Microsatellite markers based assessment of genetic diversity in Iranian olive (Olea europaea L.) collections

To study the genetic variation in Iranian olive collections and some foreign olive cultivars, 47 accessions of 18 local cultivars from 6 olive collections of Iran (Roudbar, Zanjan, Ahvaz, Dezful, Kazeroon and Shiraz), were analyzed along with 30 imported cultivars using 16 microsatellite primer pairs. All the used microsatellite loci revealed polymorphism in the studied genotypes, except GAPU14 and GAPU113 markers. Fourteen microsatellite primers amplified 126 polymorphic alleles in the 87 selected olive accessions. The average number of alleles per locus was 9, ranging from 3 to 14. Polymorphic information content (PIC) was 0.85. The genetic similarity based on Jaccard coefficient ranged from 0.15 to 1. The genetic relationships among accessions were investigated using cluster analysis and principal component analysis (PCA). Most of the accessions with the same name were grouped together; some exceptions were also observed. As expected, close relationship was observed among accessions within same cultivar. Most of the Iranian olive accessions were clustered to a main distinct group. Two-dimensional scatter plot of principal component analysis revealed a clear separation of most of the Iranian olives from Syrian and other introduced cultivars. These suggest that Iranian cultivars have different origin related to West Mediterranean basin cultivars and have evolved independently from the others. Between and within Iranian and foreign cultivars (cultivars including three or more accessions) genetic diversity was analyzed using analysis of molecular variance (AMOVA). AMOVA revealed higher within cultivar genetic variation (62.76%) as compare to that between cultivar variations (37.24%). The intra- and inter-cultivar variance tested by permutation test showed significant genetic variation at both levels. The high level within cultivar genetic variance could be due to mislabeling and presence of homonyms in cultivars produced by vegetative propagation from original plants.     

SSR-based DNA fingerprints reveal the genetic diversity of Sicilian olive (Olea europaea L.) germplasm

Summary

Twelve published simple sequence repeat (SSR; microsatellite) markers, belonging to the ssrOeUA-DCA, GAPU and UDO series, were tested in a panel of 46 accessions of olive germplasm belonging to 30 unique cultivars collected in seven Provinces of Sicily. Four well-known reference olive cultivars were also added. The analysis was carried out on an automatic capillary sequencer using fluorescent dyes, and fragment sizes were determined using internal standards. The results allowed us to rank the SSRs assayed according to their information content and reproducibility. Up to 115 alleles were identified (119, if those unique to sport mutations were included), the frequency of which allowed genetic relationships among accessions to be investigated. The probability that two unrelated genotypes displayed the same SSR pattern at all loci examined was calculated to be as low as 1.18 10^–11. Sixteen accessions were identified as synonyms. Of these, eight matched perfectly with another accession at all SSR loci examined. The others showed one or two allelic differences from the reference accession. These were interpreted as mutations. Otherwise, all accessions were clearly separated from each other. Two likely parentages were also identified (‘Giarfara’ = ‘Nocellara del Belice’

‘Cacaridduni’; and ‘Pizzo di Corvo’ = ‘Nocellara Etnea’ ‘Tonda Iblea’). The genetic diversity of the pool represented by the unique accessions was very high, reflecting the richness of the olive germplasm accumulated in Sicily. A database of the accessions is available to the scientific community (http://www.unipa.it/germolive/ssr.html) to facilitate comparisons of data.     

Microsatellite marker-based identification of mother plants for the reliable propagation of olive (Olea europaea L.) cultivars in Australia

Summary

Olive production in Australia has continued to increase in recent years, however there remains a high degree of confusion on the genetic identities of the cultivars being grown. In the present study, seven microsatellite (simple sequence repeat; SSR) loci were used to identify a set of 53 olive tree samples from different sources. The microsatellite DNA profiles of all 53 tree samples, including seven unknown trees, were compared with the SSR profiles of 14 reference olive cultivars. A total of 60 fragments (alleles), averaging 8.57 alleles per microsatellite locus, were amplified. High average values were found for the observed heterozygosity, the expected heterozygosity, and the polymorphic information content (0.73, 0.74, and 0.72, respectively). While all seven microsatellite markers proved useful for characterisation and identification purposes, a combination of three SSR primer pairs (DCA9, DCA18, and EM030) was sufficient to distinguish all 53 olive samples. The microsatellite allelic profiles allowed the 53 tree samples to be grouped into 23 genotypes. The allelic profiles of 14 of these genotypes matched with their reference cultivars, while the genetic identities of the remaining nine genotypes could not be confirmed. Some of these unknown genotypes may have been derived from feral olive trees, or were due to mislabelling and/or planting errors among Australian olive cultivars. Our results confirm the usefulness of microsatellite markers as a tool for cultivar differentiation and identification, and indicate the need for reliable identification of mother plants for commercial propagation.     

SSR markers reveal the uniqueness of olive cultivars from the Italian region of Liguria

Twenty-three important Ligurian olive accessions corresponding to 16 cultivars were studied using 12 SSR markers and 40 Mediterranean cultivars were included in the study in order to investigate the relationships between Ligurian and Mediterranean germplasm. All SSRs produced polymorphic amplifications. One hundred and forty-nine alleles were found in the 63 accessions analysed. Twenty-two alleles were specific to germplasm from Liguria and of these 12 were unique to single cultivars. Heterozygosity and discriminating power calculated in this regional germplasm were high on average (0.70 and 0.74) and not so much lower than the values in the total sample that includes cultivars from different Mediterranean countries (0.77 and 0.88 respectively). No cases of genetic identities were found between Ligurian and Mediterranean accessions. Several cases of homonyms and synonyms within the Ligurian germplasm were explained. Cluster analysis generally revealed a clear discrimination of the profiles from Liguria and Italy with respect to the cultivars from other Mediterranean countries. Only one Ligurian cultivar, “Negrea”, appeared to have a different origin, grouping with the Mediterranean cultivars.     

Ampelographic and genetic characterisation of ancestral grapevine (Vitis vinifera L.) accessions present in the Umbria Region (Central Italy)

Summary

During an ongoing effort to recover and preserve local germplasm, 14 accessions of indigenous minor grapevine (Vitis vinifera L.) cultivars from the Umbria Region, Central Italy, were chosen because they had been neglected and were threatened with extinction. Their phenotypic and genetic characteristics were evaluated through an ampelographic study of their shoots, mature leaves, bunches, and berries and by genomic analysis using an international set of nine microsatellite (simple sequence repeat; SSR) markers (VVS2, VVMD5, VVMD7, VVMD27, VrZAG62, VrZAG79, VVMD25, VVMD28, and VVMD32). Comparisons of the SSR profiles of all 14 accessions with grapevine accessions in several databases permitted the identification of unique genotypes, as well as possible synonyms. Information on these older, neglected cultivars will help to reduce the genetic erosion of grapevine germplasm, improve conservation and possible recovery, and assist in the future production of new, distinctive wines.     

Characterization of variability and genetic similarity of European pear using microsatellite loci developed in apple

Seven microsatellite loci (SSR) developed in apple were used for the identification of 63 European pear cultivars. A total of 46 fragments were amplified, with an average of 6.6 alleles per SSR. Only one microsatellite amplified more than one locus. The mean expected and observed heterozygosities over the six single-locus SSRs averaged 0.68 and 0.44, respectively, and the number of effective alleles per loci was 3.43. The amplified fragments produced 61 different fingerprinting patterns that allowed to unequivocally distinguish all the varieties analyzed. Only two varieties, which derive from mutations, could not be distinguished from the original variety. Cluster analysis of the estimated genetic similarity, grouped the varieties according to their pedigree and their geographic origin. The variability detected with the SSRs in European pear varieties was low when compared with the variability detected in other fruit crops in the Rosaceae.     

野生毛花猕猴桃果实表型性状及SSR遗传多样性分析

以江西省武功山境内的70份野生毛花猕猴桃种质资源为试材,对其果实表型性状、SSR遗传多样性及其亲缘关系进行分析和评价。根据UPOV（国际植物新品种保护联盟）公布的猕猴桃属品种测定标准对供试材料的果实表型性状进行观测。参照猕猴桃遗传连锁图谱,选用分布于中华猕猴桃基因组中的70对SSR引物对供试材料进行多态性分析。结果表明,在70对引物中,21对引物成功扩增出多态性片段。随机采集的70份野生毛花猕猴桃种质资源中,其果实表型性状和DNA分子水平均存在丰富的遗传多样性。基于UPGMA聚类分析将供试的野生毛花猕猴桃资源分为果实圆形和椭圆形混合组、果实椭圆形组以及果实圆柱形组。21对多态性高的SSR引物共检测出127个等位变异位点,变异范围在2 ~ 12之间,平均每对SSR引物可检测到6.04个等位位点。遗传相似系数（GS）变异范围为0.5306 ~ 0.9252。GS值在0.65水平上UPGMA聚类分析可将供试的野生毛花猕猴桃种质资源划分成Ⅰ、Ⅱ和 Ⅲ 共3个组,这与果实表型性状分析的结果基本一致。这些遗传变异丰富的种质资源可为猕猴桃育种提供有价值的材料。     

基于形态学标记及SSR 标记的甜瓜主栽品种分类鉴定研究

利用形态学标记、SSR 分子标记技术对市场上广泛种植的甜瓜品种进行分类鉴定。利用形态学聚类分析，得到60份材料间的相似系数为0.73～0.94，在相似系数为0.74 处，60 份甜瓜材料被分为2 类，为薄皮甜瓜和厚皮甜瓜；在相似系数为0.77 处，薄皮甜瓜按照单果质量、熟性、果皮底色、芳香气分为4 组，实现初步分类。经过SSR 标记聚类分析，得到60 份材料间的相似系数为0.75～0.95，当相似系数为 0.77 时，可以将所有供试材料分为6 类。利用SSR 分子标记技术，为60 份不同甜瓜品种构建唯一的指纹图谱。18 对SSR 引物，每对引物可以检测到4～11 条数目不等的多态性条带，平均为8 条。多态性信息含量（PIC）平均为0.71，变化范围为0.58～0.88。采用QR 编码为60 份甜瓜材料构建了唯一的指纹图谱。试验结果表明形态学标记对60 份材料实现初步分类，SSR 分子标记则能够有效地区别60 份材料，并且为建立甜瓜品种的核酸指纹图谱库提供了理论数据，实现对甜瓜品种进行快速、准确的鉴定。     

Assessment of genetic variability in Italian heritage peach resources from Emilia-Romagna using microsatellite markers

Summary

Heritage peach (Prunus persica L. Batsch) varieties in Emilia-Romagna, Italy’s leading peach-producing region, are largely marked by melting, juicy, aromatic white-fleshed fruit with a short shelf-life and susceptibility to bruising.While these varieties have rapidly been replaced since the 1950’s by yellow-fleshed peaches from US breeding programmes with improved handling resistance, the Fruit Research Unit of the Agricultural Research Council, at Forlì, has begun an effort to safeguard and characterise the heritage varieties of Emilia-Romagna. The programme has screened 26 local heritage accessions using a set of 16 highly polymorphic microsatellite (simple sequence repeat; SSR) markers to assess genetic diversity, to elucidate inter-relationships, and to resolve any cases of homonymy. Seven international peach cultivars have been included in order to standardise allele scoring. This study resulted in 19 unique molecular profiles among the heritage accessions, and a relatively high mean observed heterozygosity value of 0.49 for a germplasm pool from a restricted region, an indicator of potential genetic diversity. The main morphological features of the heritage peaches are reported, and potential benefits for future breeding programmes discussed.     

Differences in ovary size among olive (Olea europaea L.) cultivars are mainly related to cell number,not to cell size

Differences in mature fruit size among olive cultivars are related to differences in ovary size at bloom, but it is not known whether cell number or size determines the variation in ovary size. In this study we measured cell size and number in equatorial cross-sectional areas of the principal ovary tissues (mesocarp and endocarp) in eight cultivars with very different fruit and ovary size. The results showed that cell number explained most of the differences in ovary size, while cell size was not related to ovary size, except for a weak (R² = 0.33) correlation in the endocarp. Since sink strength is thought to be related to cell number, this finding supports the hypothesis that larger ovaries represent stronger sinks. The implications of greater sink strength with bigger ovaries are discussed. Within cultivars, while the cross-sectional areas of mesocarp and endocarp were similar, cell number was higher in the mesocarp but cell size was smaller compared to the endocarp.     

Cultivar-based fruit size in olive depends on different tissue and cellular processes throughout growth

In drupe fruits, in addition to fruit size, the proportions of mesocarp and endocarp tissues are critical objectives for fruit quality, crop production and management. The olive fruit is a typical drupe, with cultivars which show a wide range in both fruit size and the proportions of mesocarp and endocarp. Characterizing the roles of tissue and cellular processes in producing genetically based fruit size variability is necessary for crop improvement, as well as deepening our understanding of fruit developmental physiology. This study used microscope image analysis to evaluate cell number and size, the growth of mesocarp and endocarp tissues, and their developmental timing in producing fruit size among six olive cultivars with a large range of fruit size. We found that cultivar mesocarp and endocarp size increased linearly with fruit size, with larger sizes favoring an increasingly greater mesocarp/endocarp ratio. Within the mesocarp, cultivar-based fruit size related directly to cell number and was established soon after bloom by cell division rate. In spite of different cell division rates, all cultivars showed similar timing of cell division activity, with the majority of cells produced in the two months after bloom but, surprisingly, a substantial number of cells formed during the following 6 months. Cell expansion was high throughout fruit growth and an important factor in achieving final fruit size, but cell size did not differ among cultivars at any time. We can conclude that fruit size differences among olive cultivars are due at the tissue level to both mesocarp and endocarp sizes and at the cellular level to cell division throughout fruit growth. Furthermore, since cell size is consistent among cultivars in spite of variable cell division, it is likely that cultivar differences in cell expansion accompany those in cell division.     

DNA fingerprinting of olive varieties in Istria (Croatia) by microsatellite markers

The Istria region, where olives have been cultivated for many centuries, is characterized by a considerable variety of microclimates. The study of varieties traditionally cultivated in Croatian Istria and their relationships with varieties in historically and geographically connected regions is very important in order to identify native olive germplasm, well adapted to local conditions, and to characterize the oil of regional origin. Twelve olive microsatellite markers were used for identification and differentiation of a set of 27 olive accessions grown in Istria (Croatia). Among the 27 accessions, 18 different SSR profiles were discriminated. All 12 microsatellite markers analysed were polymorphic, revealing a total of 81 alleles. The number of alleles per locus ranged from four to nine. This is the first molecular characterization of olive germplasm in Croatian Istria. The analysis clarified the genetic relationships of varieties native to Croatian Istria with introduced olive varieties, as well as with varieties in the neighbouring Slovene Istria region. Numerous varieties in neighbouring regions showed high similarity and a few cases of synonymy (‘Bilica’-‘Bjankera’; ‘Buga’-‘?rna’) and one Croatian-Slovenian homonymy (‘Bu?a’-‘Buga’) were observed. The results provide useful information for a native germplasm survey and can be used for the construction of a unique database comprising all olive varieties in the Istrian region of Croatia and Slovenia.     

Assessment of genetic relationships among 29 introduced and 49 local sweet cherry accessions in Turkey using AFLP and SSR markers

Summary

The characterisation of sweet cherry (Prunus avium L.) genetic resources in Turkey may help to increase their use in breeding programmes worldwide, as Turkey is the centre of origin of sweet cherry. Amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers were therefore used to analyse genetic diversity among a total of 78 local and introduced sweet cherry cultivars. Four AFLP primer combinations, and six SSR primer pairs for sweet cherry were used for genetic diversity analysis. A genetic similarity matrix was calculated using the combined data from AFLP and SSR analyses with simple matching coefficient. Genetic similarities among the sweet cherry genotypes studied were higher than 42%. No two accessions had an identical AFLP and SSR marker profile, indicating that all 78 genotypes were unique. An UPGMA dendrogram, based on the similarity matrix, revealed 18 separate Groups at or above the 70% similarity level. While some Groups consisted of both introduced and local genotypes, other Groups had only local genotypes. This result suggests that there was broad genetic diversity among the local Turkish sweet cherry genotypes, which was not present in the introduced sweet cherry accessions. The genetic variation present in local Turkish sweet cherry genotypes may be useful for future breeding programmes. We found that the use of both SSR and AFLP marker systems was effective for distinguishing between genetically-close sweet cherry genotypes. These marker systems can be used to complement pomological and morphological markers during the characterisation and identification of sweet cherry genotypes.     

Variety identification and comparative analysis of genetic diversity in yardlong bean (Vigna unguiculata spp. sesquipedalis) using morphological characters,SSR and ISSR analysis

Genetic diversity and relatedness of 23 yardlong bean (Vigna unguiculata spp. sesquipedalis) accessions and 7 accessions of a hybrid between cowpea (V. unguiculata spp. unguiculata) and yardlong bean (dwarf yardlong bean) in Thailand were estimated using morphological characters, simple sequence repeat (SSR) and inter-simple sequence repeat (ISSR) markers. In addition, two mungbean (Vignaradiata (L.) Wilczek) and two blackgram (Vigna mungo (L.) Hepper) accessions were also used as outgroup species for molecular analysis. Five morphological characters were diverse among most accessions. However, five groups of 2–3 accessions could not be distinguished from one another based on these morphological characters alone. Unweighted pair-group arithmetic average (UPGMA) analysis of these characters separated these 30 accessions into 2 major groups; the yardlong bean group and the dwarf yardlong bean group. Eleven of the sixteen SSR primers yielded clear SSRs, ten of which were polymorphic (90.91% polymorphism), detecting a total of 54 alleles with an average of 4.91 alleles per locus. These 10 polymorphic SSR markers successfully distinguished 28 yardlong bean and dwarf yardlong bean accessions. The polymorphic information content (PIC) among genotypes varied from 0.251 to 0.752 with an average of 0.597. Among the 16 ISSR primers used, a total of 312 ISSR fragments were amplified for these three Vigna species, revealing the polymorphism percentage of 91.03%. The average ISSR PIC value (0.197) with the range of 0.137–0.276 was lower than that of SSR. Nevertheless, the average marker index of this multilocus marker was 3.495, which was higher than that of SSR (0.669), owing to the differences in the effective multiplex ratio. In addition, Mantel test cophenetic correlation coefficient was higher for ISSR (0.566) than that of SSR (0.198). These results indicated higher efficiency of ISSR for estimating the levels of genetic diversity and relationships among yardlong beans and dwarf yardlong beans in this study. Pair-wise coefficients of SSR- and ISSR-based genetic similarity among all yardlong bean and dwarf yardlong bean accessions averaged 0.87 and 0.91, respectively, suggesting a narrow genetic base that emphasizes the need to broaden genetic diversity to ensure continued breeding success. Clustering of genotypes within groups was not similar when SSR and ISSR derived dendrograms from UPGMA analysis were compared. It appeared that ISSR was the most effective marker system in determining the genetic variability and relationships among yardlong bean and dwarf yardlong bean accessions and differentiating three Vigna species. In addition, ISSR was also most useful for variety identification since all 30 yardlong beans and dwarf yardlong bean accessions can be effectively distinguished by only four ISSR primers with the highest PIC values.     

二倍体马铃薯栽培品种遗传多样性的SSR标记分析

二倍体马铃薯基因组相对简单,借助二倍体进行育种可以加速马铃薯的育种进程,因此评价二倍体马铃薯种质的遗传多样性,挖掘和有效利用优良性状显得非常必要。为了筛选多态性的SSR标记,用55对SSR引物扩增39个遗传关系相对较远的二倍体马铃薯材料。选取分布在12条染色体上的12个具有高多态性的SSR标记评价192份二倍体马铃薯栽培品种的遗传多样性,共检测到98个等位位点,其中97个为多态性位点;每对SSR引物扩增出的等位位点为6~18个,平均8.2个。用非加权配对算术平均法(UPGMA)进行聚类,显示出所有供试材料的遗传关系:12对SSR引物可以将192份材料中的186份区分开;这192份材料被划分为11个组群,其中第一个组群包含了83.3%的材料。     

SSR-based identification key of cultivars of Olea europaea L. diffused in Southern-Italy

Olive (Olea europaea L.) is an important fruit species in Italy and Mediterranean basin constituted by a wide germplasm with a large number of cultivars present in all the Mediterranean area. SSRs are becoming the markers of choice for variability studies in olives as they are simple to perform, transferable, hypervariable, highly polymorphic and show a high information content.Olive genetic diversity was studied using 16 SSR markers on 30 cultivars diffused in Southern-Italy. Resolving Power (RP) and Power of Discrimination (PD) were calculated to evaluate the efficiency of the SSR markers investigated in studies of cultivars fingerprinting. Based on their high efficiency, two SSR markers, UDO43 and DCA16 were chosen to set up an identification key to distinguish the entire set of cultivars, confirming the high biodiversity of the Southern-Italian olive germplasm and the suitability of SSR markers in studies of cultivar diagnosis.     

Genetic diversity among olive varieties of Southern Italy and the traceability of olive oil using SSR markers

Summary

To evaluate germplasm variability and to identify DNA profiles useful for tracing the genetic identity of olive oil, we used six Simple Sequence Repeats (SSRs) in 47 cultivated olive varieties from Central and Southern Italy. A total of 80 polymorphic SSR markers were scored and both the observed heterozygosity and the polymorphic index content were, on average, high. Genetic similarities were investigated by agglomerative hierarchical clustering and principal component analysis. The results implied that most of the olive accessions from the Campania region were genetically different from those of other Italian regions. This finding was further supported by partitioning the genetic variability using analysis of molecular variance. Furthermore, we analysed the DNA isolated from the fruit and mono-varietal oils of three cultivars. Comparative analysis of the SSR profiles revealed that these were conserved in the agro-food chain, although our data also suggested that some issues, such as the sensitivity and performance of the assay in complex mixtures, may pose limitations. Our findings extend current knowledge of Italian olive germplasm and highlight the richness and specificity of the genetic resource of olives in some regions of Southern Italy. They also provide molecular information that can be exploited for the protection of genetic material and mono-varietal oils.