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.     

Characterization and phylogenetic relationships among microsporidia infecting silkworm, Bombyx mori, using inter simple sequence repeat (ISSR) and small subunit rRNA (SSU-rRNA) sequence analysis.

This study is the first report on the genetic characterization and relationships among different microsporidia infecting the silkworm, Bombyx mori, using inter simple sequence repeat PCR (ISSR-PCR) analysis. Six different microsporidians were distinguished through molecular DNA typing using ISSR-PCR. Thus, ISSR-PCR analysis can be a powerful tool to detect polymorphisms and identify microsporidians, which are difficult to study with microscopy because of their extremely small size. Of the 100 ISSR primers tested, only 28 primers had reproducibility and high polymorphism (93%). A total of 24 ISSR primers produced 55 unique genetic markers, which could be used to differentiate the microsporidians from each other. Among the 28 SSRs tested, the most abundant were (CA)n, (GA)n, and (GT)n repeats. The degree of band sharing was used to evaluate genetic similarity between different microsporidian isolates and to construct a phylogenetic tree using Jaccard's similarity coefficient. The results indicate that the DNA profiles based on ISSR markers can be used as diagnostic tools to identify different microsporidia with considerable accuracy. In addition, the small subunit ribosomal RNA (SSU-rRNA) sequence gene was amplified, cloned, and sequenced from each of the 6 microsporidian isolates. These sequences were compared with 20 other microsporidian SSU-rRNA sequences to develop a phylogenetic tree for the microsporidia isolated from the silkworms. This method was found to be useful in establishing the phylogenetic relationships among the different microsporidians isolated from silkworms. Of the 6 microsporidian isolates, NIK-1s revealed an SSU-rRNA gene sequence similar to Nosema bombycis, indicating that NIK-1s is similar to N. bombycis; the remaining 5 isolates, which differed from each other and from N. bombycis, were considered to be different variants belonging to the species N. bombycis.     

Phylogenetic relationships of three new microsporidian isolates from the silkworm, Bombyx mori

The pathogenicity, mode of transmission, tissue specificity of infection and the small subunit rRNA (SSU-rRNA) gene sequences of the three new microsporidian isolates from the silkworm Bombyx mori were studied. Out of the three, NIK-2r revealed life cycle features and SSU-rRNA gene sequence similar to Nosema bombycis, suggesting that it is N. bombycis. The other two, NIK-4m and NIK-3h, differed from each other as well as from N. bombycis. NIK-4m was highly pathogenic and did not show any vertical transmission, in accordance with the apparent lack of gonadal infection, whereas NIK-3h was less pathogenic and vertical transmission was not detected but could not be excluded. Phylogenetic analysis based on SSU-rRNA gene sequence placed NIK-3h and NIK-4m in a distinct clade that included almost all the Vairimorpha species and Nosema species that infect lepidopteran and non-lepidopteran hosts, while NIK-2r was included in a clade containing almost all the Nosema isolates that infect only lepidopteran hosts. Thus, we have presented molecular evidence that one of the three isolates is in fact the type species N. bombycis, while the other two isolates are Vairimorpha spp. There was distinct separation of microsporidian isolates infecting only lepidopteran hosts and those infecting lepidopteran and non-lepidopteran hosts, reflecting possible co-evolution of hosts and microsporidian isolates.     

Trypanosoma evansi: genetic variability detected using amplified restriction fragment length polymorphism (AFLP) and random amplified polymorphic DNA (RAPD) analysis of Kenyan isolates

We compared two methods to generate polymorphic markers to investigate the population genetics of Trypanosoma evansi; random amplified polymorphic DNA (RAPD) and amplified restriction fragment length polymorphism (AFLP) analyses. AFLP accessed many more polymorphisms than RAPD. Cluster analysis of the AFLP data showed that 12 T.evansi isolates were very similar ('type A') whereas 2 isolates differed substantially ('type B'). Type A isolates have been generally regarded as genetically identical but AFLP analysis was able to identify multiple differences between them and split the type A T. evansi isolates into two distinct clades.     

Fingerprint of Biomphalaria arabica, the intermediate host of Schistosoma mansoni in Saudi Arabia, using RAPD-PCR

In the time schistosomisis control programs are implemented in many countries, schistosomiasis continues to spread throughout the world. Among these control strategies is the vector control. Within this context, analysis of the genetic variability of the intermediate host snails is important because it allows identification of specific sequences of the genome of this mollusk related to determine their fingerprint. We investigated Biomphalaria arabica, which is found in Saudi Arabia, the intermediate host of Schistosoma mansoni infection. Genetic fingerprint was studied by RAPD-PCR using our own different random primers as well as published primers. The electrophoretic patterns resulting from amplification showed specific polymorphic markers of B. arabica. This information will be helpful in the identification of the snails and demonstrating that RAPD-PCR is an appropriate and efficient methodological approach for establishment of genetic barcode development.     

Phytochemical analysis and genetic characterization of six Hypericum species from Serbia

The secondary metabolite contents and genetic profiles of six Hypericum species (H. barbatum Jacq., H. hirsutum L., H. linarioides Bosse, H. maculatum Crantz, H. rumeliacum Boiss. and H. tetrapterum Fries), collected from different locations in Serbia, have been analyzed. Methanol extracts of the aerial parts of the plants were obtained by accelerated solvent extraction (ASE) at 40 degrees C and 100 bar, and analyzed for five pharmacologically important standard constituents (hyperoside, quercitrin, pseudohypericin, hyperforin and hypericin) by LC-MS/MS. The highest content of hypericin and pseudohypericin was observed in the H. barbatum extract, while the highest content of hyperforin and quercitrin was found in the H. tetrapterum extract and the highest content of hyperoside in the H. maculatum extract. A literature survey shows that the above six Hypericum species, with the exception of H. maculatum, have not been previously genetically profiled. In order to correlate the chemical constituents of the species under investigation with their genetic factors, genetic profiling of these species was undertaken using the random amplification of polymorphic DNA (RAPD) and single sequence repeat (SSR) profiles of the above selected plants. Among the 52 random primers used for the initial screening, only 10 yielded polymorphic RAPD profiles. A total of 111 polymorphic markers were generated using these primers. The SSR analysis shows that 8 out of the 10 primers used were polymorphic. The correlation among the species under investigation using the two genetic markers was performed using Jaccuard's coefficients of similarity and a high correlation (r=0.99) was obtained. The main conclusion from the above data is that there exists a stronger correlation for secondary metabolite contents with RAPD data than with SSR data among the six Hypericum species from Serbia.     

Application of RAPD analysis for identification of Lactococcus lactis subsp. cremoris strains isolated from artisanal cultures

Randomly amplified polymorphic DNA (RAPD) was used for identification of Lactococcus lactis subsp. cremoris strains isolated 40 years ago from various dairy homemade products. Total genomic DNAs from six randomly chosen isolates and the reference strain Lactococcus lactis subsp. cremoris NIZO B64 were amplified using four different 10-mer primers. Although most RAPD fragments were common to all six isolates, a sufficient number of polymorphic fragments were also detected that allowed clear distinction of the isolates and the reference strain. The results indicate that RAPD analysis could be a useful and efficient method to distinguish Lactococcus lactis subsp. cremoris at the strain level and to detect genetic diversity.     

Detection of molecular variation in the insect pathogenic fungus Metarhizium using RAPD-PCR

Abstract DNA polymorphism among isolates of the insect pathogenic fungus Metarhizium anisopliae and M. flavoviride was investigated by RAPD-PCR. DNA fragments of between 0.3 and 2.7 kb were obtained using eight 10-mer PCR primers of arbitrary nucleotide sequence, and each isolate differed in the size and number of RAPD products, indicating considerable polymorphism. Isolate-specific RAPD fingerprints were used to calculate relative genetic similarity; this differentiated isolates into two major groups, separating nine of the ten isolates of M. anisopliae from the two of M. flavoviride . However, an Australian M. anisopliae isolated from an Orthopteran host exhibited a higher degree of genetic similarity to the M. flavoviride group. M. anisopliae isolates were further segregated into three subgroups which were loosely related to their geographical origins. although considerable polymorphism was observed within these groups. There was no apparent association between genotype and original insect host.     

Genetic diversity analysis of Zingiber Officinale Roscoe by RAPD collected from subcontinent of India

The present investigation was undertaken for the assessment of 12 accessions of Zingiber officinale Rosc. collected from subcontinent of India by RAPD markers. DNA was isolated using CTAB method. Thirteen out of twenty primers screened were informative and produced 275 amplification products, among which 261 products (94.90%) were found to be polymorphic. The percentage polymorphism of all 12 accessions ranged from 88.23% to 100%. Most of the RAPD markers studied showed different levels of genetic polymorphism. The data of 275 RAPD bands were used to generate Jaccard’s similarity coefficients and to construct a dendrogram by means of UPGMA. Results showed that ginger undergoes genetic variation due to a wide range of ecological conditions. This investigation was an understanding of genetic variation within the accessions. It will also provide an important input into determining resourceful management strategies and help to breeders for ginger improvement program.     

Genetic differentiation among common and selected hatchery populations of flounder: Evidence from RAPD markers

Randomly amplified polymorphism DNA (RAPD) analysis was performed in order to evaluate one common population and two selected hatchery populations of flounder Paralichthys olivaceus. A total of 90 individuals belonging to three populations were screened using 12 different RAPD primers. A total of 71 loci were produced in the three studied populations, and 43.5%, 42.4% and 42.2% of these loci were polymorphic over all the genotypes tested in common, susceptible and resistant populations, respectively. The number of loci detected by single primers ranged from four to eight. The average heterozygosites of common, susceptible and resistant populations were 0.112, 0.103 and 0.111, respectively. Compared with the common population, the two selected hatchery populations, susceptible and resistant, showed some genetic differences including a smaller number of loci, a smaller number of polymorphic loci, a smaller number of genotypes and a smaller Shannon index. The present study confirmed that it is important to detect the genetic variability of the selected hatchery population for the conservation of natural flounder resources.     

RAPD-PCR analysis of Staphylococcus aureus strains isolated from bovine and human hosts

Staphylococcus aureus is one of the most important pathogens in humans and animals. In this study eighty strains were analyzed by RAPD-PCR to assess the genetic relationship between S. aureus isolates from bovine and human hosts. Results were compared with those obtained by biotyping. Fifty-two percent of the S. aureus isolates belonged to a host specific biotype (human, bovine and poultry). Bovine and human ecovars were the most prevalent. Dendrogram obtained by RAPD results showed that all the isolates clustered into eleven groups (A-K) at a relative genetic similarity of less than 30% when analyzed with the three primers. Group A clustered 95% of the human host isolates and the remaining groups (B-K) clustered the bovine host isolates. Principal coordinate analysis also showed that the isolates could be arbitrarily divided into two groups, bovine and human, by the second coordinate. Only 9 isolates (11%) were not clustered into these groups. The genetic diversity among the S. aureus isolates from bovine hosts is relatively low compared to that of isolates from human hosts. There were no statistically significant differences among isolated from bovine and human hosts. This study shows that RAPD-PCR assayed with three primers can be successfully applied to assess the genetic relationship of S. aureus isolates from different hosts.     

A PCR Assay to Identify and Distinguish Single Juveniles of Meloidogyne hapla and M. chitwoodi

Random amplified polymorphic DNA (RAPD) bands that distinguish Meloidogyne hapla and M. chitwoodi from each other, and from other root-knot nematode species, were identified using a series of random octamer primers. The species-specific amplified DNA fragments were cloned and sequenced, and then the sequences were used to design 20-mer primer pairs that specifically amplified a DNA fragment from each species. Using the primer pairs, successful amplifications from single juveniles were readily attained. A mixture of four primers in a single PCR reaction mixture was shown to identify single juveniles of M. hapla and M. chitwoodi. To confirm specificity, the primers were used to amplify DNA from several isolates of M. hapla that originated from different crops and locations in North America and also from isolates of M. chitwoodi that differed in host range. In characterizing the M. hapla isolates, it was noted that there was a mitochondrial DNA polymorphism among isolates for cleavage by the restriction endonuclease DraI.     

不同来源鼠李糖乳杆菌的随机扩增多态DNA分析

[目的]建立鼠李糖乳杆菌(Lactobacillus rhamnosus,Lr)菌株之间的分子鉴别方法并分析不同分离株之间的遗传多样性.[方法]从56份采集自中国新疆和田和广西巴马瑶族自治县的长寿老人粪便样本中分离得到的乳酸菌中,经生理生化分析和API 50CHL试验条鉴定,获得10株Lr.对10株Lr分离株和1株Lr标准株ATCC7469进行了随机扩增多态DNA分析,从50条随机引物中筛选到5条在菌株水平上具有鉴别力的引物P14、OPG28、OPG25、P7和P4并建立和优化了Lr菌株RAPD指纹图谱扩增方法.根据RAPD结果计算菌株间的遗传相似系数并进行聚类分析.[结果]获得了清晰稳定的DNA指纹图谱,扩增产物大小在100～2000bp之间,菌株间呈现显著的DNA多态性,不同来源的Lr分离株的遗传相似系数在0.581～0.935之间,在相似系数0.80水平上可以将11株Lr菌株分为5个类群,其中分离自新疆和田的Lr菌株归在类群B和类群C,而分离自广西巴马瑶族自治县的Lr菌株归在类群D和类群E.[结论]应用RAPD方法对Lr菌株进行分子鉴别是可行的,不同来源的Lr之间存在着较大的种内遗传多态性和不同的亲缘关系.     

Characterization of native <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> strains by PCR-RAPD based fingerprinting

Seventy isolates of Bacillus thuringiensis were isolated from soil samples collected from cotton fields. These isolates were characterized by randomly amplified poylmorphic DNA (RAPD) markers to determine their genetic diversity pattern based on their source of origin. Different random decamer primers were used for RAPD amplification, which generated a total of 1935 fragments; of these 1865 were polymorphic and 68 monomorphic. The primers OPA03, OPA08, OPD14, OPD19, OPD20, OPE17 and OPD19 produced 100% polymorphic fragments, whereas primers OPC06, OPC20 and OPD17 produced 20, 31 and 17 monomorphic fragments, respectively. When the RAPD banding pattern data was subjected to dendrogram construction, the 70 isolates fell into two separate clusters, cluster I and cluster II, which includes 26 and 44 B. thuringiensis isolates, respectively. These two main clusters were further divided into four subclusters at Eucledian distance of 150 and 80% similarity index. All primers showed amplification and indicated the good diversity of B. thuringiensis isolates. The RAPD pattern showed 4–10 bands per isolate, with MWt in the range of 0.4–3.5 Kb and an average of 193.5 fragments were produced per primer. The primer OPE17 was found to be the most discriminatory as it produced 286 polymorphic bands.     

Use of RAPD-PCR fingerprinting to detect genetic diversity of soil Streptomyces isolates

Random amplified polymorphic DNA (RAPD) was used for identification and assessment of genetic diversity between isolates of Streptomyces from soil. Genomic DNA from 18 Streptomyces isolates and 2 reference strains were amplified using four different 10-mer primers. Different DNA fingerprinting patterns were obtained for all the isolates. Electrophoretic and cluster analysis of the amplification products revealed incidence of polymorphism among the isolates and none of them was identical to the reference strains although there were some common amplification bands. Two highly divergent groups were determined among the isolates. The results indicate that RAPD is an efficient method for discriminating and studying genetic diversity of Streptomyces isolates.     

RAPD analysis of Fusarium Isolates Causing “Mango Malformation” Disease in Pakistan

Mango Malformation (MM) disease is a major constraint to mango production. A total of 20 Fusarium isolates from MM-affected mango plants were collected from 14 locations in Pakistan and assessed for genetic diversity using the random amplified polymorphic DNA (RAPD) technique. A total of 393 fragments were amplified after screening with 50 random primers. The amplifications with 45 primers identified scoreable polymorphisms among the isolates. A genetic similarity matrix based on Nei and Li’s index determined coefficients ranging from 46.46% to 92.51%. These coefficients were used to construct a dendrogram using the UPGMA algorithm. The isolates grouped into two main clusters, comprising 13 and 7 isolates respectively, at a genetic relatedness of 52%. Within the clusters, Fusarium isolates were not necessarily related either by geographic origin or by the mango cultivar from which they were isolated. RAPD proved a reproducible and tractable means of differentiating Fusarium isolates. These findings also suggest that some infections originate not from adjacent plants within an orchard but from geographically distant areas; indicating that most probably infection occurs in nurseries prior to plants being transported around the country for subsequent cultivation, and that improved plant hygiene could significantly curb MM infection and spread.     

RAPD cluster analysis and chlorate sensitivity of some Indian isolates of Macrophomina phaseolina from sorghum and their relationships with pathogenicity

Charcoal rot caused by Macrophomina phaseolina is an economically important disease in sorghum grown during the post rainy season in India. Variations in random amplified polymorphic DNA (RAPD) polymorphisms, chlorate sensitivity and pathogenicity were studied among sorghum isolates of M. phaseolina collected from different parts of India. RAPD data based on 14 random primers of Kit A and C (OPA and OPC) on 20 isolates showed a high degree of polymorphism (98.1%) in different isolates. UPGMA dendrogram on RAPD data produced 7 clusters at the level of 37% similarity. Isolates from the same locations showed a tendency to group closer, substantiating closer genetic relatedness. Sorghum infecting Macrophomina isolates showed a mixed response for sensitivity to potassium chlorate (120 mM). Chlorate-resistant isolates were predominant (>65% of the isolates) over sensitive isolates. Chlorate-sensitive isolates were found to be genetically closer among them than the resistant ones. For the first time it was shown that chlorate sensitivity in Macrophomina had some relations with charcoal rot severity in sorghum.     

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.     

Interpretation of randomly amplified polymorphic DNA marker data for fingerprinting sweet potato (Ipomoea batatas L.) genotypes

In this paper we present a method for the generation of randomly amplified polymorphic DNA (RAPD) markers for sweet potato. These were applied to produce genetic fingerprints of six clonal cultivars and to estimate genetic distances between these cultivars. The level of polymorphism within the species was extremely high. From the 36-decamer random primers used, 170 fragments were amplified, of which 132 (77.6%) were polymorphic. Ten primers resulted in no detected amplification. Of the remaining 26 primers for which amplification was achieved, only one did not reveal polymorphism. Six primers used alone enabled the discrimination of all six genotypes. Pattern analysis, which employed both a classification and ordination method, enabled the grouping of cultivars and the identification of primers which gave greatest discrimination among the cultivars.     

Echinococcus granulosus genotypes in livestock of Iran indicating high frequency of G1 genotype in camels

In this study, 112 Echinococcus granulosus isolates from different livestock of Iran were genotyped by PCR amplification of ribosomal DNA-internal transcribed spacer 1 (rDNA-ITS1) region followed by restriction fragment length polymorphism (RFLP) with the enzyme RsaI. The possibility of intra-genotype variation was also investigated using randomly amplified polymorphic DNA (RAPD) analysis. Isolates from sheep, goats, cattle and the majority of camels (12 of 18; 66.7%) were identified as the G1 genotype and a few camel isolates (6 of 18; 33.3%) belonged to the G6 genotype. Overall G1 and G6 genotypes were identified in 94.6% (106 of 112) and 5.3% (6 of 112) of all isolates, respectively. RAPD analysis based on 15 separate primers showed 7-14 bands of 200-3000 bp for strain G1. Considering each individual primer, no differences observed among isolates from different hosts and between livers and lungs. This study confirmed the existence of G1 and G6 genotypes in Iran. Moreover, G1 is much more prevalent even in camels, indicating the importance of sheep-dog cycle in public health. Studying intra-genotypic variation of E. granulosus warrants more research using other primers and methods.