贵州核桃种质资源表型性状多样性研究

该研究以贵州省内的3个山脉(乌蒙山、苗岭山和武陵山)、19个核桃和泡核桃实生居群、245棵实生单株为研究材料,对坚果表型性状29个指标的多样性、相关性、聚类及变异进行分析,以揭示贵州核桃资源的表型遗传多样性水平,为贵州核桃资源的保存与利用及核心种质构建提供依据。结果显示：(1)核桃和泡核桃实生居群245份种质资源的18个表型质量性状Simpson指数为0.26～0.82,Shannon-Wiener指数为0.12～1.79;核桃小叶形状多样,易发生顶叶退化,坚果核壳表面特征、坚果形状及核仁皮色多样性丰富。(2)坚果表型变异系数为3.32%～47.67%,平均为21.28%且差异显著(P<0.05),居群间变异系数为9.42%～31.61%且差异显著(P<0.05);居群内和居群间变异均是核桃表型多样性的来源,但坚果性状在居群间差异显著性均高于居群内,说明居群间变异是该区域坚果表型变异的主要来源。(3)3个山脉区域核桃表型均有不同程度变异,其中,苗岭山核桃表型变异程度低,乌蒙山核桃表型变异程度高;UPGMA聚类结果显示,19个核桃实生居群依据贵州山脉区域划分为三类,表明贵州核...     

Molecular genetic diversity and association mapping of nut and kernel traits in Slovenian hazelnut (<Emphasis Type="Italic">Corylus avellana</Emphasis>) germplasm

European hazelnut (Corylus avellana L.), cultivated in several areas of the world including Europe, Anatolia, and the USA, is an economically important nut crop due to its high mineral, oleic acid, amino acid, and phenolic compound content and pleasant flavor. This study examined molecular genetic diversity and population structure of 54 wild accessions and 48 cultivars from the Slovenian national hazelnut collection using amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers. Eleven AFLP primer combinations and 49 SSR markers yielded 532 and 504 polymorphic fragments, respectively. As expected for a wind-pollinated, self-incompatible species, levels of genetic diversity were high with cultivars and wild accessions having mean dissimilarity values of 0.50 and 0.60, respectively. In general, cultivars and wild accessions clustered separately in dendrogram, principal coordinate, and population structure analyses with regional clustering of the wild material. The accessions were also characterized for ten nut and seven kernel traits and some wild accessions were shown to have breeding potential. Morphological principal component analysis showed distinct clustering of cultivars and wild accessions. An association mapping panel composed of 64 hazelnut cultivars and wild accessions had considerable variation for the nut and kernel quality traits. Morphological and molecular data were associated to identify markers controlling the traits. In all, 49 SSR markers were significantly associated with nut and kernel traits [P < 0.0001 and LD value (r ²) = 0.15–0.50]. This work is the first use of association mapping in hazelnut and has identified molecular markers associated with important quality parameters in this important nut crop.     

The influence of climate on the regional distribution of nut crops in Turkey

The distribution in Turkey of filbert, pistachio, chestnut, almond and walnut is discussed in relation to their method of propagation and climatic parameters. The effect of temperature and rainfall severely limits the present production areas of filbert and pistachio, both of which are vegetatively propagated. In contrast, almonds and walnuts are mainly propagated from seed and are more widely distributed throughout the country. Their distribution is discussed in relation to the genetic diversity and the adaptability of local tree populations to varied climatic conditions. Data are presented on the range of variability of nut and kernel weight of almonds and walnuts.     

Walnut: past and future of genetic improvement

Persian or English walnut (Juglans regia L.), the walnut species cultivated for nut production, is one of the oldest food sources known. Persian walnuts, native to the mountain valleys of Central Asia, are grown worldwide in temperate areas. World production exceeds three million tons since 2012, mostly provided by China, the USA, and Iran. Despite very ancient culture of walnut species (Juglans spp.), breeding actually started in the twentieth century. Using a range of methodologies, from morphological markers to the most recent advances in genome analysis, many genetic studies of walnut have been conducted during the past 30 years, including examination of diversity, determination of relationships within or among germplasm collections and populations, phylogenetic and origin elucidation, genetic map construction, and biotic or abiotic stress investigations. The genetic improvement of walnut has undergone great evolution. The producing countries of the Middle East have widely studied morphological characteristics of walnut. The USA and France, for example, are behind important cultivar releases such as “Chandler” and “Franquette.” Finally, genomics represents a major breakthrough in walnut improvement, in particular by recent sequencing of both chloroplast and nuclear genomes. This review summarizes worldwide molecular and “omics” studies and gives an overview of the main walnut breeding programs.     

Genetic diversity and genetic structure of Persian walnut (<Emphasis Type="Italic">Juglans regia)</Emphasis> accessions from 14 European,African, and Asian countries using SSR markers

Persian walnut (Juglans regia L.) is the world’s most widely grown nut crop, but large-scale assessments and comparisons of the genetic diversity of the crop are notably lacking. To guide the conservation and utilization of Persian walnut genetic resources, genotypes (n = 189) from 25 different regions in 14 countries on three continents were sampled to investigate their genetic relationships and diversity using ten microsatellite (SSR) loci. The SSRs amplified from 3 to 25 alleles per locus, with a mean value of 11.5 alleles per locus. The mean values of observed and expected heterozygosity were 0.62 and 0.73, respectively. Based on Nei’s genetic identity, accessions from Bratislava (Slovakia) and Antalya (Turkey) showed the lowest similarity (0.36), while accessions from Algeria and Tunisia as well as accessions from Debrecen (Hungary) and Trnava (Slovakia) had the highest similarity (0.97). Two populations from Iran (Alborz and Ardabil) had the highest number of private alleles (7 and 5), but they were quite different as they also had the lowest genetic identity when compared to the remaining populations as well as to each other. Although overall differentiation among regions was relatively low (F _st  = 0.07), cluster analysis grouped accessions generally but not completely according to geography. STRUCTURE software confirmed these results and divided the accessions into two main groups, separating accessions collected from Europe and North Africa from those from Greece and the Near East. Results indicate the presence of a likely center of diversity for Persian walnut in Eastern and Southeastern Europe. They also provide information that can be used to devise conservation actions. Notably, the genetic diversity of threatened populations from two regions in Iran should be conserved.     

Long-term human impacts on genetic structure of Italian walnut inferred by SSR markers

Life history traits, historic factors, and human activities can all shape the genetic diversity of a species. In Italy, walnut (Juglans regia L.) has a long history of cultivation both for wood and edible nuts. To better understand the genetic variability of current Italian walnut resources, we analyzed the relationships among the genetic structure of local walnut populations (inferred by SSR markers) and human migrations along ancient routes, using the territory of Royal Tratturo Candela-Pescasseroli (RT) as a case study. Sixteen J. regia provenances were collected along RT and compared with 13 Italian provenances and the landrace Sorrento. Although the level of SSR polymorphism we observed was moderately high, AMOVA revealed that most of the diversity was located within individuals (92.58%), and geographical differentiation was low (D _est = 0.076). Evidence for human-mediated domestication bottleneck events was detected in about 95% of walnut provenances. A Bayesian approach divided 456 walnut samples into three clusters: (1) Sorrento genotypes, (2) trees from the island of Sicily, and (3) the remaining germplasm. The UPGMA tree based on Nei's distances distinguished northeastern provenances and weakly grouped 12 of 16 provenances of RT. The observed genetic differences derived mainly from gradations in allele frequencies. Separation of the Sicilian provenance from the mainland may be explained in terms of founder effects and prolonged geographic isolation. Two contrasting forces, selection, and frequent inter-regional transfer of propagules, appear to drive the patterns of genetic variability for J. regia.     

Historical effects on local variation in walnut-feeding behavior by the Japanese wood mouse, Apodemus speciosus

The Japanese wood mouse Apodemus speciosus eats large, hard-walled walnuts of Juglans ailanthifolia immediately after finding or after hoarding them. However, not all individuals can efficiently eat the nuts. In this study, to examine local variation in the ability to eat walnuts, feeding behavior was compared among nine wood mouse populations, four from mainland Honshu, where the walnut tree is distributed, and five from the Izu Islands (30-100 km south of Honshu), which lack the tree species. To avoid the effects of pre-capture experience with walnuts, mice from areas lacking the walnut trees were used for testing, even in the Honshu sites. Most mice from Honshu were able to eat walnuts after a 14-day training period, whereas most insular mice could not, with the exception of mice on Kouzushima Island. An analysis of the population genetic structures of these mice based on sequences of the mitochondrial control (D-loop) region revealed that the four insular populations are genetically distinct from the mainland populations, whereas the Kouzushima population remains genetically similar to the mainland populations. The relatively recent colonization of Kouzushima may explain why mice from this island were able to feed on walnuts despite the lack of walnut trees on the island. Thus, walnut-feeding ability appears to have some innate basis in the Japanese wood mouse, and this trait would be selected for in a walnut-available environment as it would better enable mice to survive during food shortages.     

Diversification of indigenous gene- pool by using exotic germplasm in lentil (Lens culinaris Medikus subsp. culinaris)

Genetic diversity was studied among 21 accessions of lentil using SSR markers and morphological traits in order to assess the diversification of Indian gene-pool of lentil through introgression of exotic genes and introduction of germplasm. Among these , 16 genotypes either had ‘Precoz’ gene, an Argentine line in their pedigree or genes from introduced lines from ICARDA. Sixty five SSR markers and eight phenotypic traits were used to analyse the level of genetic diversity in these genotypes. Forty three SSR markers (66 %) were polymorphic and generated a total of 177 alleles with an average of 4.1 alleles per SSR marker. Alleles per marker ranged from 2 to 6. The polymorphic information content ranged 0.33 to 0.80 with an average of 0.57, suggesting that SSR markers are highly polymorphic among the studied genotypes. Genetic dissimilarity based a dendrogram grouped these accessions into two main clusters (cluster I and cluster II) and it ranged 33 % to 71 %, suggesting high level of genetic diversity among the genotypes. First three components of PCA based morphological traits explained higher variance (95.6 %) compared to PCA components based on SSR markers (42.7 %) of total genetic variance. Thus, more diversity was observed for morphological traits and genotypes in each cluster and sub-cluster showed a range of variability for seed size, earliness, pods/plant and plant height. Molecular and phenotypic diversity analysis thus suggested that use of germplasm of exotic lines have diversified the genetic base of lentil germplasm in India. This diversified gene-pool will be very useful in the development of improved varieties of lentil in order to address the effect of climate change, to adapt in new cropping systems niches such as mixed cropping, relay cropping, etc. and to meet consumers’ preference.     

Genome-wide association mapping of yield components and drought tolerance-related traits in cotton

Drought causes serious yield losses in cotton production throughout the world. Association mapping allows identification and localization of the genes controlling drought-related traits which will be helpful in cotton breeding. In the present study, genetic diversity analysis and association mapping of yield and drought traits were performed on a panel of 99 upland cotton genotypes using 177 SSR (simple sequence repeat) markers. Yield parameters and drought tolerance-related traits were evaluated for two seasons under two watering regimes: water-stressed and well-watered. The traits included seed cotton yield (SCY), lint yield (LY), lint percentage (LP), water-use efficiency (WUE), yield potential (YP), yield reduction (YR), yield index (YI), drought sensitivity index (DSI), stress tolerance index (STI), harmonic mean (HM), and geometric mean productivity (GMP). The genotypes with the least change in seed cotton yield under drought stress were Zeta 2, Delcerro, Nazilli 87, and DAK 66/3 which were also the most water-use efficient cultivars. The average genetic diversity of the panel was 0.38. The linkage disequilibrium decayed relatively rapidly at 20–30 cM (r²?≥?0.5). We identified 30 different SSR markers associated with the traits. Fifteen and 23 SSR markers were linked to the traits under well-watered and water-stress conditions, respectively. To our knowledge, most of these quantitative yield and drought tolerance-associated loci were newly identified. The genetic diversity and association mapping results should facilitate the development of drought-tolerant cotton lines with high yield in molecular breeding programs.     

Genetic diversity of Persian shallot (Allium hirtifolium Boiss.) populations based on morphological traits and RAPD markers

Mooseer or Persian shallot (Allium hirtifolium Boiss.) is a bulbous perennial herb belonging to Alliaceae family. Genetic diversity of 16 mooseer populations collected from different parts of Iran were evaluated using 14 morphological traits as well as antioxidant activities and RAPD markers. Statistical analysis showed significant differences among populations for all morphological traits. In a principal component analysis, four components showed 77.5 % of the total morphological variation. Based on the morphological traits, populations were divided into five groups by clustering. Antioxidant capacities differed among all populations, with the Sahneh and Nahavand populations having the highest and the lowest activities, respectively. Genetic diversity of populations was also investigated through RAPD technique using 14 random primers. Cluster analysis based on RAPD markers plus 47 % coefficient of similarity divided the genotypes into six distinct groups. The highest and lowest similarities between populations were detected to be 0.63 and 0.21, respectively. These results indicated that the assessment of genetic diversity in Iranian mooseer populations could be appropriately carried out using RAPD technique which correlates with morphological traits.     

分子标记及其在核桃遗传多样性研究中的应用

核桃是我国重要的坚果和木本油料树种之一,具有重要的学术研究和经济价值。现代分子标记技术的迅速发展为核桃的种质鉴定、遗传育种、遗传多样性分析、亲缘鉴定等提供了崭新途径。本文主要介绍RFLP、RAPD、AFLP及SSR等几种分子标记技术的主要原理、特点以及在核桃遗传多样性方面的研究进展,分析了分子标记在核桃遗传多样性研究中的主要问题,并对其发展提出了展望。     

Population differences and learning effects in walnut feeding technique by the Japanese squirrel

Feeding efficiency is an important factor explaining diet selection in seed-eating animals. Behavioral adaptation to process and consume the seed is advantageous to improve their feeding rate. The Japanese walnut (Juglans ailanthifolia), which has a nutritious kernel surrounded by a hard shell, is an important food for the Japanese squirrel (Sciurus lis) in lowland mixed-species forests in Japan. In the present study, population differences in feeding technique were examined. In all squirrels captured from the Takao population (with wild Japanese walnuts in their habitat), the optimal feeding technique for quickly opening the walnut shell was observed. However, only 8% of the squirrels from the Fuji population (without walnuts in their habitat) processed the walnuts by the optimal feeding technique. By a repetitive provision of walnuts for 50 days, 14% of squirrels from the Fuji population acquired the optimal feeding technique. Learning effects did not differ significantly between solitary (without a demonstrator) and social conditions (with a demonstrator). The effects of age on learning the feeding technique were examined using individuals from a zoo population that had been naïve for Japanese walnuts. All five individuals aged 6 months old, and half the individuals aged 1–2 years old, ate walnuts by the optimal feeding technique after a 2-month learning period, but none of the individuals older than 3 years did. Consequently, the walnut feeding techniques of the Japanese squirrel are not entirely genetically fixed behavior and can be improved by learning at a young age.     

Identification,development, and application of 12 polymorphic EST-SSR markers for an endemic Chinese walnut (Juglans cathayensis L.) using next-generation sequencing technology

The Chinese walnut (Juglans cathayensis L.), valued for both its nut and wood, is an ecologically important tree species endemic temperate southern China. Investigation of the genetic diversity of Chinese walnut has been limited to natural population genetics and genetic germplasm resources. Here, we describe the development of 12 polymorphic microsatellite markers using next-generation sequencing to screen 96 Chinese walnut individuals collected from 11 natural populations. The number of alleles per locus ranged from 5 to 12. The observed heterozygosity (0.288–0.748) overlapped well with the expected heterozygosity (0.337–0.751). This species has high genetic diversity and gene flow among different populations (F_ST = 0.075, Nm = 3.088). These markers will be useful for future studies on population genetic structure, evolutionary ecology, and genetic breeding of this walnut tree or other Juglans species.     

Assessing wheat (Triticum aestivum L.) genetic diversity using quality traits, amplified fragment length polymorphisms, simple sequence repeats and proteome analysis

The genetic diversity among 10 Iranian bread wheat (Triticum aestivum) genotypes was analysed using 12 quality traits, 320 amplified fragment length polymorphisms (AFLP) polymorphic fragments, 491 simple sequence repeats (SSR) alleles and 294 proteome markers. The results revealed that the genotypes differed for quality traits, AFLP, SSR and proteome markers. The average genetic diversity based on quality traits (0.684 with a range of 0.266–0.997) was higher than AFLP (0.502 with a range of 0.328–0.717), SSR (0.503 with a range of 0.409–0.595) and proteome (0.464 with a range of 0.264–0.870) markers. Although there were apparent similarities between the groupings of particular genotypes, the overall correspondence between the distance matrices appeared to be rather low. In this study, the cluster analysis based on AFLP data showed the closest agreement with genotypes’ regions of origin or pedigree information. In addition to the genetic diversity assessment, specific proteins with known function were detected uniquely for the studied genotypes. Our results suggest that the classification based on quality traits and genotypic markers of these wheat genotypes will be useful for wheat breeders to plan crosses for positive traits.     

Molecular genetic diversity of the Turkish national hazelnut collection and selection of a core set

European hazelnut (Corylus avellana L.) is an economically and nutritionally important nut crop with wild and cultivated populations found throughout Europe and in parts of Asia. This study examined the molecular genetic diversity and population structure of 402 genotypes including 143 wild individuals, 239 landraces, and 20 cultivars from the Turkish national hazelnut collection using simple sequence repeat (SSR) markers. A total of 30 SSR markers yielded 407 polymorphic fragments. Diversity analysis of the Turkish hazelnut genotypes indicated that they fell into three subpopulations according to ad hoc statistics and neighbor-joining algorithm. Although all cultivars clustered together, they overlapped with the wild accessions and landraces. Thus, the dendrogram, principal coordinate, and population structure analyses suggest that they share the same gene pool. A total of 78 accessions were selected as a core set to encompass the molecular genetic and morphological diversity present in the national collection. This core set should have priority in preservation efforts and in trait characterization.     

Determination of genetic relationships among elite thermosensitive genic male sterile lines (TGMS) of rice (Oryza sativa L.) employing morphological and simple sequence repeat (SSR) markers

A set of morphological traits and SSR markers were used to determine the genetic relationship among 12 elite thermosensitive genic male sterile (TGMS) lines developed at three different research institutions of India. Agro-morphological data recorded on 20 morphological traits revealed a wide base of genetic variation and a set of four morphological traits could distinguish most of the TGMS lines. Analysis with 30 SSR markers (20 EST-SSRs and 10 genomic SSRs) revealed 27 markers to be polymorphic, amplifying a total of 83 alleles. Each SSR marker amplified 2-6 alleles with an average of 2.76 alleles per marker and a PIC value varying from 0.54 to 0.96. Cluster analysis based on SSR and morphological data clearly differentiated the lines according to their source of origin. Correlation analysis between morphological and molecular data revealed a very poor association (r = 0.06), which could be attributed to selection pressure, genetic drift, sampling error and unknown relationship among related lines. The SSR markers discriminated the genotypes distinctly and quantified the genetic diversity precisely among the TGMS lines. Data on the yield per plant indicated that the genotypes grouping under a similar cluster showed same heterotic behaviour as compared to the genotypes from different clusters when crossed to similar pollinators.     

Genetic diversity in wild sweet cherries (Prunus avium) in Turkey revealed by SSR markers

Wild sweet cherry (Prunus avium) trees are abundant in the northern part of Turkey, including the Coruh Valley. We analyzed 18 wild sweet cherry genotypes collected from diverse environments in the upper Coruh Valley in Turkey to determine genetic variation, using 10 SSR primers. These SSR primers generated 46 alleles; the number of alleles per primer ranged from 3 to 7, with a mean of 4.6. The primer PS12A02 gave the highest number of polymorphic bands (N = 7), while CPSCT010, UDAp-401 and UDAp-404 gave the lowest number (N = 3). Seven groups were separated in the dendrogram, although most of the genotypes did not cluster according to phenological and morphological traits. This level of genetic diversity in these wild sweet cherry genotypes is very high and therefore these trees would be useful as breeders for crosses between cultivated sweet cherry and wild genotypes.     

Genetic survey of Rhodiola rosea L. populations from the Swiss Alps based on SSR markers

Rhodiola rosea is a perennial adaptogenic medicinal plant found in the cool climates of the northern hemisphere. This species is highly variable both in morphological and phytochemical traits. The genetic diversity of five populations located in the Swiss Alps was studied with twelve SSR markers. However, only eight markers turned out to be informative in this study. The primer pairs for these eight SSR markers produced 37 fragments. The number of alleles per locus ranged from two to eight. The observed heterozygosity was between 0.09 and 1.0, whereas the expected heterozygosity was between 0.13 and 0.72. The genetic diversity was in the same range for all five populations. Principal coordinate analysis revealed that individuals from different populations did not cluster together, which confirmed that diversity within and among the populations were almost equivalent. The genetic fragmentation of this alpine species despite of its fragmented and isolated habitats, did not happened yet. The results of the present study on the genetic diversity were consistent with an earlier study on the chemical diversity with the same individuals.     

核桃种质资源遗传多样性的SSR分析

应用16对SSR引物对国内不同地理生态型的44个核桃样品、8个铁核桃样品和7个美国核桃样品进行了分析。结果显示,在16个SSR位点上共获得87个等位基因,每个位点扩增等位基因4～9个,平均5.4个。各SSR位点的观察杂合度为0～0.931 0,平均为0.389 4。各位点PIC值在0.376 2～0.786 3之间,平均为0.663 2。59个核桃样品的杂合度在0.133～0.813之间,平均0.387。聚类分析表明,来自秦岭山地的核桃样品与华北核桃属于同一生态类型;巩留的野核桃属于与新疆生态型和华北生态型不同的一个独立的生态型;美国核桃和铁核桃属于核桃种下不同的生态类型。     

Use of morphological traits and microsatellite markers to characterize the Tunisian cultivated and wild figs (Ficus carica L.)

We used 8 morphological traits and 17 simple sequence repeats loci to characterize 71 cultivated and wild Tunisian fig trees (Ficus carica L.). Significant morphological differences were inferred from leaf traits. The statistical analysis showed two major fig groups that indicated a common morphological basis. A total of 74 SSR alleles was revealed, defining 63 unique multilocus genotypes indicating a substantial genetic diversity. Based on multilocus SSR genotypes an identification key was established using MFC30, MFC3, MFC11 and MFC19 loci to identify figs. Analysis of variance components of linkage disequilibrium shown that among 136 pairs of loci, 32 present a significant gametic disequilibrium. The parameter D′²_IS (0.1284) was greater than D′²_ST (0.0079), a pointer of close to zero variance in total simple, and consequently the more pronounced independence of the 17 SSR loci. The majority of Ohta's variance components of linkage disequilibrium followed a pattern caused by genetic drift or a non-systematic disequilibrium profiles and natural selection occurs only for LMFC24-MFC8 pair loci in cultivated figs. Our results suggest that the morphological and SSR markers are suitable to characterize figs and should be recommended in conservation management strategy.