Development and validation of genomic simple sequence repeat markers in <Emphasis Type="Italic">Erianthus arundinaceus</Emphasis>

Erianthus arundinaceus, a member of the Saccharum complex, is of interest as a potential resource for sugarcane improvement and as a bioenergy crop. Genetic analyses of germplasm collections of E. arundinaceus are being used increasingly. To expand the genomic resources in E. arundinaceus, we aimed at developing simple sequence repeat markers. Using pyrosequencing on the 454 GS FLX system, we sequenced genomic DNA from “JW630” collected in Japan. A total of 1682 candidate loci were used to design the primers, and 1234 primer pairs amplified fragments of the expected size in the primer screening with three wild E. arundinaceus accessions (JW630, “JW4,” and “IJ76-349”). The efficiency of genotyping was validated with a subset of 174 primer pairs and 8 E. arundinaceus accessions. Of these primer pairs, 171 amplified fragments in all accessions tested and 162 detected polymorphic loci. The average values of genetic parameters were estimated as 0.30 (range, 0.09–0.49) for polymorphic information content, 1.65 (0.00–5.87) for marker index, and 2.78 (0.00–8.75) for resolving power. Using these parameters, we selected 61 primer pairs with large discriminatory power for the analyzed loci. Of the 174 primer pairs, 45 (25.9%) were also applicable to Saccharum and 33 (19.0%) to Miscanthus species. These markers would provide a valuable tool for estimating genetic diversity and constructing linkage maps in E. arundinaceus, which would be useful for genetic study and breeding.     

Development of polymorphic microsatellite from RAPD bands of black sea bream Acanthopagrus schlegeli

Eight pairs of simple sequence repeat markers were developed from random amplified polymorphic DNA product in black sea bream Acanthopagrus schlegeli. Twenty microsatellites were selected for designing microsatellite primers, of which eight gave working primer pairs. They had between three and seven alleles. Observed and expected heterozygosities varied from 0.65 to 0.90, and from 0.58 to 0.82, respectively. Eight additional fish species assessed for cross‐species amplification revealed between two and five positive amplifications and between zero and three polymorphic loci per species.     

Characterization of microsatellite loci in the brown treecreeper (Climacteris picumnus) and cross‐species amplification in the white‐throated treecreeper (Cormobates leucophaeus)

Eight polymorphic microsatellite markers were developed for the brown treecreeper, Climacteris picumnus. The number of alleles ranged from three to 25 per locus with observed heterozygosities between 0.05 and 0.76. Seven of the eight primer pairs also amplified polymorphic microsatellite loci in the white‐throated treecreeper (Cormobates leucophaeus). These markers are likely to be useful for population genetic and parentage studies in any of the Australasian treecreepers (Climacteridae) and are the first genetic markers developed for any member of this passerine family.     

Evaluating the potential of barley and wheat microsatellite markers for genetic analysis of<Emphasis Type="Italic"> Elymus trachycaulus</Emphasis> complex species

The potential of barley and wheat microsatellite markers for genetic analysis of Elymus trachycaulus complex species was evaluated. A set of 25 barley and 3 wheat microsatellite markers were tested for their ability to cross-amplify DNA from four accessions of E. trachycaulus and two accessions Pseudoroegneria spicata. Thirteen barley (52%) and two (68%) wheat primer pairs successfully amplified consistent products from both E. trachycaulus and P. spicata species. Four of the 15 successful primer pairs produced visible polymorphisms among the accessions tested. A higher successful rate of cross-species amplification of barley and wheat microsatellite markers in E. trachycaulus and P. spicata was found in this study. These primer pairs are now available for use as markers in genetic analysis of E. trachycaulus complex species. Our results suggest that publicly available wheat and barley microsatellite markers are a valuable resource for the genetic characterization of wild Triticeae species.     

Identification and characterization of RAPD–SCAR markers linked to glyphosate-susceptible and -resistant biotypes of Eleusine indica (L.) Gaertn

Eleusine indica is one of the most common weed species found in agricultural land worldwide. Although herbicide-glyphosate provides good control of the weed, its frequent uses has led to abundant reported cases of resistance. Hence, the development of genetic markers for quick detection of glyphosate-resistance in E. indica population is imperative for the control and management of the weed. In this study, a total of 14 specific random amplified polymorphic DNA (RAPD) markers were identified and two of the markers, namely S4R727 and S26R₆976 were further sequence characterized. Sequence alignment revealed that marker S4R727 showing a 12-bp nucleotides deletion in resistant biotypes, while marker S26R₆976 contained a 167-bp nucleotides insertion in the resistant biotypes. Based on these sequence differences, three pairs of new sequence characterized amplified region (SCAR) primers were developed. The specificity of these primer pairs were further validated with genomic DNA extracted from ten individual plants of one glyphosate-susceptible and five glyphosate-resistant (R2, R4, R6, R8 and R11) populations. The resulting RAPD–SCAR markers provided the basis for assessing genetic diversity between glyphosate-susceptible and -resistant E. indica biotypes, as well for the identification of genetic locus link to glyphosate-resistance event in the species.     

Isolation and characterization of microsatellite DNA markers for spinner dolphin (<Emphasis Type="Italic">Stenella longirostris</Emphasis>)

Practically no studies on the population genetics of the spinner dolphin (Stenella longirostris) exist. Seventeen pairs of DNA primers, cloned from an Mbo I digestion of S. longirostris liver DNA, were selected from a total of 288 sequences. Eight polymorphic microsatellite DNA markers were selected from the 17 primer pairs following amplification of DNA from skin samples of 65 spinner dolphins. Characterization of the polymorphisms revealed between three and nine alleles per loci. The observed heterozygosity ranged from 0 to 0.6032, while the expected heterozygosity ranged from 0.5834 to 0.73. Seven of the eight designed primer pairs amplified DNA from three other delphinid species. There was a marked low observed heterozygosity in the spinner dolphin suggesting a high level of inbreeding within this species in the southern Atlantic.     

Molecular Phylogeny Analysis and Species Identification of Dendrobium (Orchidaceae) in China

Dendrobium plants are important commercial herbs in China, widely used in traditional medicine and ornamental horticulture. In this study, sequence-related amplified polymorphism (SRAP) markers were applied to molecular phylogeny analysis and species identification of 31 Chinese Dendrobium species. Fourteen SRAP primer pairs produced 727 loci, 97% of which (706) showed polymorphism. Average polymorphism information content of the SRAP pairs was 0.987 (0.982–0.991), showing that plenty of genetic diversity exists at the interspecies level of Chinese Dendrobium. The molecular phylogeny analysis (UPGMA) grouped the 31 Dendrobium species into six clusters. We obtained 18 species-specific markers, which can be used to identify 10 of the 31 species. Our results indicate the SRAP marker system is informative and would facilitate further application in germplasm appraisal, evolution, and genetic diversity studies in the genus Dendrobium.     

Genetic diversity and geographic distribution of variation of Hordeum murinum as revealed by retroelement insertional polymorphisms in Iran

Hordem murinum is a widespread weedy/wild species, growing in different ecological conditions in Iran. Populations of H. murinum subsp. glaucum (2n = 2x = 14) and subsp. leporinum (2n = 4x, 6x = 28, 42) are found in this region. Inter-retroelement amplified polymorphism (IRAP) markers were used to analyse the genetic diversity of 57 accessions of H. murinum from different regions of Iran, and to examine patterns of diversity related to the taxonomy and geography. Eight IRAP primer combinations amplified a total of 241 distinct DNA fragments sized 150-1400 bp, from which 236 (97.9%) were polymorphic. On average, each primer combination amplified about 30.12 fragments (ranged from 23 to 34) in PCR. The patterns of genetic diversity were closely correlated with taxonomic groups, ploidy levels and geographic origin. Along with the high genetic diversity, three geographic sub-genepools were evident, 1: in the North-Northeast region along the Alborz Mountains, 2: in the West-Northwest region along the Zagros Mountains, and 3: in the Central — Southern region. The genetic diversity in diploids was higher than polyploids. Also genetic diversity in W-NW region along the Zagros Mountains was considerably higher than that of the other regions.     

Effectiveness of ISSR markers for determination of the Aneura pinguis cryptic species and Aneura maxima

Aneura pinguis and Aneura maxima belong to the simple thalloid liverworts. Previous isozyme studies revealed that A. pinguis is a complex of cryptic species difficult to distinguished based on morphology. In the present study four cryptic species of the A. pinguis complex and A. maxima were examined by means of ISSR method to assess genetic variation and to develop species-specific markers. Eight ISSR primers used generated 460 bands, of which 453 were polymorphic. The highest values of resolving power 28.4 and marker index 18.1 were noted for primer 835 (AG)₈-YC, while polymorphism information content for primer 842 (GA)₇-AYG. The total gene diversity (H_T) based on polymorphic loci was 0.284 for A. pinguis and 0.06 for A. maxima. ISSR markers supported existence of cryptic species in A. pinguis and showed genetic isolation between them. Species-specific bands were found for all studied cryptic species of A. pinguis and A. maxima, thus ISSRs can be used for their identification. A. maxima clearly differ from all the A. pinguis cryptic species in each amplified ISSR primer. The AMOVA conducted for the A. pinguis complex showed that most of genetic variation (Φ_PT 0.586) was present among species.     

Development of microsatellite markers for the neotropical tree species Dipteryx alata (Fabaceae)

? Premise of the study: Microsatellite markers were developed for the population genetic analyses of the neotropical tree Dipteryx alata (Fabaceae). ? Methods and Results: Microsatellites were developed from a genomic shotgun library. Polymorphism at each microsatellite loci was analyzed based on 94 individuals from three populations. Eight loci amplified successfully and presented one to 10 alleles, and expected heterozygosities ranged from 0.097 to 0.862. Four loci also amplified in Pterodon emarginatus and presented similar polymorphism. ? Conclusion: The eight microsatellite primer pairs are potentially suitable for population genetic studies and successfully amplified in another Fabaceae species.     

Genetic diversity of endangered Manglietia patungensis assessed by inter simple sequence repeat and sequence-related amplified polymorphism markers

Manglietia patungensis Hu is an endangered plant native to China. Knowledge of its genetic diversity and structure would aid its conservation. This study assessed nine natural populations of M. patungensis using two methods: inter simple sequence repeat (ISSR) and sequence-related amplified polymorphism (SRAP) markers. Using 10 ISSR primer pairs, 334 bands were generated, and 10 SRAP primer pairs generated 276 bands. The percent of polymorphic bands (91.32% and 93.48%), Nei's genetic diversity (0.3448 and 0.3323), and Shannon's information index (0.5075 and 0.4935) revealed a high level of genetic diversity at the species level. Total heterozygosity was 0.3439 by ISSR and 0.3281 by SRAP. The mean heterozygosity was 0.2323 by ISSR and 0.2521 by SRAP. The coefficient of genetic differentiation among natural populations was 0.3245 by ISSR and 0.2316 by SRAP. These data indicated higher levels of genetic diversity of M. patungensis within, rather than among, populations. Estimates of gene flow among natural populations were 1.0411 and 1.0589, which implied a certain amount of gene exchange among populations. A Mantel test revealed no significant correlation between genetic and geographic distance. ISSR and SRAP markers are both effective for genetic diversity research in M. Patungensis. Based on these results, conservation of M. patungensis should be performed both in situ and ex situ.     

Development of retrotransposon-based molecular markers and their application in genetic mapping in chokecherry (<Emphasis Type="Italic">Prunus virginiana</Emphasis> L.)

Retrotransposons are the largest group of transposable elements (TEs) that are ubiquitous and well dispersed in plant genomes. Transposition/insertion of TEs on chromosomes often generates unique repeat junctions (RJs) between TEs and their flanking sequences. Long terminal repeats (LTR) are well conserved and abundant in plant genomes, making LTR retrotransposons valuable for development of TE junction-based markers. In this study, LTR retrotransposons and their RJs were detected from chokecherry genome sequences generated by Roche 454 sequencing. A total of 1246 LTR retrotransposons were identified, and 338 polymerase chain reaction primer pairs were designed. Of those, 336 were used to amplify DNA from chokecherry and other rosaceous species. An average of 283 of 336 (84.2 %) LTR primer pairs effectively amplified DNA from chokecherries. One hundred and seventeen chokecherry LTR primers also produced amplification in other Prunus (99) or rosaceous species (19). A total of 59 of 78 polymorphic LTR markers were qualified for linkage map construction according to the segregation distortion Chi-square (χ ²) test. Forty-eight LTR markers were successfully located on a previously constructed chokecherry map. The majority of the LTR markers were mapped on LG XI of the chokecherry map. Our results suggest that LTR marker development using random genome sequences is rapid and cost-efficient. Confirmed applicability of LTR markers in map construction and genetic mapping will facilitate genetic research in chokecherry and other rosaceous species.     

Evidence for a low level of genomic specificity of sequence-tagged-sites in Stylosanthes

Genome-specific DNA markers are of great value in many applications. Recent work on different plants and animal species indicated that PCR- (polymerase chain reaction) based genetic marker systems using specific primers are highly genome-specific. To test the genome specificity of sequence-tagged-sites (STSs) as genetic markers in Stylosanthes, 20 pairs of primers were generated. Fifteen were from randomly selected single-copy Pstl genomic clones, and the other five were from two known gene sequences. These primer pairs were analysed against a set of 24 genotypes representing 12 different Stylosanthes species. Thirteen of these primer pairs amplified successfully. Overall, there was a low level of genome specificity, suggesting a low degree of genomic divergence within this group of Stylosanthes species. Of the 312 entries (24 genotypes by 13 primer pairs), PCR amplifications were unsuccessful (little or no products) in only 16 cases. The number of banding patterns detected by each of these primer pairs varied from 2 to 12 with an average pair-wise polymorphism of 44.3%. The level of intraspecific variation detected on normal agarose gels was only 3.8%. Further evidence that diploid S. hamata and diploid S. humilis are progenitors of tetraploid S. hamata and that S. viscosa is a progenitor of S. scabra, was obtained.     

Isolation and characterization of microsatellite loci in Penstemon rostriflorus (Plantaginaceae) and cross‐species amplification

Eight novel microsatellite primer pairs are presented for Penstemon rostriflorus, representing the first microsatellite markers available for this genus. Loci were characterized for 20 individuals from two populations in the Great Basin, USA. All loci are polymorphic within P. rostriflorus (seven to 13 alleles per locus; observed heterozygosity between 0.40 and 0.95), and therefore useful for population genetic studies within the species. Cross‐species transferability was tested on 40 additional species of Penstemon, and results indicate that these primers pairs will likely be useful for population genetic studies on many Penstemon species.     

Microsatellite markers for genome analysis in Brassica. I. development in Brassica napus and abundance in Brassicaceae species

One hundred and twenty one microsatellites were identified by screening a λ phage library of Brassica napus. The distribution of these microsatellites within Brassicaceae species was estimated using 81 locus-specific primer pairs. Most of them (83%) amplified fragments either from Brassica oleracea or Brassica campestris, or from both species, whereas less than 30% detected loci in Brassica nigra. The same was true (30–35%) for more-distantly related crucifer species such as Diplotaxis ssp., Brassica tournefortii, Sinapis alba, Raphanus sativus and Eruca sativa. Only 16 microsatellite-specific primer pairs (19.8%) amplified fragments from Arabidopsis thaliana. Moreover, 61 of the primer pairs detecting 198 polymorphisms were used to estimate the extent of genetic diversity among 32 Brassica napus varieties and breeding lines. On average, four alleles per locus were observed. The spring and winter types of oilseed rape could be clearly distinguished by using the microsatellite markers in a cluster analysis. The results demonstrated the high efficiency of these markers for monitoring genetic diversity. Received: 14 April 2000 / Accepted: 3 July 2000     

DNA segments mapped by reciprocal use of microsatellite primers between mouse and rat

Rat microsatellite primers were used for detection of homologous DNA segments in the mouse species (Mus laboratorius, Mus musculus musculus, and Mus spretus). Twenty five (16.3%) of 153 rat primer pairs amplified specific DNA segments, when genomic DNA of mice was used as a template in the polymerase chain reaction (PCR). Size variation among inbred strains of mice was found for 13 DNA segments (8.5%). Eight out of the 13 polymorphic DNA segments were mapped to a particular chromosome with two sets of recombinant inbred strains, AKXL or BXD. Similarly, mouse microsatellite primers were used for detection of homologous DNA segments in rats (Rattus norvegicus). Twenty (12.0%) of 166 primer pairs amplified specific DNA segments from rat genome. Size variation among inbred strains of rats was found for seven DNA segments (4.2%). Eleven of these 20 DNA segments were mapped with a rat x mouse somatic cell hybrid clone panel and/or linkage analysis by use of backcross progeny. Our results suggest that the mapped DNA segments are really homologs between mouse and rat. These polymorphic DNA segments are useful genetic markers.     

Conversion of AFLP markers to sequence-specific markers for closely related lines in rice by use of the rice genome sequence

DNA polymorphism between two major japonica rice cultivars, Nipponbare and Koshihikari, was identified by AFLP. Eighty-four polymorphic AFLP markers were obtained by analysis with 360 combinations of primer pairs. Nucleotide sequences of 73 markers, 29 from Nipponbare and 44 from Koshihikari, were determined, and 46 AFLP markers could be assigned to rice chromosomes based on sequence homology to the rice genome sequence. Specific primers were designed for amplification of the regions covering the AFLP markers and the flanking sequences. Out of the 46 primer pairs, 44 amplified single DNA fragments, six of which showed different sizes between Nipponbare and Koshihikari, yielding codominant SCAR markers. Eight primer pairs amplified only Nipponbare sequences, providing dominant SCAR markers. DNA fragments amplified by 13 primer pairs showed polymorphism by CAPS, and polymorphism of those amplified by 13 other primer pairs were detected by PCR-RF-SSCP (PRS). Nucleotide sequences of the other four DNA fragments were determined in Koshihikari, but no difference was found between Koshihikari and Nipponbare. In total, 40 sequence-specific markers for the combination of Nipponbare and Koshihikari were produced. All the SNPs identified by AFLP were detectable by CAPS and PRS. The same method was applicable to a combination of Kokoromachi and Tohoku 168, and 23 polymorphic markers were identified using these two rice cultivars. The procedure of conversion of AFLP-markers to the sequence-specific markers used in this study enables efficient sequence-specific marker production for closely related cultivars.