective growth, resulting in fewer copies of the plasmid per genome. These transformants were capable of infecting bean (Phaseolus vulgaris), the Gcp host plant, and after recovery from infected tissue were found to have retained both the transforming DNA unrearranged in their genomes and the Hy resistance phenotype. All single-conidial cultures derived from both amdS+ and hygBR transformants had the transplanted phenotype, suggesting that transformants were homokaryons.     

Expression of the Escherichia coli beta-glucuronidase gene in Pseudocercosporella herpotrichoides.

The plant-pathogenic fungus Pseudocercosporella herpotrichoides has been successfully transformed by using two different positive selection systems in combination with the Escherichia coli gusA gene. The selectable markers used in this study were the hygromycin B phosphotransferase gene (hph) from E. coli and the gene (bml) for beta-tubulin from a benomyl-resistant mutant of Neurospora crassa. A lower transformation rate was obtained with the bml system than with the hph system. Conversely, cotransformation frequencies, as determined with medium plates containing the chromogenic substrate 5-bromo-4-chloro-3-indolyl-beta-D-glucuronic acid, were higher with bml than with hph as the selectable marker. The hygromycin-resistant transformants were mitotically stable, and both the selectable gene and gusA were maintained through conidiation. The vector DNA was integrated into the genome, and the number and sites of insertion varied among transformants. Enzyme assays of mycelial extracts showed that beta-glucuronidase activity was highest in transformants with a high gusA copy number. Expression of gusA during growth of the fungus on plants was easily detectable and did not affect pathogenicity. These results form the basis for construction of a versatile and sensitive reporter gene system for P. herpotrichoides.     

Expression of the Escherichia coli beta-glucuronidase gene in Pseudocercosporella herpotrichoides.

The plant-pathogenic fungus Pseudocercosporella herpotrichoides has been successfully transformed by using two different positive selection systems in combination with the Escherichia coli gusA gene. The selectable markers used in this study were the hygromycin B phosphotransferase gene (hph) from E. coli and the gene (bml) for beta-tubulin from a benomyl-resistant mutant of Neurospora crassa. A lower transformation rate was obtained with the bml system than with the hph system. Conversely, cotransformation frequencies, as determined with medium plates containing the chromogenic substrate 5-bromo-4-chloro-3-indolyl-beta-D-glucuronic acid, were higher with bml than with hph as the selectable marker. The hygromycin-resistant transformants were mitotically stable, and both the selectable gene and gusA were maintained through conidiation. The vector DNA was integrated into the genome, and the number and sites of insertion varied among transformants. Enzyme assays of mycelial extracts showed that beta-glucuronidase activity was highest in transformants with a high gusA copy number. Expression of gusA during growth of the fungus on plants was easily detectable and did not affect pathogenicity. These results form the basis for construction of a versatile and sensitive reporter gene system for P. herpotrichoides.     

以潮霉素B抗性为选择标记的深黄被孢霉原生质体转化

利用亚硝基胍(MNNG)诱变方法筛选了一株深黄被孢霉潮霉素B敏感型菌株M6-22-4。采用PEG介导的方法,将含有E.coli潮霉素B抗性标记的PD4质粒转入敏感株M6-22-4原生质体,并在潮霉素B浓度为400μg/mL的选择培养基上筛选转化子,获得了1.6~2.8个转化子/μg质粒DNA的转化频率。稳定性实验表明,质粒线性化后所获得的转化子在PDA培养基上传代10代以后,转接到选择平板上有31.6%仍具有HmB抗性;随机挑选了3个转化子,通过PCR方法检测到潮霉素抗性基因的存在,Southern杂交发现,潮霉素抗性基因已经以1~2拷贝数整合到深黄被孢霉M6-22-4染色体上,这是深黄被孢霉转化系统的首次报道。     

Construction of a marker rescue system in Bacillus subtilis for detection of horizontal gene transfer in food

A marker rescue system based on the repair of the kanamycin resistance gene nptII was constructed for use in Gram-positive bacteria and established in Bacillus subtilis 168. Marker rescue was detected in vitro using different types of donor DNA containing intact nptII. The efficiency of marker rescue using chromosomal DNA of E. coli Sure as well as plasmids pMR2 or pSR8-30 ranged from 3.8 x 10(-8) to 1.5 x 10(-9) transformants per nptII gene. Low efficiencies of ca. 10(-12) were obtained with PCR fragments of 792 bp obtained from chromosomal DNA of E. coli Sure or DNA from a transgenic potato. B. subtilis developed competence during growth in milk and chocolate milk, and marker rescue transformation was detected with frequencies of ca. 10(-6) and 10(-8), respectively, using chromosomal DNA of E. coli Sure as donor DNA. Although the copy number of nptII genes of the plant DNA exceeded that of chromosomal E. coli DNA in the marker rescue experiments, a transfer of DNA from the transgenic plant to B. subtilis was detectable neither in vitro nor in situ.     

A model for integration of DNA into the genome during transformation of Fusarium graminearum

Transformants of Fusarium graminearum were derived using linearized DNA of plasmids designed to replace the trichodiene synthase gene, a cutinase gene or a xylanase gene with a hygromycin-resistance marker cassette by homologous recombination between 1-kbp segments of flanking DNA. Most transformants did not exhibit the DNA structure expected of integration by classical double recombination. Instead, they contained linearized plasmid joined end-to-end and variably incorporated into the genome. Transformant types included ectopic integrations and integrations at the target site with or without removal of the targeted gene. We have analyzed a large number of transformants using cloning, PCR and DNA sequencing to determine the structures of their integrated DNA, and describe a model to explain their derivations. The data indicate that 1-3 copies of input DNA are first joined end-to-end to produce either linear or circular structures, probably mediated by the non-homologous end-joining (NHEJ) system. The end-joins typically have 1-5 nucleotides in common and are near or within the original cleavage site of the plasmid. Ectopic integrations occur by attaching linear DNA to two ends of genomic DNA via the same joining mechanism. Integration at the target site is consistent with replication around circularized input DNA, beginning and ending within the flanking homologous DNA, resulting in the integration of multiple copies of the entire structure. This results in deletion or duplication of the target site, or leaves one copy at either end of the integrated multimer. Reiterated DNA in the more complex structures is unstable due to homologous recombination, such that conversion to simpler forms is detected.     

Purified mariner (Mos1) transposase catalyzes the integration of marked elements into the germ-line of the yellow fever mosquito, Aedes aegypti

Derivatives of the mariner transposable element, Mos1, from Drosophila mauritiana, can integrate into the germ-line of the yellow fever mosquito, Aedes aegypti. Previously, the transposase required to mobilize Mos1 was provided in trans by a helper plasmid expressing the enzyme under the control of the D. psuedoobscura heat-shock protein 82 promoter. Here we tested whether purified recombinant Mos1 transposase could increase the recovery of Ae. aegypti transformants. Mos1 transposase was injected into white-eyed, kh(w)/kh(w), Ae. aegypti embryos with a Mos1 donor plasmid containing a copy of the wild-type allele of the D. melanogaster cinnabar gene. Transformed mosquitoes were recognized by partial restoration of eye color in the G(1) animals and confirmed by Southern analyses of genomic DNA. At Mos1 transposase concentrations approaching 100 nM, the rate of germ-line transformants arising from independent insertions in G(0) animals was elevated 2-fold compared to that seen in experiments with helper plasmids. Furthermore, the recovery of total G(1) transformants was increased 7.5-fold over the frequency seen with co-injected helper plasmid. Southern blot analyses and gene amplification experiments confirmed the integration of the transposons into the mosquito genome, although not all integrations were of the expected cut-and-paste type transposition. The increased frequency of germ-line integrations obtained with purified transposase will facilitate the generation of Mos1 transgenic mosquitoes and the application of transgenic approaches to the biology of this important vector of multiple pathogens.     

Chromosomal targeting of replicating plasmids in the yeast Hansenula polymorpha.

Using an optimized transformation protocol we have studied the possible interactions between transforming plasmid DNA and the Hansenula polymorpha genome. Plasmids consisting only of a pBR322 replicon, an antibiotic resistance marker for Escherichia coli and the Saccharomyces cerevisiae LEU2 gene were shown to replicate autonomously in the yeast at an approximate copy number of 6 (copies per genome equivalent). This autonomous behaviour is probably due to an H. polymorpha replicon-like sequence present on the S. cerevisiae LEU2 gene fragment. Plasmids replicated as multimers consisting of monomers connected in a head-to-tail configuration. Two out of nine transformants analysed appeared to contain plasmid multimers in which one of the monomers contained a deletion. Plasmids containing internal or flanking regions of the genomic alcohol oxidase gene were shown to integrate by homologous single or double cross-over recombination. Both single- and multi-copy (two or three) tandem integrations were observed. Targeted integration occurred in 1-22% of the cases and was only observed with plasmids linearized within the genomic sequences, indicating that homologous linear ends are recombinogenic in H. polymorpha. In the cases in which no targeted integration occurred, double-strand breaks were efficiently repaired in a homology-independent way. Repair of double-strand breaks was precise in 50-68% of the cases. Linearization within homologous as well as nonhomologous plasmid regions stimulated transformation frequencies up to 15-fold.     

Folylpoly-gamma-glutamate synthetase-dihydrofolate synthetase. Cloning and high expression of the Escherichia coli folC gene and purification and properties of the gene product

The Escherichia coli gene for folylpolyglutamate synthetase-dihydrofolate synthetase was localized to plasmids pLC22-45, 24-31, and 28-44 of the Clarke-Carbon E. coli colony bank (Clarke, L., and Carbon, J. (1976) Cell 9, 91-99) by screening the bank by replica mating with an E. coli folC mutant. The folC gene was subcloned from pLC22-45 and inserted into a high copy number plasmid containing the lambda replication control region under the control of the temperature-sensitive cI857 repressor and into a high expression plasmid containing the lambda PL promoter and the cI857 repressor. The folC structural gene was located on a 1.52-kilobase PvuI fragment, sufficient to code for a protein of maximum Mr 55,000. E. coli transformants containing the recombinant plasmids, when induced by culturing at 42 degrees C, had folylpolyglutamate synthetase and dihydrofolate synthetase levels that were 100- to 400-fold higher than in wild type strains and which represented up to 4% of the soluble cell protein. The E. coli folylpolyglutamate synthetase-dihydrofolate synthetase has been purified to homogeneity from the transformants. Both activities are catalyzed by a single protein of Mr 47,000. Some kinetic properties of the enzymes and a new spectrophotometric method for assaying dihydrofolate synthetase activity are described.     

Replicative transformation of the filamentous fungus Ashbya gossypii with plasmids containing Saccharomyces cerevisiae ARS elements.

We have developed a transformation system for the filamentous ascomycete fungus Ashbya gossypii. Mycelial protoplasts were transformed to geneticin-resistance with plasmids containing the Escherichia coli kanamycin-resistance gene as a selectable marker and autonomously replicating sequences (ARS) from Saccharomyces cerevisiae (ARS1, 2 mu ARS). Transformation frequencies of up to 63 transformants per microgram of plasmid DNA were obtained. The transformants were unstable under nonselective conditions. Southern analysis of DNA separated by conventional and pulsed-field-gel electrophoresis showed that the transforming DNA was present as autonomously replicating plasmid. Plasmid integration into chromosomal DNA was not detected. We concluded that the S. cerevisiae ARS elements are functional in A. gossypii, since vectors lacking such elements did not yield transformants.     

An Aspergillus nidulans uvsC null mutant is deficient in homologous DNA integration

The Aspergillus nidulans uvsC gene was identified as a homolog of RAD51 and recA of Saccharomyces cerevisiae and Escherichia coli, respectively, whose role in genetic recombination and recombinational repair has been extensively studied. Like many other filamentous fungi, A. nidulans shows no bias towards either homologous or ectopic integration of exogenous DNA. Therefore it is a unique and useful organism for the study of the mechanisms of DNA integration. Homologous integration of a 1.7-kb argB gene was not detected in 50 transformants obtained from a uvsC null mutant. In contrast, the frequency of homologous integration in uvsC+ control strains varied from 41 to 86%. Another feature observed with the uvsC null mutant was that an increased number of transformants had undergone ectopic integrations at multiple sites in the genome. These results are consistent with the established function of Rad51/RecA, and further indicate the involvement of redundant pathways in integration of exogenous DNA. This study provides direct evidence for the involvement of uvsC in exogenous DNA integration and should contribute to the improvement of genetic manipulations in general, but particularly in fungi.     

一种基于PCR技术鉴定单拷贝转基因烟草的方法

为了鉴定携带单拷贝外源基因的转基因烟草植株,以烟草核基因组上已知的单拷贝内源基因（RNR2）为内参,转基因烟草植株基因组DNA为模板,在同一PCR反应体系中扩增内源基因（RNR2）和外源目的基因（NPTⅡ）。反应产物在琼脂糖凝胶上电泳,获得了预期大小的两条特异性扩增条带。经ImageJ软件捕捉分析两条目的条带的灰度比,当T1代转基因烟草植株中外源基因与内源基因的扩增条带灰度比为1时,所检测植株即为单拷贝外源基因的转基因烟草植株。孟德尔经典遗传学方法证实了上述检测结果高度可信。