Structured diversity using EST-PCR and EST-SSR markers in a set of wild blueberry clones and cultivars

Blueberries are perennial, vegetatively propagated out-crossing shrubs with great potential of health benefits. In tetraploid blueberry (Vaccinium spp.), genetic analyses have focused more on diversity, whereas genetic structure has been studied less extensively. This study investigated the genetic structure and diversity in 28 wild clones, six cultivars and two selections of lowbush, half-high and highbush blueberries. Summary statistics, structure estimation and clustering by neighbour-joining (NJ), principal coordinate analysis (PCoA) and by the analysis of molecular variance (AMOVA), using 10 expressed sequence tag-polymerase chain reaction (EST-PCR) and two EST-simple sequence repeat (SSR) primer pairs, were performed to characterize and discriminate the genotypes. A total of 213 markers were detected. Wide genetic diversity was evident from high values of expected heterozygosities, Shannon's index and polymorphism information content, and from AMOVA. Structure analysis subdivided the lowbush blueberries into three distinct groups leaving the half-high and highbush blueberries into one cluster which was in agreement with the NJ clustering and PCoA. Twelve EST-primer pairs efficiently differentiated wild and cultivated blueberries, making this technology valuable for genome mapping and for long-term conservation of blueberry resources for the benefit of germplasm conservation and breeding purposes.     

Genetic Diversity of Iranian Accessions,Improved Lines of Chickpea (<Emphasis Type="Italic">Cicer arietinum L.</Emphasis>) and Their Wild Relatives by Using Simple Sequence Repeats

Biodiversity information in available germplasm is very useful for the success of any breeding program. To establish genetic diversity among 44 genotypes of chickpea comprising cultigen, landraces, internationally developed improved lines and wild relatives, genetic distances were evaluated using 19 simple sequence repeat markers with 100 marker loci. Estimation of the number of alleles per locus (n _a), the effective allele number (n _e), and Wright fixation index F were 6.25, 3.67, and 0.44, respectively. Polymorphism information content values ranged from 0.84 (locus NCPGR6 and TA135) to 0.44 (locus NCPGR7) with an average of 0.68. Dice’s coefficient similarity matrix for studied chickpea genotypes varied from 0.07 to 1.0 indicating a broader genetic base among genotypes studied. The highest similarity, 1.0, was observed between genotypes Sel 96TH11484 and Sel 96TH11485; while, the lowest, 0.07, was observed between genotypes Sel 95TH1716 and Azad. Based on the UPGMA clustering method, all genotypes were clustered in eight groups, which indicated the probable origin and region similarity of landraces and local Iran landraces over the other cultivars and wild species. It also represents a wide diversity among available germplasm. Analysis of molecular variance revealed that 41% of the total variance was due to differences among groups while 59% was due to differences within groups. The results of principal coordinate analysis approximately corresponded to those obtained through cluster analysis. Genetic variation detected in this study can be useful for selective breeding for specific traits and in enhancing the genetic base of breeding programs.     

Genetic relationships among cherry species with transferability of simple sequence repeat loci

Sweet and sour cherries are two economically important species in the world. The capability to distinguish among cherry genotypes in breeding, cultivation and germplasm collection is extremely important for scientific as well as economic reasons. In the present research, sixteen simple sequences repeat (SSR) loci were used to estimate the relationships among sweet, sour, duke and wild cherries. All of the SSR markers showed high transferability across the studied species that allowed us to study genetic diversity in them. Totally 96 alleles were generated with SSR loci, of which 93 were found polymorphic with 97.57 % polymorphism. Values of genetic similarity between genotypes varied from 0.16 to 0.97 which indicated high level of genetic diversity. On the basis of their genetic similarities, SSR analysis allowed to group the genotypes into three main clusters according to their species. These results have an important implication for cherry germplasm characterization, improvement, and conservation.     

Genetic differentiation of wild and cultivated Lens based on molecular markers

Genetic diversity among 83 lentil genotypes including 23 wild types, 19 indigenous varieties, 5 exotic lines and 36 advanced breeding lines was studied using molecular markers. A total of 112 amplicons were produced using 15 RAPD and 8 SSR markers. Dendrogram based on Jaccard similarity coefficient and UPGMA analysis revealed two major clusters and one minor cluster. Cluster I comprised 21 wild accessions of L. orientalis and 1 L. ervoides subspecies. Nineteen Indian varieties grouped together in subcluster IIA indicating their narrow genetic base. Subcluster IIB consisted of 41 genotypes including 5 exotic and 36 advanced breeding lines mainly derived from exotic genotypes. The narrow genetic base of released cultivars and germplasm lines emphasized the need for broadening of genetic base of breeding material using exotic collections and wild species to ascertain genetic improvement upon existing cultivars.     

Differentiation of <Emphasis Type="Italic">Vaccinium</Emphasis> Cultivars and Wild Clones Using RAPD Markers

The potential use of the random amplified polymorphic DNA (RAPD) technique for characterization and assessment ofgenetic relatedness was investigated in 13 wild cranberry (Vaccinium macrocarpon Ait) clones collected from Newfoundlandand Labrador, Canada. RAPD markers were also used to distinguish representatives of three different Vaccinium species.Twenty-two decamer arbitrary primers yielded informative, reproducible and polymorphic banding patterns in 13 cranberryclones and produced a total of 134 bands, of which 114 were polymorphic. The UPGMA cluster analysis separated the clonesinto two main groups: Cluster I of seven and Cluster II of six with 0.62 to 0.91 and 0.50 to 0.77 Nei and Li’s similarity range,respectively. In another experiment, a subset of eight primers was used and the RAPD markers discriminated the threeVaccinium species: cranberry, lowbush blueberry (V. angustifolium Ait) and lingonberry (V. vitis-idaea L). The RAPDpolymorphisms will be useful for Vaccinium genotype differentiation and the technology should be valuable for themaintenance of germplasm banks and the efficient choice of parents in the current Vaccinium germplasm improvementprogram.     

蓝浆果栽培产业化中的种质创新研究

在查阅大量文献资料的基础上,对蓝浆果(Vaccinium spp.)从野生到栽培、由家庭式栽培发展为产业化栽培过程中种质的选择、适应与创新的研究成果进行了归纳和综述。简要概述了越桔属(Vaccinium L.)植物的种质资源状况,重点阐述了蓝浆果重要品种的特性及育种目标的发展变化,归纳总结了蓝浆果的育种方法及所取得的成就,展望了中国蓝浆果育种的发展前景,并对蓝浆果育种研究提出了一些建议。认为在蓝浆果品种改良及育种工作中,生态适应性、抗病虫性及大果型优质品种是今后育种研究的重点。     

Developing an appropriate strategy to assess genetic variability in plant germplasm collections

 The value of molecular biology for monitoring the genetic status of germplasm collections is subject to practical limitations. The large number and variability of accessions held usually dictates the approach that can be employed. A quick, simple but reliable molecular protocol must be combined with an appropriate strategy for handling large sample sizes. In this study, ISSR-PCR was used to reveal genetic variability within and between accessions held in a collection of lupin germplasm. Pooling of DNA from individuals within accessions was found to be the most appropriate strategy for assessing large quantities of plant material. Band profiles generated from pools containing five individuals were fully representative of all constituent individuals used in the mix. Pools comprising 10 or 20 individuals, however, sometimes failed to contain minor bands that had been present only in the profile of one individual. Variation was observed between pools containing five different genotypes from the same accession. Routine large-scale screens are required to assess the genetic diversity and homogeneity of the lupin germplasm collection held in Reading. It is concluded that 2–3 pools of five genotypes may be sufficient to represent the genetic variability within and between accessions in the lupin and similar collections. Received: 10 August 1998 / Accepted: 13 November 1998     

New microsatellite markers for bananas (Musa spp)

Thirty-four microsatellite markers (SSRs) were identified in EST and BAC clones from Musa acuminata burmannicoides var. Calcutta 4 and validated in 22 Musa genotypes from the Banana Germplasm Bank of Embrapa-CNPMF, which includes wild and improved diploids. The number of alleles per locus ranged from 2 to 14. The markers were considered highly informative based on their polymorphism information content values; more than 50% were above 0.5. These SSRs will be useful for banana breeding programs, for studies of genetic diversity, germplasm characterization and selection, development of saturated genetic linkage maps, and marker assisted selection.     

基于SSR标记的越橘亲缘关系分析及品种鉴定

利用SSR标记对22个越橘栽培品种进行遗传差异及亲缘关系分析,并建立一套稳定的越橘品种鉴定体系,以期为越橘种质资源评价、鉴定、管理及越橘新品种培育奠定基础。本试验优化了一套越橘SSR-PCR反应体系,筛选出15个条带清晰、重复性好、多态性高的SSR标记,对22个越橘栽培品种进行亲缘关系分析,聚类结果与各品种的遗传背景以及表型呈现高度的一致性。从以上15个SSR标记中筛选出可用于越橘品种鉴定的SSR核心引物NA961和NA1040,核心引物组合能够完全区分22个越橘品种。用核心引物制作了参照分子量标记,构建了22个越橘品种的指纹图谱,建立了一套完整的越橘品种鉴定体系。实践验证SSR标记用于越橘品种鉴别的方法可行、结果可靠。     

Genetic relationship among wild,landraces and cultivars of hazelnut (Corylus avellana) from Portugal revealed through ISSR and AFLP markers

The genus Corylus, a member of the birch family Betulaceae, includes several species that are widely distributed throughout temperate regions of the Northern Hemisphere. This study assesses the genetic diversity in 26 international cultivars and 32 accessions of Corylus avellana L. from Portugal: 13 wild genotypes and 19 landraces. The genetic relationships among the 58 hazelnuts (Corylus avellana L.) were analyzed using inter simple sequence repeat (ISSR) and amplified fragment length polymorphism (AFLP) markers. Eighteen ISSR primers and seven AFLP primer pairs generated a total of 570 unambiguous and repeatable bands, respectively, from which 541 (95.03 %) were polymorphic for both markers. Genetic similarity index values ranged from 0.239 for wild types and cultivars to 0.143 for landraces and wild types. The genetic relationships were presented as a Neighbor-Joining method dendrogram and a two-dimensional principal coordinate analysis (PCoA) plot. The Neighbor-Joining dendrogram showed three main clusters, and the PCoA analysis has shown to be congruent with the hierarchical analysis. Bayesian analysis clustered all individuals into three groups showing a good separation among wild genotypes, landraces and cultivars. The genetic diversity found on wild genotypes and Portuguese landraces may provide relevant information for the diversity conservation and it will be useful in breeding programs and to identify local selections for preservation.     

Genetic diversity in selected, historical US sugarbeet germplasm and Beta vulgaris ssp. maritima

 Diversity among sugar beet accessions released over the first 50 years of public breeding in the United States was examined to ascertain a baseline of genetic diversity and to gauge the effect of breeding on the loss or gain of diversity over this time period. Accessions were chosen as released germplasm from the major breeding stations contributing to the US germplasm pool and their presumed ancestors from Europe, including representatives for the wild forms Beta vulgaris ssp. maritima. Sixty nine polymorphic RAPD fragments were used for gene frequency analysis, and heterozygosity was determined within and among groups of accessions related either by breeding station or simply inherited agronomic characters for monogerm seed and restoration of fertility in a cytoplasmic male-sterile background. In general, heterozygosity within releases declined with time, but total genetic diversity in the US germplasm pool remained constant. Breeding for the agronomic characters had a marked influence in reducing diversity. Received: 20 October 1998 / Accepted: 28 October 1998     

Genetic diversity analysis of isolates of the fungal bean pathogen Pseudocercospora griseola from central and southern Brazil

Planting resistant varieties is the most effective control measure against the angular leaf spot of dry beans, a fungal disease caused by Pseudocercospora griseola. However, dry bean varieties with durable resistance are not easily obtained. Knowledge about the genetic variability of the pathogen population is key for the success of dry bean breeding programs aimed at developing resistant materials, but finding suitable operationally simple and genetically accurate markers is not an easy task. The aim of this study was to assess the suitability of the ISSR-PCR technique to quantify the genetic variability of P. griseola isolates. Total DNA of 27 P. griseola isolates from Goiás, Minas Gerais, Espírito Santo, and Paraná States was extracted and amplified using specific primers for ISSR. Using cluster analysis, 27 genotypes were identified. The ISSR-PCR technique was suitable for assessing intraspecific variability of P. griseola. The ISSR-PCR marker was found to be highly sensitive to genetic variation and can aid in elucidating the genetic structure of the population of this plant pathogen as a support tool for the dry bean breeding programs.     

Evaluating Agronomic Performance and Investigating Molecular Structure of Drought and Heat Tolerant Wild Alfalfa (<Emphasis Type="Italic">Medicago sativa</Emphasis> L.) Collection from the Southeastern Turkey

Drought is a major stress factor for agricultural production including alfalfa production. One way to counterbalance the yield losses is the introgression of drought tolerant germplasm into breeding programs. As an effort to exploit such germplasm, 16 individual plants were selected from the Southeastern Turkey from their natural habitat and clonally propagated in field trials with an ultimate goal to use the germplasm as parents for releasing a synthetic cultivar. Forage yield and forage quality traits were evaluated and molecular genetic diversity among genotypes were determined using inter simple sequence repeat markers. Genotypes showed a variation from growth habit to yield and quality traits indicating sufficient phenotypic variation for diverse breeding efforts (for grazing or harvesting) and long term selection schemes. A large amount of genetic variation was observed even with a limited number of marker and genotypes. However, no pattern of spatial genetic structure was observed for the scale of the study when genetic variation is linked to the geographic origin. We conclude that ex situ natural variation provides a wealth of germplasm that could be incorporated into breeding programs aiming to improve drought tolerance. We also suggest an extensive collection of seeds/plant tissue from unique plants with desirable traits rather than putting more efforts to create a spatial germplasm sampling efforts in narrow regions.     

Establishment of a quasi-field trial in <Emphasis Type="Italic">Abies nordmanniana</Emphasis>—test of a new approach to forest tree breeding

This study used DNA markers to establish a quasi-field trial within a production Christmas tree stand produced from seed collected in an open-pollinated clonal seed orchard (CSO). A total of 660 offspring from the CSO, which comprised 99 clones of Abies nordmanniana, were genotyped with 12 microsatellites. Parentage was assigned successfully to 93% and 98% of the progeny at 95% and 80% confidence, respectively. The assignment rate declined only to 90% when the number of markers was reduced to 10. The distribution of parentage to the offspring among the CSO clones was highly skewed. The most successful clone was assigned as parent in 7% of the cases, and only 92 of the 119 potential parental genotypes were assigned as parents. The obtained pedigree was used to estimate breeding values for the CSO clones for five characters relevant for Christmas tree breeding. For high-heritability traits, such as flushing, accurate breeding values could be estimated for a considerable proportion of the clones. To estimate breeding values for low-heritability traits, such as Christmas tree quality score, more genotyped offspring will be required. The largest drawback of the method is the highly skewed distribution of parentage among the parents in the seed orchards, making it difficult to calculate breeding values for all clones. The approach seems well suited for tree breeding that puts more emphasis on pure selection of parental genotypes and less on estimating quantitative genetic parameters.     

SRAP analysis of genetic diversity of nine native populations of wild sugarcane, Saccharum spontaneum, from Sichuan, China

Saccharum spontaneum is a wild sugarcane species that is native to and widely distributed in China. It has been extensively used in sugarcane breeding programs, and is being tested for the development of bioenergy cultivars. In order to provide basic information for the exploitation of this species, we analyzed genetic variation among and within native S. spontaneum populations collected from Sichuan, China. Eighty plants from nine native populations were sampled. Twenty-one sequence-related amplified polymorphism primer pairs generated 235 clearly scorable bands, of which 185 were polymorphic (78.7%). Nei's genetic diversity was 0.2801 and Shannon's information index was 0.4155 across the populations. Genetic diversity parameters, G(ST) value (0.2088) and N(m) value (1.8944), showed that the genetic variation within populations was greater than that among populations. In the cluster analysis, one major grouping was formed by populations from Ya'an and another one by populations from Sichuan basin; a population from Baoxing formed a single cluster. In order to fully comprehend the genetic diversity of cold-tolerant local germplasm in this species, germplasm should be collected from the heterogeneous environments along the northern regions of this species' distribution. The germplasm that we collected should be a valuable resource for Saccharum breeding.     

Population structure of the wild soybean (Glycine soja) in China: implications from microsatellite analyses

Background and Aims Wild soybean (Glycine soja), a native species of East Asia, is the closest wild relative of the cultivated soybean (G. max) and supplies valuable genetic resources for cultivar breeding. Analyses of the genetic variation and population structure of wild soybean are fundamental for effective conservation studies and utilization of this valuable genetic resource. Methods In this study, 40 wild soybean populations from China were genotyped with 20 microsatellites to investigate the natural population structure and genetic diversity. These results were integrated with previous microsatellite analyses for 231 representative individuals from East Asia to investigate the genetic relationships of wild soybeans from China. Key Results Analysis of molecular variance (AMOVA) revealed that 43·92 % of the molecular variance occurred within populations, although relatively low genetic diversity was detected for natural wild soybean populations. Most of the populations exhibited significant effects of a genetic bottleneck. Principal co-ordinate analysis, construction of a Neighbor-Joining tree and Bayesian clustering indicated two main genotypic clusters of wild soybean from China. The wild soybean populations, which are distributed in north-east and south China, separated by the Huang-Huai Valley, displayed similar genotypes, whereas those populations from the Huang-Huai Valley were different. Conclusions The previously unknown population structure of the natural populations of wild soybean distributed throughout China was determined. Two evolutionarily significant units were defined and further analysed by combining genetic diversity and structure analyses from Chinese populations with representative samples from Eastern Asia. The study suggests that during the glacial period there may have been an expansion route between south-east and north-east China, via the temperate forests in the East China Sea Land Bridge, which resulted in similar genotypes of wild soybean populations from these regions. Genetic diversity and bottleneck analysis supports that both extensive collection of germplasm resources and habitat management strategies should be undertaken for effective conservation studies of these important wild soybean resources.     

中国野生大豆遗传资源搜集基本策略与方法

遗传资源搜集原则是通过种子采集追求样本具有最高程度的遗传多样性。为了合理而有效地搜集野生大豆资源,近年来通过野生大豆居群考察和遗传多样性分析,初步明确了野生大豆资源居群的遗传多样性分布动态:遗传多样性地理的和生态的区域性、生态系统内居群的遗传相关性及各种生境下居群遗传多样性差异,从理论上奠定了野生大豆资源合理有效搜集的依据。根据居群遗传多样性的分布规律,初步建立了居群野生大豆资源的搜集策略和方法。     

Arbitrarily primed-PCR based diversity assessment reflects hierarchical groupings of Indian tetraploid wheat genotypes

Genetic diversity analysis using PCR with arbitrary decamer primers (RAPD — random amplified polymorphic DNA) was carried out in a set of 63 tetraploid wheat genotypes which comprised 24 durum landraces, 18 durum cultivars, nine dicoccum cultivars, ten less commonly cultivated species and two wild tetraploid species. The durum and dicoccum wheat genotypes are a part of the germplasm used in Indian tetraploid wheat breeding programs. A total of 206 amplification products were obtained with 21 informative primers, of which 162 were polymorphic. The highest degree of polymorphism was seen in the wild and less commonly cultivated species (68.9%). Durum released cultivars showed greater polymorphism (50.6%) than landraces (44.8%), while dicoccum cultivars showed a considerably low level of polymorphism (23.6%). Cluster analysis led to the separation of wild and cultivated genotypes, and among cultivated emmer wheat distinct groups were formed by the durum cultivars, durum landraces and dicoccum cultivars. The subgroupings of landraces had no relation to their geographical distribution. The durum cultivars formed subgroups based on common parentage in their pedigree. Among species, wild timopheevi wheat (T. araraticum) and its cultivated form (T. timopheevi) formed a distinct group distant from all other genotypes. The present study is a first attempt at determining the genetic variation in Indian tetraploid wheats at the molecular level. Received: 10 January 1999 / Accepted: 30 January 1999     

Genetic variation, population structure, and linkage disequilibrium in European elite germplasm of perennial ryegrass

Perennial ryegrass (Lolium perenne L.) is a highly valued temperate climate grass species grown as forage crop and for amenity uses. Due to its outbreeding nature and recent domestication, a high degree of genetic diversity is expected among cultivars. The aim of this study was to assess the extent of linkage disequilibrium (LD) within European elite germplasm and to evaluate the appropriate methodology for genetic association mapping in perennial ryegrass. A high level of genetic diversity was observed in a set of 380 perennial ryegrass elite genotypes when genotyped with 40 SSRs and 2 STS markers. A Bayesian structure analysis identified two subpopulations, which were confirmed by principal coordinate analysis (PCoA). One subpopulation consisted mainly of genotypes originating from the UK, while germplasm mostly from Continental Europe was grouped into the second subpopulation. LD (r²) decay was rapid and occurred within 0.4 cM across European varieties, when population structure was taken into consideration. However, an extended LD of up to 6.6 cM was detected within the variety Aberdart. High genetic diversity and rapid LD decay provide means for high resolution association mapping in elite materials of perennial ryegrass. However, different strategies need to be applied depending on the material used. Genome-wide association study (GWAS) with several hundred markers can be applied within synthetic varieties to identify large (up to 10 cM) genomic regions affecting trait variation. A combination of available and novel DNA markers is needed to achieve resolution required for GWAS in elite breeding materials. An even higher marker density of several million SNPs might be needed for GWAS in diverse ecotype collections, potentially resulting in quantitative trait polymorphism (QTP) identification.