Use of nuclear DNA restriction fragment length polymorphisms to analyze the diversity of the Aspergillus flavus group: A. flavus, A. parasiticus, and A. nomius.

Recombinant DNA clones carrying high-copy or low-copy sequences from Aspergillus nidulans and Neurospora crassa were used to identify restriction fragment length polymorphisms (RFLPs) diagnostic for members of the A. flavus group: A. flavus, A. parasiticus, and A. nomius. These fungi were resolved into three distinct categories when they were grouped according to RFLP patterns. Subgroups within these categories were also evident. This limited RFLP analysis of nuclear DNA of members of the A. flavus group did not identify any RFLPs that differentiate these isolates on the basis of toxin production, but limited correlation with geographic location was observed.     

Restriction enzyme analysis of mitochondrial DNA of the Aspergillus flavus group: A. flavus, A. parasiticus, and A. nomius.

Mitochondrial DNA restriction fragment length polymorphisms were identified that clearly distinguish Aspergillus flavus, A. parasiticus, and A. nomius. Mitochondrial DNAs of A. flavus and A. parasiticus were found to be circular, and their size was estimated size to be 32 kilobases. A restriction map was constructed for the mitochondrial genome of an A. parasiticus isolate by using four restriction endonucleases. Four genes tested were found to have the same order as in the mitochondrial genome of A. nidulans. The mitochondrial genome of A. nomius was estimated to be 33 kilobases.     

Restriction enzyme analysis of mitochondrial DNA of the Aspergillus flavus group: A. flavus, A. parasiticus, and A. nomius

Mitochondrial DNA restriction fragment length polymorphisms were identified that clearly distinguish Aspergillus flavus, A. parasiticus, and A. nomius. Mitochondrial DNAs of A. flavus and A. parasiticus were found to be circular, and their size was estimated size to be 32 kilobases. A restriction map was constructed for the mitochondrial genome of an A. parasiticus isolate by using four restriction endonucleases. Four genes tested were found to have the same order as in the mitochondrial genome of A. nidulans. The mitochondrial genome of A. nomius was estimated to be 33 kilobases.     

Restriction fragment length polymorphisms in isolates of Aspergillus fumigatus probed with part of the intergenic spacer region from the ribosomal RNA gene complex of Aspergillus nidulans

Differences in restriction fragment length polymorphisms (RFLPs) have been detected in isolates of Aspergillus fumigatus. Genomic DNA from 11 isolates was digested with EcoRI, separated by electrophoresis, Southern blotted and probed with DNA from the intergenic spacer or non-transcribed spacer region of the rRNA gene complex of Aspergillus nidulans. Three distinct RFLP patterns were detected which differed from the control patterns observed with A. nidulans, Aspergillus flavus and Aspergillus niger hybridized with the same probe. Furthermore, the differences in RFLP patterns in the A. fumigatus isolates were not detected when probed with DNA coding for the rRNA complex in Saccharomyces cerevisiae. These findings may be of use in the study of the epidemiology and pathogenesis of infections caused by A. fumigatus.     

Linkage disequilibrium study of RFLPs detected at the human muscle nicotinic acetylcholine receptor subunit genes.

We screened DNA from unrelated individuals for RFLPs in the muscle nicotinic acetylcholine receptor (AcChoR) genes. These RFLP markers can be used for genetic linkage and association studies to test the hypothesis that receptor structure or regulation is involved in the development of myasthenia gravis (MG). The cDNAs from four subunits (alpha, beta, gamma, and delta) of the murine muscle AcChoR were used as probes to identify RFLPs in the homologous human genes. Digestion of DNA from 15 unrelated individuals with a set of 10 restriction enzymes revealed 11 RFLPs. At least one RFLP was found for each subunit gene. Eight RFLPs were found at the linked gamma and delta gene loci, six with minor allele frequencies greater than 15%, making that linkage group a very informative marker locus (PIC = .72). PIC values were calculated for the RFLPs from allele and haplotype frequency estimates obtained from a population sample of 53 individuals. The delta gene was assigned by in situ hybridization to region q31----q34 of chromosome 2. All pairs of RFLPs were analyzed for linkage disequilibrium. Of the 16 pairs of RFLPs from the same gene or from the linked gamma and delta genes, 13 pairs showed evidence of disequilibrium that was significant, with P less than .05. The implications of these results are discussed.     

Extensive DNA polymorphism at the factor XIIIa (F13A) locus and linkage to HLA.

A 1,161-bp EcoRI fragment from the 5' end of the cDNA coding for human factor XIIIa (gene symbol F13A) was used to identify RFLPs in human DNAs. Several different RFLPs were identified with 15 different restriction enzymes. Two RFLPs detected with the restriction enzyme BamHI and one multiallelic RFLP detected with BclI were used for further studies. Linkage relationships between these three polymorphisms and the HLA complex were studied in DNA samples from the 40 Centre d'Etude du Polymorphisme Humain families. Combining all of the data to form highly informative haplotypes, we found linkage to HLA with a maximum lod score of 11.44 at a recombination fraction of .25 for males and .35 for females. These three RFLPs at the FXIIIa locus provide a highly informative marker for the short arm of chromosome 6 with an observed heterozygosity of 91%. Using this marker and the HLA locus, one can confirm or exclude the assignment of gene loci to most of chromosome 6p.     

Cloned DNA probes regionally mapped to human chromosome 21 and their use in determining the origin of nondisjunction.

A number of unique sequence recombinant DNA clones were isolated from a recombinant DNA library constructed from DNA enriched for chromosome 21 by flow sorting. Of these, five were mapped to chromosome 21 using a somatic cell hybrid. Regional mapping of these probes and of a probe previously assigned to chromosome 21, was carried out with the aid of chromosome 21 rearrangements using both chromosome sorting and a somatic cell hybrid. Three probes were shown to be located on either side of the breakpoint 21q21.2. Two of the probes were shown to identify restriction fragment length polymorphisms (RFLPs) with high rare-allele frequencies (0.46 and 0.43). A Bgl II RFLP revealed the parental origin of non-disjunction in three of ten families with Down's syndrome.     

Distribution of restriction site polymorphism within the chloroplast genome of the genus Glycine,subgenus Soja

Summary Restriction fragment length polymorphisms (RFLPs) have been used to detect intragenic sequence diversity in Glycine subgenus soja chloroplast DNA. The distribution of these RFLPs allow Glycine max and G. soja accessions to be grouped according to cytoplasmic genetic relatedness. DNA clones from mung bean chloroplast DNA were used to locate the RFLPs to specific regions of the chloroplast genome. In the course of the experiments, several previously unobserved RFLPs were also identified. At least six molecular changes were detected, including both restriction site loss or gain and insertion/deletion events. Three of the fragment polymorphisms detected are due to changes in the juncture region between one inverted repeat region and the large single-copy region. Probes detecting polymorphisms in three representative soybean genotypes were used to screen additional cultivars and Plant Introductions. The distribution of RFLP patterns in these accessions were consistent with the patterns of previously described cytoplasmic groupings, with the exception of one accession, which formed a new plastome group.     

Development and evaluation of a real-time quantitative PCR assay for Aspergillus flavus

Aspergillus flavus is a ubiquitous mold and the most common mold contaminating foodstuffs. Many strains of A. flavus produce aflatoxins. In addition it is an allergen and an opportunistic pathogen of animals and plants. A. flavus often is underestimated in traditional culture analyses due to the expertise required and the cost associated with speciating members of the genus Aspergillus. The goal of this study was to develop and validate a primer and probe set for the rapid detection and quantitation of A. flavus in pure culture using real-time quantitative polymerase chain reaction (QPCR) amplification. Unique DNA regions were located in the genome of the target organism by sequence comparison with the GenBank database, and several candidate oligonucleotides were identified from the scientific literature for potential use with the TaqMan QPCR technology. Three primer and probe sets were designed and validated for specificity and sensitivity in laboratory experiments. Initial screening to test for sensitivity was performed with seven A. flavus isolates and selected nontarget fungi. Specificity testing was conducted with the selected primer and probe set, which amplified all nine A. flavus isolates tested, including an aflatoxin producing strain. The primers did not amplify DNA extracted from 39 other fungal species (comprising 16 genera), including 18 other Aspergillus species and six Penicillium species. No amplification of human or bacterial DNA was observed; however cross-reactivity was observed with Aspergillus oryzae. PCR analysis of DNA dilutions and the use of an internal positive control demonstrated that 67% of the fungal DNA samples assayed contained PCR inhibitors. The assay validated for the target organism is capable of producing PCR results in less than 1 h after DNA extraction. The results of this research demonstrate the capabilities of QPCR for the enhanced detection and enumeration of fungi of significance to human health.     

Quantification of conidial density of Aspergillus flavus and A. parasiticus in soil from almond orchards using real-time PCR

Aims:  To design the Aspergillus flavus and Aspergillus parasiticus -specific primers and a real-time PCR assay for quantification of the conidial density in soil.
Methods and Results:  Aspergillus flavus and A. parasiticus -specific DNA primers were designed based on internal transcribed spacer sequences to distinguish these two species and from other Aspergillus and other fungal species. A method of pathogen DNA extraction directly from soil samples was developed. Using the designed primers, a real-time PCR assay was developed to quantitatively determine the conidial density of each A. flavus and A. parasiticus in soil, after generating corresponding standard curves. Known conidial densities of each A. flavus or A. parasiticus in soil significantly correlated with those tested with the real-time PCR.
Conclusions:  This study demonstrated the applicability of the real-time PCR assay in studies of quantifying A. flavus and A. parasiticus in soil as inoculum sources.
Significance and Impact of the Study:  The A. flacus and A. parasitic -specific primers can be widely used in aflatoxin research. The real-time PCR assay developed in this study provides a potential approach to quantify the plant pathogen density from not only soil but also other sources in relation to aflatoxin contamination from environment, food and feed commodities.     

柠檬醛致黄曲霉孢子丧失萌发力的机制

通过由倒置显微镜、衍射光栅和线阵光电偶合器件CCD(chargecoupleddevice)等构成的显微多道分光光度系统及由计算机DEPHI编程工具编制的单细胞凝胶电泳SCGE(single cellgelelectro phoresis)图像分析系统 ,摄取荧光显微镜所呈图像 ,再由图像捕捉卡将CCD产生的图像信号送入计算机 ,将柠檬醛对黄曲霉质膜和核DNA损伤的图像进行显示存储和分析处理 ,测定彗星长度、荧光强度、矩类及头尾DNA含量比等彗星参数指标 .结果发现Olive尾矩、尾长、尾分布矩等彗星尾参数指标与柠檬醛致黄曲霉损伤浓度呈正相关性 ,当致损浓度达到 1 5mg L以上时 ,DNA损伤为致死性损伤 ,不能被细胞内修复系统所修复 .揭示柠檬醛通过损伤质膜而进入细胞 ,对DNA产生不可逆损伤 ,使孢子失去萌发力的机制 .实现将DNA损伤的生化定性检测推进到数值化研究范围 ,为柠檬醛的开发应用提供了重要理论依据 .与国内外同类技术相比 ,本检测观察系统还具有高灵敏度、快速、无扰、多光谱显微测定之特点 .     

Sheep linkage mapping: RFLP markers for comparative mapping studies

Restriction fragment length polymorphisms (RFLPs) detected using cDNA probes for conserved genes provide an important set of markers that anchor or link syntenic groups in a range of divergent mammalian species. DNA probes from sheep, cattle, pig, human and mouse were screened against sheep DNA samples and 24 new RFLP markers for sheep were identified. Among the loci tested, 22 had a homologue that has been mapped in humans. An RFLP for fibronectin (FN1) was linked to α-inhibin (INHA) at a distance of 5cM. The FN1 locus has been assigned to sheep chromosome 2q41–q44 and linkage between FN1 and INHA assigns INHA to the same chromosome in sheep. In addition to the new loci reported here, 28 RFLPs have been published previously by this group and these are collated together with RFLPs published from other laboratories. RFLPs have been reported for 86 loci in sheep. Fifty-four loci have been mapped to 16 different chromosomes.     

Genetic Analysis of the Fungus, Bremia Lactucae, Using Restriction Fragment Length Polymorphisms

Restriction fragment length polymorphisms (RFLPs) were developed as genetic markers for Bremia lactucae, the biotrophic Oomycete fungus which causes lettuce downy mildew. By using 55 genomic and cDNA probes, a total of 61 RFLP loci were identified among three heterothallic isolates of B. lactucae. Of these 61 RFLP loci, 53 were heterozygous in at least one of the three strains and thus were informative for linkage analysis in at least one of two F1 crosses that were performed. Analysis of the cosegregation of these 53 RFLPs, eight avirulence loci and the mating type locus allowed the construction of a preliminary genetic linkage map consisting of 13 small linkage groups. Based on the extent of linkage detected among probes, the genome of B. lactucae can be estimated to be approximately 2000 cM. Linkage was detected between a RFLP locus and an avirulence gene, providing a potential starting point for chromosome walking to clone an avirulence gene. The high frequency of DNA polymorphism in naturally occurring isolates and the proper Mendelian segregation of loci detected by low copy number probes indicates that it will be possible to construct a detailed genetic map of B. lactucae using RFLPs as markers. The method of analysis employed here should be applicable to many other outbreeding, heterozygous species for which defined inbred lines are not available.     

Analysis of secreted proteins from Aspergillus flavus

MS/MS techniques in proteomics make possible the identification of proteins from organisms with little or no genome sequence information available. Peptide sequences are obtained from tandem mass spectra by matching peptide mass and fragmentation information to protein sequence information from related organisms, including unannotated genome sequence data. This peptide identification data can then be grouped and reconstructed into protein data. In this study, we have used this approach to study protein secretion by Aspergillus flavus, a filamentous fungus for which very little genome sequence information is available. A. flavus is capable of degrading the flavonoid rutin (quercetin 3-O-glycoside), as the only source of carbon via an extracellular enzyme system. In this continuing study, a proteomic analysis was used to identify secreted proteins from A. flavus when grown on rutin. The growth media glucose and potato dextrose were used to identify differentially expressed secreted proteins. The secreted proteins were analyzed by 1- and 2-DE and MS/MS. A total of 51 unique A. flavus secreted proteins were identified from the three growth conditions. Ten proteins were unique to rutin-, five to glucose- and one to potato dextrose-grown A. flavus. Sixteen secreted proteins were common to all three media. Fourteen identifications were of hypothetical proteins or proteins of unknown functions. To our knowledge, this is the first extensive proteomic study conducted to identify the secreted proteins from a filamentous fungus.     

Construction of genetic linkage maps in maize and tomato using restriction fragment length polymorphisms

Summary Genetic linkage maps were constructed for both maize and tomato, utilizing restriction fragment length polymorphisms (RFLPs) as the source of genetic markers. In order to detect these RFLPs, unique DNA sequence clones were prepared from either maize or tomato tissue and hybridized to Southern blots containing restriction enzyme-digested genomic DNA from different homozygous lines. A subsequent comparison of the RFLP inheritance patterns in F2 populations from tomato and maize permitted arrangement of the loci detected by these clones into genetic linkage groups for both species.     

Genetic transformation system for the aflatoxin-producing fungus Aspergillus flavus.

A heterologous transformation system was developed for Aspergillus flavus with efficiencies greater than 20 stable transformants per micrograms of DNA. Protoplasts of uracil-requiring strains of the fungus were transformed with plasmid and cosmid vectors containing the pyr-4 gene of Neurospora crassa. Transformants were selected for their ability to grow and sporulate on medium lacking uracil. Vector DNA appeared to integrate randomly into the genome of A. flavus with a tendency for multiple, tandem insertion. Transformants with single or multiple insertions were stable after five consecutive transfers on medium containing uracil. Uracil-requiring recipient strains were obtained either by UV-irradiating conidia and selecting colonies resistant to 5-fluoroorotic acid or by transferring the mutated pyr locus to strains by parasexual recombination. This is the first report of a transformation system for an aflatoxin-producing fungus. The transformation system and the availability of aflatoxin-negative mutants provide a new approach to studying the biosynthesis and regulation of aflatoxin.     

Genetic characterization of Brazilian strains of Aspergillus flavus using DNA markers

The Aspergillus genus belongs to a filamentous fungal group characterized by wide dispersion in the environment. Some species are associated with diseases, especially in immunocompromised patients, while others are of economical importance due to aflatoxin production or biotechnological applications. Its species identification is nowadays performed by traditional techniques combined with molecular markers, resulting in a higher efficiency of isolate characterization. In the present study, internal transcribed spacer, inter-simple sequence repeats (ISSR), and random amplified polymorphic DNA (RAPD) molecular markers were used, with the aim of genetically characterizing strains of Aspergillus flavus and strains of other species of the A. flavus group. High genetic diversity was revealed by RAPD and by ISSR, in which the use of the (GACA)4 primer yielded a higher diversity than with the (GTG)5 primer, although the latter showed a characteristic banding profile for each species. These data were used to create a similarity matrix for the construction of dendrograms by means of the UPGMA method. The ISSR and RAPD profiles showed that among the strains previously identificated as A. flavus, one should be A. oryzae, one A. parasiticus and two A. tamarii. On the other hand, a strain previously identified as A. parasiticus should be A. flavus. All these strains were retested by traditional methods and their new species identification was confirmed. These results strongly support the need for using molecular markers as an auxiliary tool in differentiating fungal species and strains.     

Identification and application of additional restriction fragment length polymorphisms at the human ornithine transcarbamylase locus.

Two additional restriction fragment length polymorphisms (RFLPs) have been identified at the human ornithine transcarbamylase (OTC) locus. Approximately 11% of women are heterozygous for an RFLP characterized by polymorphic bands at 3.7 and 3.6 kilobasepairs (kbp) observed after DNA digestion with TaqI. Twenty-nine percent of women are heterozygous for an RFLP characterized by polymorphic bands at 18.0 and 5.2 kbp observed after digestion with BamHI. Thus, in combination with the previously reported RFLPs identified using MspI, the X chromosomes in approximately 80% of women at risk for having a son with OTC deficiency are distinguishable by RFLPs at the OTC locus. Furthermore, we show that these RFLPs will be useful in families for prenatal diagnosis of OTC deficiency, carrier detection, and carrier exclusion.     

Genetic diversity within and among maize populations: a comparison between isozyme and nuclear RFLP loci

 In order to compare the potential of enzyme and DNA markers to investigate genetic diversity within and among populations, ten maize populations were characterized for (1) 20 isozyme loci and (2) restriction fragment length polymorphism (RFLP) for 35 probe-enzyme combinations. Each population was represented by a sample of at least 30 individuals. The average number of alleles detected per locus was clearly higher for RFLPs (6.3) than for isozymes (2.4). Similarly, total diversity was higher for RFLPs (0.60) than for isozymes (0.23). This difference is consistent with observations on inbred-line collections and can be related to the fact that many variations at the DNA level do not change the amino-acid composition or the global charge of proteins. By contrast, the magnitude of population differentiation, relative to the total diversity, was similar for isozymes (23%) and RFLPs (22%). This suggests that the isozyme and RFLP loci considered in this study are subject to similar evolutionary forces, and that both are mostly neutral. However, RFLPs proved clearly superior to isozymes both to (1) identify the origin of a given individual and (2) reveal a relevant genetic structure among populations. The higher polymorphism observed for RFLP loci and the greater number of these loci contributed to the superior discriminative ability of the RFLP data. Received: 1 June 1997 / Accepted: 3 November 1997     

Characterization of Aspergillus flavus strains from Brazilian Brazil nuts and cashew by RAPD and ribosomal DNA analysis

Aims:  The aim of this study was to determine the genetic variability in Aspergillus flavus populations from Brazil nut and cashew and develop a polymerase chain reaction (PCR) detection method.
Methods and Results:  Chomatography analysis of 48 isolates identified 36 as aflatoxigenic (75%). One hundred and forty-one DNA bands were generated with 11 random amplified polymorphic DNA (RAPD) primers and analysed via unweighted pair group analysis, using arithmetic means (UPGMA). Isolates grouped according to host, with differentiation of those from A. occidentale also according to geographical origin. Aspergillus flavus -specific PCR primers ASPITSF2 and ASPITSR3 were designed from ribosomal DNA internal transcribed spacers (ITS 1 and 2), and an internal amplification control was developed, to prevent false negative results. Specificity to only A. flavus was confirmed against DNA from additional aspergilli and other fungi.
Conclusions:  RAPD-based characterization differentiated isolates according to plant host. The PCR primer pair developed showed specificity to A. flavus , with a detection limit of 10 fg.
Significance and Impact of the Study:  Genetic variability observed in A. flavus isolates from two Brazilian agroecosystems suggested reproductive isolation. The PCR detection method developed for A. flavus represents progress towards multiplex PCR detection of aflatoxigenic and nonaflatoxigenic strains in Hazard Analysis Critical Control Point systems.