Molecular and xylanolytic variation identified among strains of Pyrenophora graminea

The inter-retrotransposon amplified polymorphism (IRAP) was used to confirm the genetic variation among 22 strains of Pyrenophora graminea differing in their xylanase production. A total of 162 bands were scored of which 151 (93.21%) were polymorphic. The molecular parameter used showed that P. graminea strains reside in four phylogenetic groups. There was observed the resolution between clustering strains and their xylanase production. Hence, the described approach presented here constitutes no prior assumption about the characterization of P. graminea strains differing in xylanase production.     

Heterogeneity in the ITS of the ribosomal DNA of Pyrenophora graminea isolates differing in xylanase and amylase production

Xylanase and amylase have gained increasing interest because of their various biotechnology applications. In this research, the restriction of PCR-amplified internal transcribed spacers (ITS) of ribosomal DNA (rDNA) was used to confirm the genetic variation among 22 isolates of Pyrenophora graminea differing in their xylanase and amylase production. The fingerprints generated from the six restriction digestions of the rDNA ITS region showed high levels ofintraspecific variation within the P. graminea population. Neighbour-Joining diagram, based on Nei's genetic distances, showed that isolates formed two phylogenetic groups. No apparent association could be observed between xylanase and amylase production and genetic diversity among the twenty-two isolates.     

Efficiency of IRAP and ITS-RFLP marker systems in accessing genetic variation of Pyrenophora graminea

The usefulness of IRAP (inter-retrotransposon amplified polymorphism) and ITS-RFLP (restriction of PCR-amplified internal transcribed spacers of the rDNA) markers in the analysis of 39 Pyrenophora graminea isolates was determined. Each marker system could discriminate between all of the isolates in detecting polymorphism, albeit with variable efficiency. IRAP and ITS-RFLP produced 85% and 77% polymorphic bands, respectively, with a corresponding mean polymorphic information content (PIC) of 0.38 and 0.36. The IRAP marker index ratio (2.41) was higher than ITS-RFLP (1.50). On one hand, the quality nature of data (QND) was higher for ITS-RFLP (0.169) than IRAP (0.093). However, correlation between both marker similarity matrices was significant (r = 0.34, p < 0.05). These findings suggest their combined use in phylogenetic analysis. To our knowledge, this is the first report of a comparison involving these two advanced DNA marker systems.     

Integration of Retrotransposons-Based Markers in a Linkage Map of Barley

A deeper understanding of random markers is important if they are to be employed for a range of objectives. The sequence specific amplified polymorphism (S-SAP) technique is a powerful genetic analysis tool which exploits the high copy number of retrotransposon long terminal repeats (LTRs) in the plant genome. The distribution and inheritance of S-SAP bands in the barley genome was studied using the Steptoe × Morex (S × M) double haploid (DH) population. Six S-SAP primer combinations generated 98 polymorphic bands, and map positions were assigned to all but one band. Eight putative co-dominant loci were detected, representing 16 of the mapped markers. Thus at least 81 of the mapped S-SAP loci were dominant. The markers were distributed along all of the seven chromosomes and a tendency to cluster was observed. The distribution of S-SAP markers over the barley genome concurred with the knowledge of the high copy number of retrotransposons in plants. This experiment has demonstrated the potential for the S-SAP technique to be applied in a range of analyses such as genetic fingerprinting, marker assisted breeding, biodiversity assessment and phylogenetic analyses.     

S-SAP分子标记开发及其在苹果芽变鉴别上的应用

S-SAP(特异序列扩增多态性,Ssequence specific amplification polymorphism)是一种基于反转录转座元件的广泛应用于生物遗传多样性研究的分子标记。本研究从34对引物中筛选出7对具有谱带清晰、多态性高的引物组合,成功地开发了苹果基因组的S-SAP分子标记。27个元帅系芽变品种中,共扩增出588条谱带,每对引物组合平均扩增出84条谱带,其中多态性谱带48条,多态性谱带占总扩增出谱带数的8.2%,遗传相似系数介于0.73～0.90之间。对15个苹果芽变品种进行S-SAP分析,相似系数在0.42～0.94之间,以相似系数0.80为阈值,可以区分各芽变品系。开发的S-SAP分子标记可以有效地将苹果芽变品种区分,并为苹果生物遗传多样性与系统进化、品种鉴定提供新方法。     

The application of real-time PCR to the identification, detection and quantification of Pyrenophora species in barley seed

A real-time quantitative PCR technique has been used to develop a rapid and sensitive seed health test for Pyrenophora spp. on barley seed. Using the fluorescent reporter dye SYBR Green I for real-time detection of PCR amplification, pathogen DNA extracted from infected seed can be quantified to the picogram level. The amount of Pyrenophora DNA extracted from seed samples of an artificial infection level gradient, constructed by mixing infected and uninfected seed, correlated with good agreement ( r  = 0.931) to percentage infection levels of the same samples measured by agar plate testing. In addition, a correlation of r  = 0.883 was obtained between the two testing methods for naturally infected seed, ranging from 0% to 89% infection. Samples could be quantified to below the 2% voluntary threshold required for deciding on seed treatment. The proposed test was performed in three parts: (i) quantification of Pyrenophora spp. infection using Pyrenophora -specific PCR primers; (ii) test of any negative samples from (i) with barley-specific PCR primers to check the DNA extraction process; (iii) test of positive samples from (i) for the presence of Pyrenophora graminea using P. graminea -specific PCR primers. All PCRs were performed in the LightCycler™ instrument allowing each PCR run and analysis to be completed within 30 min. With the current daily receipt of samples (batches up to 16) the test can be completed in 8 h, compared to 7 days for the traditional agar plate test.     

Isolate-specific QTLs of resistance to leaf stripe (<Emphasis Type="Italic">Pyrenophora graminea</Emphasis>) in the 'Steptoe' × 'Morex' spring barley cross

Leaf stripe caused by the fungus Pyrenophora graminea represents a serious threat to grain yield in organically grown barley and in conventional Nordic and Mediterranean districts, for which resistant cultivars are necessary. A medium-density, molecular marker map derived from a 'Steptoe' (partially resistant) x 'Morex' (susceptible) spring barley cross and its derived doubled-haploid mapping population inoculated with the fungus made it possible to identify QTLs of resistance to leaf stripe. In order to investigate isolate-specificity of partial resistance, the 'Steptoe' x 'Morex' segregating population was inoculated with two highly virulent P. graminea isolates, Dg2 and Dg5. The present study demonstrates that partial resistance to leaf stripe of cv 'Steptoe' is governed in part by shared loci and in part by isolate-specific ones. One QTL is common to the resistance for the two isolates, on the long arm of chromosome 2 (2H), two QTLs are linked on chromosome 3 (3H), and the remaining two are isolate-specific, respectively for isolate Dg2 on chromosome 2 (2H) and for isolate Dg5 on chromosome 7 (5H). The QTL in common is that with the major effect on the resistance for each isolate, explaining 18.3% and 30.9% R(2) respectively for Dg2 and Dg5. The isolate-specific QTLs mapped in the 'Steptoe' x 'Morex' barley reference map support the assumption of Parlevliet and Zadoks (1977) that partial resistance may be due to minor gene-for-minor-gene interactions. Map comparisons of the QTLs with the known qualitative resistance genes to leaf stripe, Rdg1 (2H) and Rdg2 (7H), as well as with other QTLs of partial resistance in barley, show that the QTL for resistance to both isolates mapped on the long arm of chromosome 2 (2H) does not coincide with the qualitative Rdg1 gene but is linked to it at about 30 cM. One isolate-specific QTL of resistance to P. graminea, mapped on the short arm of chromosome 2 (2H), is coincident with a QTL for resistance to Pyrenophora teres previously mapped in the 'Steptoe' x 'Morex' cross.     

Retrotransposon-based markers from potato monoploids used in somatic hybridization.

In an attempt to remove lethal and deleterious genes and enhance the heterozygosity of the potato genome, we developed several diverse somatic hybrids through the electrofusion of selected monoploids. Somatic hybrids and somaclones resulting from fused and unfused protoplasts, respectively, were verified with microsatellites. Molecular markers anchored in the Tst1 retrotransposon were used to examine polymorphisms in the regenerated plants and to reveal any somaclonal variation. Inter-retrotransposon amplified polymorphism (IRAP) and retrotransposon display (sequence-specific amplified polymorphism (S-SAP), anchored in a retransposon) were examined on an ALFexpress DNA sequencer. Because of inconsistencies in the number and quality of bands revealed by the combination of either class of marker in combination with the ALFexpress, we cloned and sequenced 11 S-SAP bands to use as restriction fragment length polymorphism (RFLP) probes in Southern blot analyses of genetic relationships in our potato populations and among related Solanaceae. Readily scorable bands (n = 27) that separated somatic hybrids from parental monoploids and somaclones and grouped monoploids according to known genetic relationships were produced. Some of the probes could be used to differentiate tomato and Datura from potato. Sequence analysis of 5 cloned IRAP and 11 cloned S-SAP markers confirmed that they were anchored in the Tst1 retrotransposon. BLAST searches within GenBank produced 10 highly significant hits (5 nucleotide, 4 expressed sequence tag (EST), and 1 protein) within closely related Solanaceae, suggesting that Tst1 represents an old retroelement that was inserted before the diversion of genera within Solanaceae; however, most sequences were undescribed.     

Molecular and xylanolytic variation identified among strains of <Emphasis Type="Italic">Pyrenophora graminea</Emphasis>

The inter-retrotransposon amplified polymorphism (IRAP) was used to confirm the genetic variation among 22 strains of Pyrenophora graminea differing in their xylanase production. A total of 162 bands were scored of which 151 (93.21%) were polymorphic. The molecular parameter used showed that P. graminea strains reside in four phylogenetic groups. There was observed the resolution between clustering strains and their xylanase production. Hence, the described approach presented here constitutes no prior assumption about the characterization of P. graminea strains differing in xylanase production.     

Genetic variation in Drechslera teres populations as indicated by RAPD markers

Random amplified polymorphic DNA (RAPD) was used to assess genetic variation among 48 isolates of Drechslera teres originating from different sites in Finland. RAPD profiles were generated with five arbitrary 10-mer primers and revealed polymorphisms suitable for screening differentiation in this fungal population. Using UPGMA clustering analysis, a similarity coefficient of approximately 63% was observed between all D. teres isolates studied. The variation was, however, distributed on a small scale as different genotypes were found from the same plant. The isolates could not be grouped according to geographic origin, aggressiveness, growth rate or morphological features, indicating that the primers used in this study were neutral markers for these characters. The primers were, however, able to differentiate between isolates of Helminthosporium species (D. teres, Drechslera graminea and Bipolaris sorokiniana).     

Genotyping Assessment of Phosphate Solubilizing Bacteria Isolated from Rhizospheric Soil from Central Regions of Lucknow

Abstract

Phosphate solubilizing bacteria (PSB) can convert insoluble form of phosphorous (P) to an available form which is a major concern in Indian agriculture. In this study, 21 isolates having phosphate solubilizing capability were isolated from different regions of Lucknow, India. Among all, six efficient PSB were confirmed by using in vitro P estimation and 16S rRNA universal primers. The similarity detection was done using random amplified polymorphic DNA (RAPD) finger printing for genotyping the PSB isolates and to determine genetic relatedness between them. Twenty different OPA primers were tested among which four primers produced prominent, highly reproducible, and polymorphic bands. An average of 10.5 polymorphic bands per primer with the amplified DNA fragments ranging from 200 to 2000?bp in size. A dendrogram constructed from these data indicated 25–76% homology. Highest similarity was found in between Bacillus anthracis and Bacillus cereus with 33.8% similarity while least dissimilarity was found in B. anthracis and Pseudomonas fragi with 12% of similarity. These findings provide that there is a great genetic diversity between bacterial isolates from different geographical regions and RAPD can be used as a specific, time consuming and also proves as a reliable molecular tool which helps in strain level discrimination.     

Analysis of the Genetic Structure of Sclerotinia sclerotiorum (Lib.) de Bary Populations from Different Regions and Host Plants by Random Amplified Polymorphic DNA Markers

The genetic diversity and genetic structure of a population of isolates of Sclerotinia sclerotiorum (Lib.) de Bary from different regions and host plants were investigated using the random amplified polymorphic DNA (RAPD) method with 20 random decamer primer pairs in order to provide some information on the phylogenetic taxa and breeding for resistance to sclerotinia stem rot. A minimum of three and a maximum of 15 unambiguously amplified bands were generated, furnishing a total of 170 bands ranging in size from 100to 3 200 bp, corresponding to an average of 8.5 bands per primer pair. One hundred and four of these 170bands (61.2%) were polymorphic, the percentage of polymorphic bands for each primer pair ranging from 0.0% to 86.7%. The genetic relationships among the isolates, based on the results of RAPD analysis, were examined. The genetic similarity of all selected isolates was quite high. At the species level, the genetic diversity estimated by Nei's gene diversity (h) was 0.197 and S hannon's index of diversity (I) was 0.300. The unweighted pair-group mean analysis (UPGMA) cluster analysis showed that most isolates from the same regions were grouped in the same cluster or a close cluster. The population of isolates from Hefei (Anhui Province, China) was more uniform and relatively distant to other populations. The Canadian population collected from carrot (Daucus carota var. sativa DC.) was relatively close to the Polish population collected from oilseed rape (Brassica napus L.) plants. There was no relationship between isolates from the same host plants. An analysis of molecular variance (AMOVA) revealed that the percentage of variance attributable to variation among and within populations was 50.62% and 49.38%, respectively. When accessions from China, Europe, and Canada were treated as three separate groups, the variance components among groups,among populations within groups, and within populations were -0.96%, 51.48%, and 49.47%, respectively.The genetic differentiations among and within populations were highly significant (P ＜ 0.001). Similarly, the coefficient of gene differentiation (Gst) in total populations calculated by population genetic analysis was 0.229 4, which indicated that the genetic variation among populations was 22.94%. The gene flow (Nm)was 1.68, which indicated that the gene permutation and interaction among populations was relatively high.     

Genetic and epigenetic instabilities induced by tissue culture in wild barley (<Emphasis Type="Italic">Hordeum brevisubulatum</Emphasis> (Trin.) Link)

A simple tissue culture protocol was developed for efficient plant regeneration from young inflorescence-derived calli in wild barley, Hordeum brevisubulatum (Trin.) Link, an important pasturage grass. Genetic and epigenetic instabilities in the regenerated plants (regenerants) were assessed by three molecular markers AFLP, S-SAP and MSAP. Two pools of calli derived from young inflorescences of a single donor plant and 44 randomly chosen regenerants were subjected to AFLP analysis. Results showed that 74 out of 793 scored bands were polymorphic among the studied samples, giving rise to a genetic variation frequency of 9.3%. The number of variant bands as compared to the donor plant varied greatly among the regenerants, with a small number of regenerants accumulated a large number of variant bands (maximum 55), while the majority of regenerants showed only 2–3 variant bands. A subset of regenerants together with the two pools of calli were selected for S-SAP and MSAP analysis to detect possible retrotranspositional activity of a prominent retroelement family, BARE-1, in the genomes of Hordem species, and possible alterations in cytosine methylation. S-SAP analysis showed that of the 768 scored bands, 151 were polymorphic among the analyzed samples, giving rise to a genetic variation frequency of 19.7%, albeit no evidence for retrotranspositional event was obtained based on locus-specific PCR amplifications. MSAP analysis revealed that tissue culture has caused cytosine methylation alterations in both level and pattern compared with the donor plant. Sequencing of selected variant bands indicated that both protein-coding genes and transposon/retrotransposons were underlying the genetic and epigenetic variations. Correlation analysis of the genetic and epigenetic instabilities indicated that there existed a significant correlation between MSAP and S-SAP (r = 0.8118, 1,000 permutations, P < 0.05), whereas the correlation between MSAP and AFLP (r = 0.1048) is not statistically significant. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. Xiaoling Li and Xiaoming Yu contributed equally to this work.     

Development of S-SAP markers based on an LTR-like sequence from Medicago sativa L.

The Sequence-Specific Amplification Polymorphism (S-SAP) method, recently derived from the Amplified Fragment Length Polymorphism (AFLP) technique, produces amplified fragments containing a retrotransposon LTR sequence at one end and a host restriction site at the other. We report the application of this procedure to the LTR of the Tms1 element from Medicago sativa L. Genomic dot-blot analysis indicated that Tms1 LTRs represent about 0.056% of the M. sativa genome, corresponding to 16 x 10(3) copies per haploid genome. An average of 66 markers were amplified for each primer combination. Overall 49 polymorphic fragments were reliably scored and mapped in a F(1) population obtained by crossing diploid M. falcata with M. coerulea. The utility of the LTR S-SAP markers was higher than that of AFLP or SAMPL (Selective Amplification of Microsatellite Polymorphic Loci) markers. The efficiency index of the LTR S-SAP assay was 28.3, whereas the corresponding values for AFLP and SAMPL markers were 21.1 and 16.7, respectively. The marker index for S-SAP was 13.1, compared to 8.8 for AFLP and 9.5 for SAMPL. Application of the Tms1 LTR-based S-SAP to double-stranded cDNA resulted in a complex banding pattern, demonstrating the presence of Tms1 LTRs within exons. As the technique was successfully applied to other species of the genus Medicago, it should prove suitable for studying genetic diversity within, and relatedness between, alfalfa species.     

Ty1-copia retrotransposon-based S-SAP (sequence-specific amplified polymorphism) for genetic analysis of sweetpotato

RNaseH-LTR regions of the Ty1-copia retrotransposon were amplified and cloned from the sweetpotato genome using RNaseH gene-specific degenerate primers and restriction site-specific adaptor primers. Ninety clones out of the 240 sequenced were identified with a variable degree of homology to the Ty1-copia RNaseH gene. Three ( Str6, Str85, Str187) of the 90 had characteristic RNaseH-gene, stop codon, polypurine track and putative 3' LTR sequence elements. Analysis of nine selected genotypes representing Africa, South and Central America, as well as Papua New Guinea, by the established S-SAP technique revealed that the majority of the Ty1-copia transposon insertions were unique (33 to 64%) and only few common bands were detected. Analysis of 177 East African varieties further supported this finding and showed that most of the copia retrotransposon locations were represented only by some genotypes. Considering that sweetpotato has been present in the East African region for only about 500 years, and the number of genotypes introduced was possibly limited, a surprisingly high level of genetic variability of the transposon insertion sites was detected. These findings may indicate the putative activity of the retrotransposon in sweetpotato in the recent past. Comparison of the copia retrotransposon insertion-based S-SAP method to AFLP and RAPD showed that the majority of the markers were more polymorphic (97-99%) in the case of S-SAP in comparison to AFLP (70-90%) and RAPD (88%). Thus demonstrating the transposon-based molecular marker system was very efficient for genotyping.     

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.     

Isozyme polymorphisms within <Emphasis Type="Italic">Pyrenophora tritici-repentis</Emphasis> population in Argentina

Tan spot caused by Pyrenophora tritici-repentis is an economically important disease of wheat (Triticum aestivum L.) in Argentina. The success of local breeding programs for resistance to the disease depends to a large extent on the genetic variation within the pathogen population. To assay this variability, 155 isolates of P. tritici-repentis obtained from leaves of wheat and Festuca sp. of different localities were assayed and compared for isozyme polymorphisms. Isozyme analysis was performed with polyacrilamide gel electrophoresis in the systems estearase, phosphatase and peroxidase. Variation in the number and relative mobility of the bands by each system was detected in this collection of isolates. Intraspecific polymorphisms were identified in the three systems assayed. The cluster analysis based in bands patterns defined 86 electromorph types among the 155 isolates evaluated according with the Jaccard’s coefficient (CCC = 095). The isozymes patterns were not correlated with the geographic and/or wheat cultivars origin of the P. tritici-repentis isolates.     

Genetic Diversity of Pyrenophora teres Isolates as Detected by AFLP Analysis

Amplified fragment length polymorphism (AFLP) analysis has been used to analyse mainly 83 Czech isolates of Pyrenophora teres, P. graminea, P. tritici‐repentis and Helminthosporium sativum. Each species had distinct AFLP profiles. Using 19 primer combinations 948 polymorphic bands were detected. All main clusters in dendrogram correspond to the studied species. Even the two forms of P. teres–P. teres f. teres (PTT) and P. teres f. maculata (PTM) – formed different clusters. Genetic diversity, with regard to the locality and the year of the sample's collection, was analysed separately within the AFLP‐based dendrogram cluster of PTT and PTM. Unweighted pair‐group method (UPGMA) analysis of the 37 isolates of PTT and 30 isolates of PTM, using 469 polymorphic bands, showed that the variability seemed to have been influenced more by the year of sampling than by the geographic origin of the isolate. The presence of intermediate haplotypes with a relatively high number of shared markers between the two groups indicated that hybridization between the forms of P. teres could happen, but it is probably often overlapped by selection pressure or genetic drift.     

Comparison of the utility of barley retrotransposon families for genetic analysis by molecular marker techniques

The Sequence-Specific Amplification Polymorphism (S-SAP) method, and the related molecular marker techniques IRAP (inter-retrotransposon amplified polymorphism) and REMAP (retrotransposon-microsatellite amplified polymorphism), are based on retrotransposon activity, and are increasingly widely used. However, there have been no systematic analyses of the parameters of these methods or of the utility of different retrotransposon families in producing polymorphic, scorable fingerprints. We have generated S-SAP, IRAP, and REMAP data for three barley (Hordeum vulgare L.) varieties using primers based on sequences from six retrotransposon families (BARE-1, BAGY-1, BAGY-2, Sabrina, Nikita and Sukkula). The effect of the number of selective bases on the S-SAP profiles has been examined and the profiles obtained with eight MseI+3 selective primers compared for all the elements. Polymorphisms detected in the insertion pattern of all the families show that each can be used for S-SAP. The uniqueness of each transposition event and differences in the historic activity of each family suggest that the use of multiple retrotransposon families for genetic analysis will find applications in mapping, fingerprinting, and marker-assisted selection and evolutionary studies, not only in barley and other Hordeum species and related taxa, but also more generally.     

立枯丝核菌第一融合群的遗传分化*

利用12个随机引物对来自云南省不同地理环境的立枯丝核菌RhizoctoniasolaniKühn第一融合群(AG-1)的13个菌株进行遗传分化关系的研究。结果表明受试菌株被标记的DNA谱带多态性检测率为100%,即受试菌株间几乎无同质的DNA谱带。利用UPGMA法构建分子系统树分析发现,遗传距离0.5将其划分为9个遗传聚类组,遗传距离0.86将其划分为6个遗传聚类组,而遗传距离0.95可将其划分为3个遗传聚类组。结果表明受试AG1融合群的13个菌株具明显的遗传分化。