RAPD-marking of genomes of representative Hordeum species

Random amplification of polymorphic DNA (RAPD) was used to analyze six species, three populations, and seven regional cultivars of barley. A unique pattern of amplified DNA products was obtained for each species of the genus Hordeum. High polymorphism of barley species was revealed. Specific fragments were found in most RAPD patterns; the fragments can be used as molecular markers of corresponding species and subspecies. Several other DNA fragments were shown to serve as molecular markers of the H genome. Specific RAPD patterns were obtained for each population and each cultivar of H. vulgare sensu lato. In total, variation between the populations and between the cultivars was substantially lower than between species. Cluster analysis (UPGMA) was used to estimate genetic distances between the Hordeum species, between the H. spontaneum populations, and between regional H. vulgare cultivars and a dendrogram was constructed.     

RAPD Analysis of the Genome in Species of the Genus Hordeum

Random amplification of polymorphic DNA (RAPD) was used to analyze six species, three populations, and seven regional cultivars of barley. A unique pattern of amplified DNA products was obtained for each species of the genus Hordeum.High polymorphism of barley species was revealed. Specific fragments were found in most RAPD patterns; the fragments can be used as molecular markers of corresponding species and subspecies. Several other DNA fragments were shown to serve as molecular markers of the H genome. Specific RAPD patterns were obtained for each population and each cultivar of H. vulgaresensu lato. In total, variation between the populations and between the cultivars was substantially lower than between species. Cluster analysis (UPGMA) was used to estimate genetic distances between theHordeumspecies, between the H. spontaneumpopulations, and between regional H. vulgarecultivars and a dendrogram was constructed.     

大麦6H染色体特异性标记的筛选和鉴定

从大麦、小麦和小麦－大麦６Ｈ染色体附加系ＲＡＰＤ分析筛选出对６Ｈ染色体特异的２个ＲＡＰＤ标记,转换为特异性ＰＣＲ标记,利用标记对不同植物材料进行ＰＣＲ扩增鉴定。表明凡含有大麦６Ｈ染色体的材料（Ｂｅｔｚｅｓ、Ｉｇｒｉ、ＣＳ６Ｈ附加系）均能扩增出特异带;而不含６Ｈ染色体的材料,包括小科、黑麦、长穗偃麦草、中间偃麦草、簇毛麦以及含有其他大麦染色体的小麦附加系均不主增出特异带。可见,２对ＰＣＲ引物具有大麦     

Identification of wild and cultivated Hordeum species using two-primer RAPD fragments

Random amplified polymorphic DNAs (RAPD) analysis has been adapted to assess the degree of RAPD polymorphism within the genus Hordeum to determine if this approach can distinguish wild and cultivated species. Nineteen wild and seven cultivated accessions were evaluated using 4 random 10-mer primers. The potential of the RAPD assay was further increased by combining two primers in a single polymerase chain reaction (PCR). RAPD fragments generated by two pairs of arbitrary 10-mer primers discriminated six wild species and one cultivated species by banding profiles. The size of the amplified DNA fragments ranged from 150 to 2300 base pairs. 33 %percent of the fragments were common to both wild and cultivated species; 67% were specific to either wild or cultivated species. The average difference in fragments was less within the species than among the species. By comparing RAPD fingerprints of wild and cultivated barley, markers were identified among the set of amplified DNA fragments which could be used to distinguish wild and cultivated Hordeum species. This revised version was published online in July 2006 with corrections to the Cover Date.     

Transferability and polymorphism of barley EST-SSR markers used for phylogenetic analysis in Hordeum chilense

Background

Hordeum chilense, a native South American diploid wild barley, is a potential source of useful genes for cereal breeding. The use of this wild species to increase genetic variation in cereals will be greatly facilitated by marker-assisted selection. Different economically feasible approaches have been undertaken for this wild species with limited direct agricultural use in a search for suitable and cost-effective markers. The availability of Expressed Sequence Tags (EST) derived microsatellites or simple sequence repeat (SSR) markers, commonly called as EST-SSRs, for barley (Hordeum vulgare) represents a promising source to increase the number of genetic markers available for the H. chilense genome.

Results

All of the 82 barley EST-derived SSR primer pairs tested for transferability to H. chilense amplified products of correct size from this species. Of these 82 barley EST-SSRs, 21 (26%) showed polymorphism among H. chilense lines. Identified polymorphic markers were used to test the transferability and polymorphism in other Poaceae family species with the aim of establishing H. chilense phylogenetic relationships. Triticum aestivum-H. chilense addition lines allowed us to determine the chromosomal localizations of EST-SSR markers and confirm conservation of the linkage group.

Conclusion

From the present study a set of 21 polymorphic EST-SSR markers have been identified to be useful for diversity analysis of H. chilense, related wild barleys like H. murinum, and for wheat marker-assisted introgression breeding. Across-genera transferability of the barley EST-SSR markers has allowed phylogenetic inference within the Triticeae complex.     

A core genetic map of Hordeum chilense and comparisons with maps of barley (Hordeum vulgare) and wheat (Triticum aestivum)

The first genetic map of the wild South Ameri- can barley species Hordeum chilense is presented. The map, based on an F₂ population of 114 plants, contains 123 markers, including 82 RAPDs, 13 SSRs, 16 RFLPs, four SCARs, two seed storage proteins and two STS markers. The map spans 694 cM with an average distance of 5.7 cM between markers. Six additional SSRs and seven additional SCARs which were not polymorphic were assigned to chromosomes using wheat/H. chilense addition lines. Polymorphisms were revealed by 50% of the RAPD amplifications, 13% of wheat and barley SSR primers, and 78% of the Gramineae RFLP anchor probes. The utility of SSR and RFLP probes from other Gramineae species shows the usefulness of a comparative approach as a source of markers and for aligning the genetic map of H. chilense with other species. This also indicates that the overall structure of the H. chilense linkage groups is probably similar to that of the B and D genomes of wheat and the H genome of barley. Applications of the map for tritordeum and wheat breeding are discussed. Received: 20 August 2000 / Accepted: 22 September 2000     

Development and characterization of Hordeum chilense chromosome-specific STS markers suitable for wheat introgression and marker-assisted selection

 RAPD markers were developed for octoploid×Tritordeum (amphiploid Hordeum chilense×Triticum aestivum) and its parents. Addition lines were used to identify specific RAPD markers for the Hordeum chilense chromosomes detectable in a wheat background. Twelve RAPD fragments have been cloned, sequenced and converted into STS markers. Eleven of these STSs have maintained both the chromosome specificity and the possibility of detection in a wheat background. The use of these markers in multiplexed PCRs facilitates both the efficient and reliable screening of new addition lines as well as the monitoring of introgression of H. chilense in bread and durum wheat. Received: 5 June 1998 / Accepted: 17 September 1998     

Development of cost-effective Hordeum chilense DNA markers: molecular aids for marker-assisted cereal breeding

Hordeum chilense is a potential source of useful genes for wheat breeding. The use of this wild species to increase genetic variation in wheat will be greatly facilitated by marker-assisted introgression. In recent years, the search for the most suitable DNA marker system for tagging H. chilense genomic regions in a wheat background has lead to the development of RAPD and SCAR markers for this species. RAPDs represent an easy way of quickly generating suitable introgression markers, but their use is limited in heterogeneous wheat genetic backgrounds. SCARs are more specific assays, suitable for automatation or multiplexing. Direct sequencing of RAPD products is a cost-effective approach that reduces labour and costs for SCAR development. The use of SSR and STS primers originally developed for wheat and barley are additional sources of genetic markers. Practical applications of the different marker approaches for obtaining derived introgression products are described.     

Genome- and species-specific markers and genome relationships of diploid perennial species in Triticeae based on RAPD analyses.

Eight different genomes (E, H, I, P, R, St, W, and Ns) represented by 22 diploid species of the tribe Triticeae were analyzed using the random amplified polymorphic DNA (RAPD) technique. The genome relationships were obtained based on 371 RAPD fragments produced with 30 primers. The four species of the genus Psathyrostachys (having various Ns genomes) were closely related. The genomes Ee and Eb had a similarly close relationship and were distinct from all other genomes analyzed. Genomes P, R, and St were grouped in one cluster and genomes H and I in another. Genome W had a distant relationship with all other genomes. These results agree with the conclusions from studies of chromosome pairing and isozyme and DNA sequence analyses. Twenty-nine and 11 RAPD fragments are considered to be genome- and species-specific markers, respectively. One to six genome-specific markers were identified for each genome. These RAPD markers are useful in studies of genome evolution, analysis of genome composition, and genome identification.     

RAPD markers of mitochondrial origin exhibit lower population diversity and higher differentiation than RAPDs of nuclear origin in Douglas fir

We developed a method of screening RAPD markers for the presence of organelle DNA products using enriched organelle DNA probes, then used these markers to compare the structure of nuclear and mitochondrial RAPD diversity in Douglas fir. Of 237 screened RAPD fragments from 25 primers, 16% were identified as originating in the mitochondrial genome and 3% in the chloroplast genome. The mitochondrial DNA probe correctly distinguished fragments with known maternal inheritance (which is exclusive for the mitochondrial genome in the Pinaceae), and neither of the organelle probes hybridized to biparentally inherited fragments. Mitochondrial RAPD markers exhibited low diversity within populations compared to nuclear RAPD diversity ( H _S = 0.03 and 0.22, respectively), but were much more highly differentiated than were fragments of nuclear origin at both the population ( G _ST = 0.18 and 0.05, respectively) and racial levels ( G _ST = 0.72 and 0.25, respectively). Both nuclear and mitochondrial DNA based phylogenetic analyses identified the varieties as monophyletic groups; the nuclear RAPD markers further separated the north and south interior races.     

Molecular discrimination of six species of Bagrid catfishes from Indus river system using randomly amplified polymorphic DNA markers

Bagrid catfishes constitute a very important group of fishes having immense commercial importance in south-east countries. The phylogenetic relationships and genome specificity among six species of Bagrid catfishes (Mystus bleekeri, M. cavasius, M. vittatus, M. tengara, M. aor and M. seenghala) were investigated using RAPD markers as discriminating characters for the first time. 511 RAPD fragments were generated using ten decamer primers of arbitrary nucleotide sequences. Amplification reactions resulted in fragments ranging in length between 92 and 2,863 bp, which were assigned to 155 RAPD loci. Clearly resolved and repeatable bands were scored for their presence or absence in a binary matrix. Different RAPD profiles were observed for all the six Mystus species. In the present study three group diagnostic, eleven group exclusive and 18 species-specific markers were generated. Thus six Mystus species can be successfully differentiated on the basis of these 18 species-specific RAPD markers. UPGMA dendrogram constructed on the basis of genetic distance formed two distinct clusters, M. seenghala and M. aor form one separate cluster from other four species i.e., M. tengara, M. cavasius, M. bleekeri and M. vittatus. The inferences drawn from the above study clearly showed their genetic distinctness from the other four Mystus species and supported their inclusion into a separate genus, Sperata.     

Differentiation of two hemp nettle species (Galeopsis bifida Boenn. and G. tetrahit L.) inferred from morphological characters and DNA markers

Two species of the genus Galeopsis L., G. tetrahit L. and G. bifida (family Lamiaceae), are problematic to distinguish often wrongly recognized, and treated by some taxonomists as a single species. Morphological diagnostical characters of these species are variable and partly overlap. Species independence of G. tetrahit and G. bifida was evaluated and their diagnostic characters verified using ISSR and RAPD markers. A total of 57 ISSR and 28 RAPD fragments were obtained providing distinct subdivision of the accessions examined into two groups. Analysis of molecular data using the neighbor-joining method showed that the accessions studied fell into two clades in the same way as demonstrated by the analysis of 20 morphological characters using single linkage method. The morphological characters were found to be more variable compared to the molecular markers, although the combined of these characters provided differentiation of the species.     

RAPD Analysis and the Probable Evolutionary Route of Wild Relatives of Barley from China

he genetic relationships among 12 wild relatives and cultivar of barley ( Hordeum vulgare L.) as well as 1 perennial wild barley grass (H. brevisubulatum (Trin.) Link) from China were investigated by RAPD analysis. 36 out of 63 arbitrary primers produced 285 distinctive bands in total, 219 of which were polymorphic. Clearly resolved bands were treated as independent characters and scored for their presence or absence in a binary data matrix. Simple matching coefficients and Nei's similarity coefficients were calculated respectively. Dendrograms were generated by using the PHYLIP 3.5c software. The results revealed that the cultivated barley and their wild relatives from China were clustered into one group, among which, the two-rowed wild relatives of barley ( H. vulgare L. ssp. spontaneum (Koch) Hsü) and the six-rowed wild forms (H. vulgare L. ssp. agriocrithon (Aberg) Hsü) were respectively clustered into different subgroups. It was considered that wild relatives of barley from China were subspecies of H.vulgare. And it was proposed that the cultivated barley was originally evolved from the two-rowed wild barley. The retrogressive two-rowed wild barley and the bottle-shaped wild forms (H. vulgare L. ssp. agriocrithon var. lagunculiforme Bakht Hsü) were the intermediate types in the evolutionary route from the two-rowed wild barley to the six-rowed wild forms and eventually evolved to the cultivated barley.     

大麦1H特异性CAPs标记和ASA标记的创制

选取大麦1H染色体的STS标记MWG913特异性扩增小麦,把得到的片段进行克隆.用Taq酶切分类并测序,把得到的序列同大麦的序列进行比较.依据比较结果,选取对大麦特异的内切酶,用该酶来酶切大麦、小麦、黑麦、长穗偃麦草、中间偃麦草、簇毛麦的MWG913扩增产物,获得对大麦1H染色体特异的CAPs标记.同时,依据酶切位点碱基的差异设计引物对扩增的产物进行第二次扩增,得到该位点的一对染色体特异性ASA标记.     

Molecular mapping of the Oregon Wolfe Barleys: a phenotypically polymorphic doubled-haploid population

A phenotypically polymorphic barley (Hordeum vulgare L.) mapping population was developed using morphological marker stocks as parents. Ninety-four doubled-haploid lines were derived for genetic mapping from an F₁ using the Hordeum bulbosum system. A linkage map was constructed using 12 morphological markers, 87 restriction fragment length polymorphism (RFLP), five random amplified polymorphic DNA (RAPD), one sequence-tagged site (STS), one intron fragment length polymorphism (IFLP), 33 simple sequence repeat (SSR), and 586 amplified fragment length polymorphism (AFLP) markers. The genetic map spanned 1,387 cM with an average density of one marker every 1.9 cM. AFLP markers tended to cluster on centromeric regions and were more abundant on chromosome 1 (7H). RAPD markers showed a high level of segregation distortion, 54% compared with the 26% observed for AFLP markers, 27% for SSR markers, and 18% for RFLP markers. Three major regions of segregation distortion, based on RFLP and morphological markers, were located on chromosomes 2 (2H), 3 (3H), and 7 (5H). Segregation distortion may indicate that preferential gametic selection occurred during the development of the doubled-haploid lines. This may be due to the extreme phenotypes determined by alleles at morphological trait loci of the dominant and recessive parental stocks. Several molecular markers were found to be closely linked to morphological loci. The linkage map reported herein will be useful in integrating data on quantitative traits with morphological variants and should aid in map-based cloning of genes controlling morphological traits. Received: 23 August 2000 / Accepted: 15 December 2000     

Limitations of the RAPD technique in phylogeny reconstruction in Drosophila

In this study the limitations of the RAPD technique for phylogenetic analysis of very closely related and less related species of Drosophila are examined. In addition, assumptions of positional homology of amplified fragments in different species are examined by cross-hybridization of RAPD fragments. It is demonstrated that in Drosophila the use of RAPD markers is very efficient in identification of species. For assessment of phylogenetic relationships, however, the method is limited to sibling species, and reliable measures for genetic distances cannot be obtained. Hybridization experiments demonstrate that fragments of similar length amplified from different species are not always derived from corresponding loci, and that not all RAPD fragments within the same amplification pattern are independent.     

Detection of Polymorphic DNA and Taxonomic Relationships Among 10 Wild Perennial Soybean Species Using Specific and Arbitrary Nucleotide Primers

Polymorphic DNA in complex genomes of agronomic crops can be detected using specific nucleotide and arbitrary primers and the polymerase chain reaction (PCR). Nineteen accessions representing 10 species of the wild perennial soybean were evaluated using 4 sets of specific primers and 3 sets of random amplified polymorphic DNAs (RAPD) primers. The potential of the RAPD assays was further increased by combining two primers in a single PCR. The fragments generated by the two assays discriminated 10 wild species by banding profiles. The size of the amplified DNA fragments ranged from 100 to 2100 base pairs. The resolved PCR products yielded highly characteristic and homogeneous DNA fingerprints. The fingerprints were useful not only for investigating genetic variability but also for further characterizing the wild soybean species by detecting inter- and intra-specific polymorphisms, constructing dendrograms defining the phylogenetic relationships among these species, and identifying molecular markers for the construction of genetic linkage maps. Furthermore, unique markers distinguishing particular species were also identified. Thus, it is expected that PCR will have great relevance for taxonomic studies. This revised version was published online in July 2006 with corrections to the Cover Date.     

Marker development and characterisation of Hordeum bulbosum introgression lines: a resource for barley improvement

A set of 110 diploid putative introgression lines (ILs) containing chromatin introgressed from the undomesticated species Hordeum bulbosum L. (bulbous barley grass) into cultivated barley (Hordeum vulgare L.) has been identified using a high-copy number retrotransposon-like PCR marker, pSc119.1, derived from rye (Secale cereale L.). To evaluate these lines, 92 EST-derived markers were developed by marker sequencing across four barley cultivars and four H. bulbosum genotypes. Single nucleotide polymorphisms and insertions/deletions conserved between the two species were then used to develop a set of fully informative cleaved amplified polymorphic sequence markers or size polymorphic insertion/deletion markers. Introgressed chromatin from H. bulbosum was confirmed and genetically located in 88 of these lines using 46 of the EST-derived PCR markers. A total of 96 individual introgressions were detected with most of them (94.8%) extending to the most distal marker for each respective chromosome arm. Introgressions were detected on all chromosome arms except chromosome 3HL. Interstitial or sub-distal introgressions also occurred, with two located on chromosome 2HL and one each on 3HS, 5HL and 6HS. Twenty-two putative ILs that were positive for H. bulbosum chromatin using pSc119.1 have not had introgressions detected with these single-locus markers. When all introgressions are combined, more than 36% of the barley genetic map has now been covered with introgressed chromatin from H. bulbosum. These ILs represent a significant germplasm resource for barley improvement that can be mined for diverse traits of interest to barley breeders and researchers. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Seed-specific identification of Larix gmelinii,Larix olgensis,and Larix principis-rupprechtii using sequence-characterised amplified region markers

Larix gmelinii, Larix olgensis, and Larix principis-rupprechtii are the three native and sympatric larch species in North China, and each of these species has a distinctive ecological niche. It is difficult to identify them based only on certain morphological characters, particularly the seed appearance. In this study, the seed endosperms of these three larch species were analysed using the random amplified polymorphic DNA (RAPD) technique to screen for interspecific differences. The following three RAPD markers linked to species-specific segments were observed in the different species: 1475-bp (Larix gmelinii and L. olgensis), 505-bp (Larix principis-rupprechtii), and 1121-bp (Larix gmelinii) markers. The three seed-specific fragments amplified by the RAPD markers were sequenced, and the sequences were used to design and synthesise species-specific SCAR markers. The size of the SCAR fragments was concordant with that of the RAPD species-specific fragments. Therefore, these SCAR markers can be used to identify the seeds of different larch species, thereby providing a new molecular tool for the identification of larch seeds that leads to considerable savings in terms of time and economic resources.     

Molecular mapping of genes determining height, time to heading, and growth habit in barley (Hordeum vulgare).

A combination of random amplified polymorphic DNA (RAPD) and restriction fragment length polymorphism (RFLP) markers has been used to locate genes controlling important developmental characters in barley. The denso dwarfing gene has been mapped to the long arm of chromosome 3H. Stepwise multiple regression was also used to identify another region of the barley genome (on chromosome 7H), which contributed to variation in height. The denso locus was shown to be associated with delaying time to heading. A protein (WSP2) and an RAPD marker on barley chromosomes 5H and 6H, respectively, were also associated with time to heading. These results are discussed in relation to the genetic analysis of developmentally important traits and the development of dwarfing genes in barley breeding programs.