Developmental stages and secondary compound biosynthesis of mycobiont and whole thallus cultures of <Emphasis Type="Italic">Buellia subsororioides</Emphasis>

Lichen species have unique culture media preferences, and established cultures are known for the synthesis of secondary metabolites. This paper reports observations on the developmental stages and secondary compound biosynthesis by the mycobiont and whole thallus cultures of Buellia subsororioides. It also investigates the suitable media compositions for the culture growth, the role (nutrient or stressor) of sucrose concentrations on the growth stages, biomass, secondary compound profiles, and the quantity of biosynthesized known compounds/g of culture biomass for each treatment using mycobiont cultures. The ascospore-derived mycobiont cultures and thallus macerate-derived whole thallus cultures of B. subsororioides were established and grown using malt yeast extract (MY) medium. Mycobiont cultures were subcultured in MY medium supplemented with sucrose and its concentrations ranging from 0 to 30 % (with 2 % increment between treatments) for 120 days. The molecular identity of cultures was confirmed using nuclear ribosomal Internal transcribed spacer (ITS) DNA sequences obtained from the cultured mycobiont and from the natural thallus. The ITS DNA sequences of the mycobiont showed 99 % similarity with the sequences of the natural thallus. The mycobiont cultures under varying sucrose concentrations initiated as white cottony stages and transformed to brown compact mycelia, with optimum biomass and biosynthesis of nine secondary compounds in MY 10 %. The number of compounds (1–9) varies according to treatments. The whole thallus cultures (MY 0 %) showed a profile of secondary compounds similar to that of the natural thalli along with a trace of one unknown compound. The obtained results are encouraging for the synthesis of the desired quantities of lichen secondary compounds through cultures for relevant applications.     

Phenotypic and molecular analysis of dominant occurring antibiotic active-producing Streptomyces soil flora in Northern Jordan

This investigation aimed to determine the relatedness of dominant occurring soil Streptomyces spp. in Northern Jordan based on their RAPD-PCR fingerprints, and to compare RAPD technique with the conventional phenotypic characterization of Streptomyces isolates. Fifty-eight white and gray color-bearing aerial mycelia antibiotic active-producing Streptomyces soil isolates along with three reference strains were genetically analyzed by RAPD-PCR. Polymorphisms between the isolates showed 1 to 10 bands per isolate and ranged from 200 to 3200 bp in size. Results revealed one common band of ~600 bp shared by ~85% of the isolates, and the observation of bands specific to some reference strains and some soil isolates. When RAPD patterns were analyzed with the UPGMA, results revealed clustering the tested isolates into two equal main super clusters (50% each). Super cluster I appeared to be homogenous and include the three reference strains. However, super cluster II was heterogeneous and but not including any of the reference strains. The association of the antibiotic activity of the dominant white and gray aerial mycelium-bearing Streptomyces isolates to RAPD clustering is reported for the first time, and the RAPD-PCR fingerprints generated here deserve to be cloned, characterized and sequenced in future as Streptomyces species-specific DNA markers. The more random primers used in the analysis may add to RAPD technique a cost-effective, fast, precise result, and less labor work solution for analyzing the similarities and differences among the Streptomyces isolates.     

Stability of RAPD fingerprints in potato: Effect of source tissue and primers

Variations in random amplified polymorphic DNA (RAPD) profiles from leaf, stem, root, and tuber tissues were observed in case of two glasshouse grown potato cultivars using 40 decamer primers suggesting possible danger of cultivar misidentification. Genomic DNA extracted from the above four tissues of four in vitro grown potato cultivars, however, produced more uniform RAPD fingerprints. A significant effect of random primers on fingerprint uniformity was observed in case of both glasshouse and in vitro grown samples. A new concept of stability index for random primers based on homogeneity of RAPD profiles obtained from different tissues of a single plant have been introduced. It is concluded that RAPD analysis of genomic DNA extracted from any tissue of in vitro grown potato plants using 14 selected decamer primers could be used to develop RAPD fingerprints for identification of Indian potato cultivars.     

Evaluation of RAPD-PCR and protein profile analysis to differentiate <Emphasis Type="Italic">Vibrio harveyi</Emphasis> strains prevalent along the southwest coast of India

Sixty five isolates of Vibrio harveyi were subjected to random amplified polymorphic DNA (RAPD)-PCR analysis and protein profiling to investigate the genetic variability among V. harveyi prevalent along the coast and also assess the discriminating ability of these two molecular methods. A total of 10 RAPD primers were assayed for their specificity in detecting V. harveyi, of which only two primers: PM3 and CRA25 were highly reproducible and found suitable for use in RAPD-PCR. The genetic diversity among V. harveyi isolates assessed by RAPD-PCR using PM3 primer yielded 35 different RAPD patterns which clustered the isolates into 15 groups at 72% similarity level. Similarly, RAPD-PCR with CRA25 clustered the 38 patterns into 10 groups at 74% similarity. The discriminatory index (D) value calculated for RAPD fingerprints generated with PM3 and CRA25 were 0.90 and 0.85, respectively. On the other hand, molecular typing of V. harveyi using whole cell proteins generated profiles that showed no major difference indicating the technique to be not useful in typing strains of this bacterium. However, a few of the isolates showed the presence of unique band of 28 kDa that needs to be further investigated to understand the role of the protein in disease process if any.     

Genetic Diversity of Pierce's Disease Strains and Other Pathotypes of Xylella fastidiosa

Strains of Xylella fastidiosa isolated from grape, almond, maple, and oleander were characterized by enterobacterial repetitive intergenic consensus sequence-, repetitive extragenic palindromic element (REP)-, and random amplified polymorphic DNA (RAPD)-PCR; contour-clamped homogeneous electric field (CHEF) gel electrophoresis; plasmid content; and sequencing of the 16S-23S rRNA spacer region. Combining methods gave greater resolution of strain groupings than any single method. Strains isolated from grape with Pierce's disease (PD) from California, Florida, and Georgia showed greater than previously reported genetic variability, including plasmid contents, but formed a cluster based on analysis of RAPD-PCR products, NotI and SpeI genomic DNA fingerprints, and 16S-23S rRNA spacer region sequence. Two groupings of almond leaf scorch (ALS) strains were distinguished by RAPD-PCR and CHEF gel electrophoresis, but some ALS isolates were clustered within the PD group. RAPD-PCR, CHEF gel electrophoresis, and 16S-23S rRNA sequence analysis produced the same groupings of strains, with RAPD-PCR resolving the greatest genetic differences. Oleander strains, phony peach disease (PP), and oak leaf scorch (OLS) strains were distinct from other strains. DNA profiles constructed by REP-PCR analysis were the same or very similar among all grape strains and most almond strains but different among some almond strains and all other strains tested. Eight of 12 ALS strains and 4 of 14 PD strains of X. fastidiosa isolated in California contained plasmids. All oleander strains carried the same-sized plasmid; all OLS strains carried the same-sized plasmid. A plum leaf scald strain contained three plasmids, two of which were the same sizes as those found in PP strains. These findings support a division of X. fastidiosa at the subspecies or pathovar level.     

Assessment of the Genetic Diversity among Arcobacters Isolated from Poultry Products by Using Two PCR-Based Typing Methods

In this study, enterobacterial repetitive intergenic consensus PCR (ERIC-PCR) and randomly amplified polymorphic DNA PCR (RAPD-PCR) were optimized for characterization of Arcobacter butzleri, Arcobacter cryaerophilus, and Arcobacter skirrowii. In addition, a simple and rapid DNA extraction method was tested for use in both typing procedures. Both methods had satisfactory typeability and discriminatory power, but the fingerprints generated with ERIC-PCR were more reproducible and complex than those obtained with RAPD-PCR. The use of nondiluted boiled cell suspensions as DNA templates was found to be very useful in ERIC-PCR. Characterization of large numbers of Arcobacter isolates is therefore preferably performed by the ERIC-PCR procedure. Isolates for which almost identical ERIC fingerprints are generated may subsequently be characterized by RAPD-PCR, although adjustment and standardization of the amount of the DNA template are necessary. In the second part of this study, the genotypic diversity of arcobacters present on broiler carcasses was assessed by using both typing methods. A total of 228 cultures from 24 samples were examined after direct isolation and enrichment. The isolates were identified by using a multiplex PCR as A. butzleri (n = 182) and A. cryaerophilus (n = 46). A total of 131 types (91 A. butzleri types and 40 A. cryaerophilus types) were discerned without discordance between the two typing techniques. The analysis of the poultry isolates showed that poultry products may harbor not only more than one species but also multiple genotypes. All genotypes were confined to one poultry sample, and only three genotypes were found after simultaneous enrichment and direct isolation. These results demonstrate that different outcomes can be obtained in epidemiological studies depending on the isolation procedure used and the number of isolates characterized.     

Quantitative Properties of Random Amplified Polymorphic DNA (RAPD)

Random Amplified Polymorphic DNA analysis (RAPD) is a methodology that has been used as a tool for monitoring microbial communities. To be useful in this application RAPD, and any other methodology, must show properties that allows for the detection of quantitative changes in composition of the microbiota. Therefore, the objective of this study was to establish whether RAPD possesses such properties. The strategy was to use genomic DNA, extracted from a set of tertiary bacterial mixtures defined according to an experimental mixture design, and containing varying proportions of Escherichia coli, Bacillus subtilis, and Pseudomonas CF600. RAPD-PCR was performed on the mixed DNA extracts and the amplified DNA fragments were separated on sequencing gels to produce genomic fingerprints that were digitized and modeled by Partial Least Squares regression (PLS). Significant predictions were obtained using an external test set for validation, with Root Mean Square Error of Predictions (RMSEP) of 0.21, 0.19 and 0.20 for the proportion of E. coli, B. subtilis and Pseudomonas CF600 respectively. Taken together, the results showed that RAPD patterns quantitatively represented the initial mixture proportions. Therefore, the view that RAPD could be useful for whole microbial community monitoring was strengthened.     

Genetic diversity and phylogenetic relationships among microsporidia infecting the silkworm,Bombyx mori,using random amplification of polymorphic DNA: Morphological and ultrastructural characterization

Random amplification of polymorphic DNA polymerase chain reaction (RAPD-PCR) and pathological, morphological and ultrastructural characterization were used to differentiate seven new microsporidian isolates infecting the mulberry silkworm, Bombyx mori. The pathogenicity observed was dose-dependent and differed from each of the microsporidian isolates; the NIK-4m was found to be more virulent than other isolates. However, all the isolates, except NIK-4m, showed heavy gonadal infection and vertical transmission in the infected silkworms. Differences in the spore shape ranging from oval to elongate were observed, and the polar filament has 8–16 coils arranged in one or two rows. Of the 80 decamer random primers tested, 50 generated reproducible RAPD profiles and yielded a total of 600 fragments, of which 594 were polymorphic (99%). Forty nine RAPD primers produced 179 unique genetic markers, whose presence or absence differed among the microsporidians, albeit with varied efficiency of polymorphism detection. The degree of band sharing was used to evaluate genetic distances between different microsporidian isolates and to construct a phylogenetic tree using Dice coefficients. Cluster analysis based on Dice coefficients resulted in the formation of one major cluster consisting of NIK-1s, NIAP-7g, NIK-2r and NIK-5d and NIK-4m in the other; while NIAP-6p was intermediate between these two. NIK-8b and NITN-9n were found to be entirely different from others. Reproducible RAPD patterns of all microsporidian isolates enabled us to differentiate the microsporidian isolates. The results demonstrate that besides ultrastructural studies, RAPD-PCR can be a useful and reliable tool to detect polymorphism, genetic relationships, and for the identification of the microsporidians. In addition, DNA fingerprints generated in this process have potential applications as diagnostic tools for identification of different microsporidia with considerable accuracy.     

Genomic DNA Fingerprinting of Oenococcus oeni Strains by Pulsed-Field Gel Electrophoresis and Randomly Amplified Polymorphic DNA-PCR

Genetic diversity of 60 Oenococcus oeni strains from different wines was evaluated by numerical analysis of (i) pulsed-field gel electrophoresis (PFGE) patterns with endonuclease ApaI and (ii) randomly amplified polymorphic DNA (RAPD)-PCR fingerprints with four oligonucleotide primers. Sixty-two percent of the strains could be distinguished by PFGE, whereas most strains were identified by distinct RAPD-PCR profiles and associated according to the geographical origin. Because of its rapidity and reliability, RAPD-PCR appeared to be a suitable method for typing and monitoring O. oeni strains in winemaking. Received: 3 November 1999 / Accepted: 8 December 1999     

Protoplast isolation optimization and regeneration of cell wall in Gracilaria gracilis (Gracilariales, Rhodophyta)

This paper reports the first successful isolation and cell wall regeneration of Gracilaria gracilis (Stackhouse) Steentoft, Irvine et Farnham protoplasts. These results form an important foundation for the development of a successful tissue culture system for G. gracilis. Initially, an isolation protocol was optimized by investigation of the effects of the enzyme constituents and concentrations, the pre-treatment of thalli, the incubation period and temperature, and the pH of the enzymatic medium on protoplast yields. A pre-treatment of G. gracilis thalli with 1 % (w/v) papain for 30 min followed by a 3-h enzymatic digestion of thalli with an enzymatic mixture containing 2 % (w/v) cellulase Onozuka R-10, 1 % (w/v) macerozyme R-10, and 10 U mL^?1 agarase at pH 6.15 was found to produce the highest yield of protoplasts at 22 °C. Reliably high yields (20–30?×?10⁵ protoplasts g^?1 f.wt) of protoplasts could be obtained from G. gracilis thalli when this optimized protocol was used. Cell wall re-synthesis by G. gracilis protoplasts, which constitutes the first step towards whole plant regeneration, was followed using calcoflour staining and scanning electron microscopy. Protoplasts were shown to complete the initial stages of cell wall re-synthesis within the first 24 h of culturing.     

Assessment of the Genetic Diversity among Strains of Xanthomonas cynarae by Randomly Amplified Polymorphic DNA Analysis and Development of Specific Characterized Amplified Regions for the Rapid Identification of X. cynarae

The randomly amplified polymorphic DNA (RAPD) method was used to investigate the genetic diversity in Xanthomonas cynarae, which causes bacterial bract spot disease of artichoke. This RAPD analysis was also intended to identify molecular markers characteristic of this species, in order to develop PCR-based markers which can be used to detect this pathogenic bacterium in artichoke fields. Among the 340 RAPD primers tested, 40 were selected on their ability to produce reproducible and reliable fingerprints in our genetic background. These 40 primers produced almost similar patterns for the 37 X. cynarae strains studied, different from the fingerprints obtained for other Xanthomonas species and other xanthomonad-like bacteria isolated from artichoke leaves. Therefore, X. cynarae strains form a homogeneous genetic group. However, a little DNA polymorphism within this species was observed and the collection of X. cynarae isolates was divided into two groups (one containing three strains, the second one including all other strains). Out of seven RAPD markers characteristic of X. cynarae that were cloned, four did not hybridize to the genomic DNA of strains belonging to other Xanthomonas species. These four RAPD markers were converted into PCR markers (specific characterized amplified regions [SCARs]); they were sequenced, and a PCR primer pair was designed for each of them. Three derived SCARs are good candidates to develop PCR-based tests to detect X. cynarae in artichoke fields.     

利用正交设计优化兴安落叶松RAPD-PCR反应体系

以兴安落叶松针叶DNA为模板,对影响落叶松RAPD-PCR 扩增的重要参数进行了优化试验,以期建立兴安落叶松RAPD PCR反应的最佳体系。通过采用正交设计L₁₆(4⁵)对兴安落叶松RAPD-PCR反应的5因素(Taq酶、Mg²⁺、dNTP、模板DNA、引物)在4个水平上进行优化试验,结果表明兴安落叶松最佳的RAPD-PCR的反应体系(20 μL)中含有模板90 ng,0.5 μmol·L^-1的引物,1×反应缓冲液,DNTP各为0.25 mmol·L^-1,1 U的Taq DNA聚合酶,Mg²⁺ 2.5 mmol·L^-1。在此基础上筛选出20个扩增稳定、多态性丰富的RAPD引物,并通过梯度 PCR试验,确定了引物最佳退火温度。     

Genetic characterization of antibiotic-resistant Staphylococcus aureus from milk in the North-West Province,South Africa

Food borne diseases are a major public health concern worldwide. Staphylococcus aureus is one of the potential food borne pathogens which causes nosocomial and community acquired infections. In the present study, 74 representative strains of S. aureus isolated and characterized in previous study from different milk samples were subjected to random amplified polymorphic DNA (RAPD) polymerase chain reaction (PCR) and enterobacterial repetitive intergenic consensus (ERIC)-PCR to generate fingerprints to determine the genetic relationships of the isolated strains. A total of 20 RAPD patterns were generated and the number of amplified fragments obtained ranged from 0 to 8 with molecular weight ranging from 250 to 2000 bp. A dendrogram based on fingerprinting pattern grouped isolates into twelve major clusters (I–XII). In the case of ERIC-PCR 9 banding patterns were obtained with amplicons ranging from 1 to 8 and band sizes ranging from 250 to 2000 bp. A total of four major clusters (I–IV) were observed in the dendrogram based on ERIC fingerprints. The discrete banding patterns obtained both from ERIC-PCR and RAPD-PCR showed remarkably the genetic diversity of S. aureus. The findings of this study indicate that raw, bulk and pasteurized milk in the North-West Province was contaminated with toxigenic and multi-drug resistant S. aureus strains. This emphasizes the need to implement appropriate control measures to reduce contamination as well as the spread of virulent S. aureus strains to reduce the burden of disease in humans.     

AMPLIFICATION OF FUNGAL rDNA-ITS REGIONS FROM NON-FERTILE SPECIMENS OF THE LICHEN-FORMING GENUSPARMELIA

A method is described for the selective amplification of single mycobiont rDNA sequences from vegetative, non-ascomatal material of the lichenized thalli ofParmelia sulcataandP. saxatilis. The method includes a simple DNA extraction procedure employing rhizines, which avoids the use of liquid nitrogen disruption methods and phenol based extractions. The resulting amplified DNA is suitable for restriction enzyme analysis, and can be used to provide material for investigating population distribution and species concepts.     

Identification and phylogenetic analysis of Lactobacillus using multiplex RAPD-PCR

Multiplex RAPD-PCR was used to generate unique and identifying DNA profiles for isolates of the genus Lactobacillus. The method that was used was based on the combination of two 10-mer oligonucleotides in a single PCR. The generated RAPD profiles enabled discrimination of all lactobacillus strains that were used in this study. A dendrogram was generated from the RAPD profiles. The results of genetic relatedness obtained from the dendrogram were compared with the results obtained using carbohydrate fermentation profiles. Most of the gastrointestinal isolates studied could not be grouped using carbohydrate fermentation profiles. The RAPD profiles provided sufficient information to prepare a dendrogram of genetic relatedness. The gastrointestinal isolates were clustered together on the dendrogram. Furthermore an isolate originating from the stomach (strain ML004) was closely related to Lactobacillus fermentum. It was concluded that multiplex RAPD-PCR was useful for characterisation and inference of relatedness of Lactobacillus isolates.     

Differentiation of Dextran-Producing Leuconostoc Strains by a Modified Randomly Amplified Polymorphic DNA Protocol

Seven dextran-producing Leuconostoc strains were differentiated by using a modified randomly amplified polymorphic DNA (RAPD) protocol that incorporated specific primers designed from conserved regions of dextransucrase genes. RAPD profiles showed intraspecies differences among the Leuconostoc mesenteroides strains tested. This modified RAPD protocol will aid in the differentiation of polymer-producing leuconostocs, which are currently distinguished by time-consuming analyses of the dextrans they synthesize.     

Genetic diversity of Histoplasma capsulatum strains in Brazil

This study establishes the genetic relatedness among Brazilian Histoplasma capsulatum samples obtained from different sources. A PCR-based random amplified polymorphic DNA (RAPD) assay was used to delineate polymorphisms among isolates in geographically diverse regions in Brazil. RAPD fingerprints revealed distinct DNA profiles and provided a high level of discrimination among H. capsulatum strains from different locations. Cluster I was composed of H. capsulatum isolates from the northeast region. The majority of strains from southeast and south were categorized as major cluster II. The strain 84564 from Rio de Janeiro State showed no genetic correlation to any of the isolates from the same state. The RAPD patterns of H. capsulatum isolates from Goias (Cluster III) were unrelated to DNA fingerprints observed among the other H. capsulatum strains (48% similarity). This study is the first report that stratifies the clusters of H. capsulatum strains from Brazil by molecular typing and associates them with the geographical origin.     

DNA fingerprints of living fossil Ginkgo biloba by using ISSR and improved RAPD analysis

In this study, we have aimed to genetically characterize Ginkgo biloba. Nine G. biloba samples from different places of China were collected, and DNA was extracted from the leaves of these samples for inter-simple sequence repeat (ISSR) and random amplified polymorphic DNA (RAPD) analysis. ISSR analysis showed high genetic variation among the nine varieties of G. biloba; the polymorphism and similarity coefficients were 87% and 0.40–0.84, respectively. RAPD analysis also showed 93% polymorphism, and the similarity coefficients ranged from 0.44 to 0.87. Persistent genetic isolation that developed for millions of years might influence the genetic variability between the samples of G. biloba. This study generates a genetic map of G. biloba, and reports the highly variable intra-species genetic characteristics of this living fossil among different geographical locations of China. Our study also suggests that ISSR and the improved RAPD markers are useful molecular tools for the genetic characterization of plants.     

Ascertaining clonal fidelity of micropropagated plants of Dendrocalamus hamiltonii Nees et Arn. ex Munro using molecular markers

Dendrocalamus hamiltonii is a giant, evergreen, clumping, multipurpose bamboo with strong culms which are mainly used for construction, handicrafts and fuel. The tender shoots are also used as food. Overexploitation of existing natural stocks coupled with harvesting of culms before seed formation, a long flowering cycle, irregular and poor seed production, short seed viability, seed sterility, limited availability of offsets and rhizomes and seasonal dependence are some of the major bottlenecks in conventional propagation of this species. Therefore, alternative methods like micropropagation can fill the gap in demand and supply of true-to-type planting material. Recently, our micropropagation protocol for rapid multiplication of D. hamiltonii through axillary bud proliferation using nodal explants from mature culms was standardized, and more than 3,000 plants were transferred to the field. However, somaclonal variations are known to appear in the in vitro-derived clones due to culture-induced stresses. Therefore, the present investigation was conducted to ascertain the effect of the length of in vitro culture age on clonal fidelity of regenerated plants using random amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR), amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers. The genomic DNA samples (i.e. mother plant, in vitro-raised shoots from the 3rd to 30th passage, and in vitro-raised plants transferred to the field) were subjected to PCR amplification using 90 primer combinations (25 each of RAPD, ISSR and SSR, and 15 AFLP primer combinations) of which 76 (23 RAPD, 24 ISSR, 21 SSR and 8 AFLP) markers showed amplified DNA fragments. The 23 RAPD primers produced 162 distinct amplified DNA fragments from 2 (OPE-5) to 16 (OPE-16) fragments per primer, while 24 ISSR primers produced 181 distinct amplified DNA fragments with an average of 7.5 fragments per primer. The number of bands generated by SSR primers varied from 3 (RM-7 and RM-240) to 14 (RM-44), and the eight combinations of AFLP primers produced 369 distinct and scorable amplified DNA fragments with an average of 46.1 fragments per primer. Appearance of monomorphic bands with all the tested primer combinations confirmed the true-to-type nature of the in vitro clones of D. hamiltonii and hence the suitability of the developed micropropagation protocol for commercial-scale plant production.     

Simultaneous molecular subtyping and shiga toxin gene detection in Escherichia coli using multiplex polymerase chain reaction

A robust random amplification of polymorphic DNA (RAPD)-polymerase chain reaction (PCR) protocol was developed for the combined epidemiological typing and shiga toxin detection of clinical shiga toxin-producing O157 and non-O157 Escherichia coli isolates. Using shiga toxin gene-specific primers, combined with two short 10-mer primers, in a multiplex shiga toxin/RAPD-PCR the fingerprints generated allowed differentiation between epidemiologically unrelated strains and allowed identification of a band amplified from the shiga toxin gene(s). Hybridization with a digoxigenin-labelled probe specific for stx1 and stx2 confirmed its identity. The combination of primers in this way allows valuable additional information to be gained from discriminatory RAPD profiles, with further benefits of time and cost savings over tests performed individually.