Genetic relationships among wild and cultivated populations of peach palm (<Emphasis Type="Italic">Bactris gasipaes</Emphasis> Kunth,Palmae): evidence for multiple independent domestication events

We studied the genetic relationship among four wild and ten cultivated populations of peach palm (Bactris gasipaes Kunth) using five microsatellite markers. Peach palm populations were grouped into two major complexes based on morphological traits (see Mora-Urpí 1984, 1993): the Occidental group, including populations found north and west of the Andes Mountains, and the Oriental group, including populations in the Amazon Basin. The Oriental group is further divided into two subgroups, the upper and eastern Amazonia. We also studied two wild relatives of peach palm from the Maracaibo basin in Venezuela. All microsatellite loci were polymorphic and the total number of alleles across all loci was 64. The number of alleles observed per locus ranged from 9 (Bg51) to 16 (Bg63; Average = 12.8 ± 2.8 alleles per locus), while the average number of alleles per population was 31.8 ± 7.3. Our data also revealed that some alleles were common to populations from the same geographical region. A dendrogram based on Rogers and Tanimoto’s similarity coefficient revealed three main branches. The first branch is divided into two nodes and includes all populations from Occidental and Upper Amazonia groups; the second branch includes both populations from Eastern Amazonia, and the third branch includes both wild relatives from Maracaibo. All populations included in each node are neighbors within a geographic region, indicating that populations were finely clustered into their respective geographic groups. We propose that this clustering supports the hypothesis of several independent domestication events on both sides of the Andes, as proposed by Mora-Urpí (1993).     

The domestication and dispersal of the cultivated ramie (Boehmeria nivea (L.) Gaud. in Freyc.) determined by nuclear SSR marker analysis

Ramie (Boehmeria nivea) was domesticated in China. However, the geographic region of domestication is not exactly known. Genetic diversity and population structure of ramie and their wild relatives were assessed using microsatellite markers. The 8 microsatellite primers revealed 96 alleles in 50 ramie populations, with an average of 10.25 alleles per locus. Cultivated ramie gene pool harbors approximately 82.9 % of the SSR diversity presented in wild B. nivea var. nivea. It is suggested that ramie has experienced a relatively moderate domestication bottleneck. The distribution of genetic diversity shows that genetic diversity is relatively high in populations along the Yangtze River compared to the peripheral ones. The scatter plots of principal coordinates analysis indicated that there are three well-supported varieties in B. nivea. The NJ tree and the distribution of genetic diversity showed that ramie has been domesticated in the middle and lower regions of the Yangtze valley, and populations in Sichuan province have been introduced from this region, forming naturalized populations.     

三种笛鲷的野生群体和养殖群体遗传多样性的微卫星分析

摘要：利用微卫星标记技术,采用10对微卫星引物对南海海域红鳍笛鲷、星点笛鲷、紫红笛鲷3种笛鲷鱼的野生种群（HYE、XYE、ZYE）和养殖种群（HYA、XYA、ZYA）进行了遗传多样性分析。10对微卫星引物在6个群体中共检测到78个等位基因,每个位点的等位基因数目在1~8个之间。6个群体的观测杂合度(Ho)为0.2500~1.0000,平均观测杂合度为：ZYE(0.9550)> ZYA(0.8900),HYE(0.8950)> HYA(0.8400),XYE(0.8450)>XYA(0.8100) ;平均多态信息含量(PIC) 为0.3648~0.7964,各野生群体均大于养殖群体;三种笛鲷鱼的野生群体和养殖群体遗传距离HYE与HYA,XYE与XYA,ZYE与ZYA分别为0.1029,0.0371,0.0135,基因分化系数分别为0.0371,0.0211,0.0352。群体遗传结构分析结果表明：红鳍笛鲷、星点笛鲷和紫红笛鲷的遗传多样性较丰富,养殖群体的遗传多样性较野生群体均有一定程度的降低,野生群体和养殖群体分化较弱。     

Investigation of recent population bottlenecks in Kenyan wild sorghum populations (<Emphasis Type="Italic">Sorghum bicolor</Emphasis> (L.) Moench ssp. <Emphasis Type="Italic">verticilliflorum</Emphasis> (Steud.) De Wet) based on microsatellite diversity and genetic disequilibria

Identifying populations that have recently suffered a severe reduction in size is particularly important for their conservation as they are likely to suffer an increased risk of genetic erosion. We investigated the presence of recent bottlenecks in two wild sorghum populations from different eco-geographical conditions in Kenya employing 18 microsatellite markers. Microsatellite analysis showed high allelic diversity in the two populations, with a mean of 4.11 and 6.94 alleles per locus in the North-West wild sorghum population (NWWSP) and the South-East wild sorghum population (SEWSP), respectively. The mean observed heterozygosity was 0.34 and 0.56 in NWWSP and SEWSP, respectively. A large long-term effective populations size for both populations was observed assuming either an infinite allele model or a stepwise mutation model. There was no apparent loss of genetic variability for either of the populations. Test of heterozygosity excess indicated that a recent bottleneck in the two populations is highly unlikely. Furthermore, analysis of the allele frequency distribution revealed an L-shaped distribution which would not have been observed in case a recent bottleneck had reduced genetic variability in the two populations. The fact that most loci displayed a significant heterozygosity deficiency could be explained by population subdivision and the mixed mating system exhibited by wild sorghum populations. Furthermore, the possibility of a historical expansion of wild sorghum populations and presence of null alleles could not be ruled out.     

Genetic diversity and species delimitation in the cultivated and wild Guinea yams (Dioscorea spp.) from Southwest Ethiopia as determined by AFLP (amplified fragment length polymorphism) markers

Yams (Dioscorea spp.) rank as the fourth most important root and tuber crop after potatoes, cassava and sweet potatoes. They are an economic crop in most of the tropics especially in West Africa, which produces over 95 % of the world output. Despite their cultural and economic importance there is taxonomic confusion regarding Guinea yams. The currently used classification scheme, which relies on vegetative and inflorescence characters, does not consistently delimit species boundaries between members of Guinea yams (D. cayenensis Lam.–D. rotundata Poir. complex), their wild relatives (D. abyssinica Kunth and D. praehensilis Benth.,) and D. sagittifolia Pax. Establishing the taxonomic identity of the germplasm and understanding the systematic relationships among crops is vital to the management of genetic resources and the utilization of accessions. In this study, amplified fragment length polymorphism (AFLP) genetic fingerprinting was used to evaluate and characterize 43 individual plants, belonging to different populations of wild and cultivated Guinea yams. The three primer combinations used in the AFLP analyses generated 158 scorable bands, with an overall polymorphism of 78 %. Ordination and cluster analyses of AFLP data failed to produce any clear species boundary between either the Guinea yam accessions or between them and their wild relatives. The average genetic similarity between the study individuals of Guinea yams and their wild relatives ranged from 60 to 100 %. The first, second and third principal coordinates axes cumulatively account for 77.45 % of the total variation. AFLP analyses also revealed a higher genetic divergence among cultivated Guinea yam accessions of the Sheko cultivars. Ordination and cluster analysis using UPGMA revealed no clear species boundaries between members of the complex. Thus, the taxonomy of these “species” needs to be revisited using other markers.     

Conserving genomic variability in large mammals: Effect of population fluctuations and variance in male reproductive success on variability in Yellowstone bison

Loss of genetic variation through genetic drift can reduce population viability. However, relatively little is known about loss of variation caused by the combination of fluctuating population size and variance in reproductive success in age structured populations. We built an individual-based computer simulation model to examine how actual culling and hunting strategies influence the effective population size (N_e) and allelic diversity in Yellowstone bison over 200 years (～28 generations). The N_e for simulated populations ranged from 746 in stable populations of size 2000 up to 1165 in fluctuating populations whose census size fluctuates between 3000 and 3500 individuals. Simulations suggested that ～93% of allelic diversity, for loci with five alleles will be maintained over 200 years if the population census size remains well above ～2000 bison (and if variance in male reproductive success is high). However for loci with 20 alleles, only 83% of allelic diversity will be maintained over 200 years. Removal of only juveniles (calves and yearlings) resulted in longer generation intervals which led to higher maintenance of allelic diversity (96%) after 200 years compared to the culling of adults (94%) when the mean census size was 3250 (for loci with five alleles). These simulations suggest that fluctuations in population census size do not necessarily accelerate the loss of genetic variation, at least for the relatively large census size and growing populations such as in Yellowstone bison. They also suggest that the conservation of high allelic diversity (>95%) at loci with many alleles (e.g., ?5) will require maintenance of a populations size greater than approximately 3250 and removal of mainly or only juveniles.     

Isozyme polymorphism and geographic differentiation in a collection of French perennial ryegrass populations

Summary A sample of 60 natural populations of perennial ryegrass from France has been studied for allelic variation at 7 polymorphic enzyme loci. Population genetic statistics are of the same magnitude than those previously reported for other outbreeding, short-lived perennial species (P = 64%, A = 2.75, H = 0.270).Genotype frequencies at most collection sites do not deviate significantly from Hardy-Weinberg expectations, with however a slight deficit of heterozygotes which may be accounted for by a Wahlund effect. Gene diversity is mainly explained by the within population component. The between population differentiation F_st averaged on 4 loci is only 0.054, which accounts for only 6% of the whole diversity.When mapped, most allele frequencies do not show any special structure. Only five alleles present a clinal trend from North to South. These 5 alleles are probably related to some climatic factors such as average temperature or potential evapotranspiration. The causal hypotheses about the low level of between-population differentiation and spatial structure are discussed with reference to the literature.The consequences of the found population structure for sampling and conservation strategies of natural populations for genetic resources are presented and discussed.     

Genetic characterization of the orphan crop tef [Eragrostis tef (Zucc.) Trotter] accessions using simple sequence repeat markers

Tef is the most important and well adapted cereal crop in Ethiopia and grows better than other cereals both in biotic and abiotic stress conditions. In this study 93 tef accessions representative of various agro-ecologies of Ethiopia along with four improved varieties, one local check and six wild relatives were studied. The materials were genotyped with 12 simple sequence repeat markers (SSRs) to investigate the extent and structure of the genetic diversity of tef. A total of 152 alleles were detected indicating high polymorphism in the studied accessions. The number of alleles per polymorphic loci ranged from seven for CNLT 538 to 29 for CNLT150 with an average of 12.67. High average polymorphic information content (0.82) and average expected heterozygosity (0.86) also signifies the suitability and efficiency of SSR markers to discriminate among tef genotypes. Cluster, principal coordinate and structure analyses grouped the 98 tef genotypes and six wild relatives into four distinct classes. The groupings showed no special pattern despite the different regions of origins for the accessions; however, the five wild relatives were grouped together. The analysis of molecular variance and fixation index showed low genetic differentiation and high gene flow between regions revealing that much of the variability was attributed to within populations variation. Generally, the present study showed that there is high genetic variability with unstructured genetic pattern among the studied tef genotypes which implies the vitality of conserved tef germplasms at Ethiopian Biodiversity Institute and the impact of the seed exchange system on tef breeding activities in Ethiopia.

     

Unexpected high levels of genetic variability and the population structure of an island endemic rodent (Oryzomys couesi cozumelae)

Oryzomys couesi cozumelae is an endemic, threatened rodent from Cozumel Island, Mexico. We estimated its genetic diversity and structure by analyzing microsatellite loci in 228 samples from 12 sampling sites widely distributed throughout the island. Unexpected high levels of genetic and allelic diversity were found: a total of 54 alleles, an average of 10.8 alleles per locus, and high heterozygosity values (mean H_O = 0.624, H_E = 0.690 and H_Nei = 0.689). These values are higher than those reported for small sized insular mammals, higher than that found in 37 individuals of the mainland O. couesi from southern Mexico (H_O = 0.578) that we analyzed for comparative purposes, and similar to those of other mainland small mammal populations. Despite factors that affect Cozumel’s biota, such as exotic predators and competitors, hurricanes, seasonal population fluctuations and anthropogenic activities, no evidence of genetic bottlenecks was found. A significant population structure was observed and a model of isolation-by-distance was supported. Our findings render O. c. cozumelae a high conservation value, not only for its high genetic diversity and structure, but because available data suggests that its population has declined significantly in recent years. Further habitat fragmentation and population isolation could result in a higher genetic structure and loss of genetic diversity. The protection of habitat, the maintenance of habitat connectivity and the removal of introduced competitors and predators are a conservation priority. Acknowledging that the genetic structure of populations has crucial conservation implications, the present genetic information should be taken into account in management plans for the conservation of O. c. cozumelae.     

鳜原种群体和养殖群体遗传多样性的微卫星分析

本研究利用20对微卫星引物对鳜（Sinipelrca chuatsi）原种群体和养殖群体进行遗传多样性分析。结果表明,在鳜原种群体中检测到多态性位点14个,养殖群体11个。在两个群体中共检测到等位基因数96个,其中原种群体检测到等位基因数53个,每个位点的等位基因数在1～7之间,平均有效等位基因数为2．7390;养殖群体检测到等位基因数43个,每个位点的等位基因数在1-6之间,平均有效等位基因数为2．1284。原种群体的平均观察杂合度0．5708,Nei氏期望杂合度0．5295,平均多态信息含量PIC0．5353;养殖群体的平均观察杂合度0．3839,Nei氏期望杂合度0．4011,平均多态信息含量PIC0．5043。因此,与养殖群体相比,鳜原种群体仍有丰富的遗传多样性。本研究可为鳜种质资源的保护、监测和遗传育种提供分子水平上的数据。     

Population genetic structure of in situ wild Sorghum bicolor in its Ethiopian center of origin based on SSR markers

In situ population studies of wild relatives of crops are crucial for the conservation of plant genetic resources, especially in regions with high genetic diversity and a risk of local extinction. Ethiopia is the center of origin for sorghum, yet little is known about the genetic structure of extant wild populations. Using 9 Simple Sequence Repeat loci, we characterized 19 wild populations from five regions, 8 local cultivar populations from three regions, and 10 wild sorghum accessions from several African countries. To our knowledge, this is the most comprehensive study to date of in situ wild sorghum populations in Africa. Genetic diversity corrected for sample size was significantly greater in the wild populations in situ than in local cultivars or the accessions. Approximately 41 % of the genetic variation in the wild plants was partitioned among populations, indicating a high degree of differentiation and potential value for germplasm conservation, and the average number of migrants (N_m) per generation was 0.43. Cluster analyses showed that some wild populations were grouped by geographic region, whereas others were not, presumably due to long-distance seed movement. Four wild populations from disjunct regions formed a unique cluster with an Ethiopian accession of subsp. drummondii and probably represent a weedy race. STRUCTURE and other analyses detected evidence for crop-wild hybridization, consistent with previous molecular marker studies in Kenya, Mali, and Cameroon. In summary, in situ wild sorghum populations in Ethiopia harbor substantial genetic diversity and differentiation, despite their close proximity to conspecific cultivars in this crop/wild/weedy complex.     

Genetic diversity assessment of Bulgarian durum wheat (<Emphasis Type="Italic">Triticum durum</Emphasis> Desf.) landraces and modern cultivars using microsatellite markers

The genetic diversity in a Triticum durum Desf. collection, consisting of 102 Bulgarian landraces, nine Bulgarian and 25 introduced cultivars was studied using 14 highly polymorphic microsatellite markers. A total of 100 alleles were identified, with an average of 7.14 alleles per marker. The gene diversity values (He) of the markers for the total samples ranged from 0.23 (WMS357 and WMS631) to 0.77 (WMS46), with an average of 0.52. Within the landraces that were collected from 18 sites in Southern Bulgaria showed 2–11 alleles per locus with an average of 6.07. The microsatellite analysis suggests that the genetic diversity among landraces is lower compared to the diversity levels for durum wheat in countries close to the main centers of wheat domestication. Breeding activities have caused significant reduction of the allelic polymorphism, elimination of rare alleles, and increase in the number of common alleles and the frequency of dominating alleles.     

Genetic diversity and geographical peculiarity of Tibetan wild soybean (Glycine soja)

Tibet is the highest Plateau in China and the world, however wild soybean has been found in its southeastern fringe region adjacent to the northwest of Yunnan Province. Tibetan wild soybean was distributed only in the Gongrigabuqu-River Gorge in southeast Tibet. This regional plant species belong to the flora of Himalayan-Hengduan Mountains, which comprises composite elements of ancient arcto-tertiary flora, tropical and semitropical flora. To date, few studies have been carried out on Tibetan wild soybean. Studying Tibetan wild soybean together with other regional ones helps to understand the history of the origin and dissemination of wild soybean species in China. Here we reported the status of genetic diversity in Tibetan wild soybean and the genetic relationship between Tibetan and other regional wild soybeans revealed by nuclear SSR markers. The results showed that the Tibetan wild soybean sample was significantly differentiated from other regional ones, as characterized by the lowest mean allelic richness ( [^(\textr)] {\hat{\text{r}}}  = 1.40) and gene diversity (H _e = 0.130) and the highest ratios of regionally unique alleles (63.26%) and fixed alleles (46.94%). These genetic attributes suggested that Tibetan wild soybean may have undergone severe adaptation selection for the plateau climate and ecogeographical conditions, and had less genetic exchange with inland populations. The regional population south of the Changjiang River (Central and South China) showed higher genetic richness. UPGMA cluster analysis revealed two large geographical groups, Tibetan and inland, and revealed closer relationship among the eastern populations, which suggested that the dissemination of this species in the eastern part of China might be rapider.     

Low levels of genetic variation among southern peripheral populations of the threatened herb, Leontice microrhyncha (Berberidaceae) in Korea

Levels of genetic variation and intrapopulation genetic structures of Leontice microrhyncha S. Moore (Berberidaceae) were assessed for six populations in South Korea, representing the southern most range of a species found in Northeast China and the Korean peninsula. Detected genetic diversity (H_es) was very low (0.024) and F_IS values showed large heterozygote deficiencies. The small percentage of polymorphic loci and numbers of alleles per locus suggest that L. microrhyncha has a history of severe or long-lasting population bottlenecks that have eroded genetic diversity. This study suggests that the Korean population appears to consist of two historically isolated and independently evolving populations. It seems likely that these groups have been isolated and unstable for a significant period of time. However, the effects of recent habitat fragmentation on the historically disjunct and fragmented population system found in L. microrhyncha were not those predicted from the lack of significant relationships between population-level patterns of genetic variation and population sizes. Most non-unique genotypes were shared by most individuals and the lower level of diversity, high levels of inbreeding and population differentiation as well as high rate of seed production indicated that this species is autogamous and self-compatible and probably largely selfing. Therefore, to preserve extant genetic variation, all populations must be protected across the small geographic range of the species to retain both allelic and genotypic diversity.     

Genetic diversity of wild soybean (<Emphasis Type="Italic">Glycine soja</Emphasis> Sieb. et Zucc.) and Japanese cultivated soybeans [<Emphasis Type="Italic">G. max</Emphasis> (L.) Merr.] based on microsatellite (SSR) analysis and the selection of a core collection

Wild soybeans, Glycine soja, are a source of genetic variation to improve soybeans. To improve the efficiency evaluation of conserved germplasm a core or mini-core collection approach that maximizes allelic diversity in a proportion of the whole collection has frequently been advocated. The genetic diversity of a wild soybean collection (1,305 accessions) plus Japanese cultivated soybeans (53 accessions) were analyzed at 20 SSR marker loci. Higher levels of allelic diversity were found in wild soybeans (28 alleles per locus) than Japanese cultivated soybean (five alleles per locus). The genetic distance between wild soybeans from different regions reflected their proximity. Accessions from Russia consisted of a diverse array of alleles resulting in accessions being spread further apart in a PCA plot than accessions from other regions. Accessions of wild soybean from Korea included many rare alleles and thus had a high representation in the core collection. The two core collections developed here, traditional and mini, consisted of 192 accessions with 97% of the allelic diversity (14% of the whole collection) and 53 accessions with 62.4% of the allelic diversity (5% of the whole collection), respectively.     

Genetic diversity and gene flow dynamics revealed in the rare mixed populations of wild soybean (Glycine soja) and semi-wild type (Glycine gracilis) in China

Thus far, there is little knowledge of the genetic diversity, structure and gene flow dynamics in rare wild and semi-wild soybean mixed populations, and such information is vital for understanding of the origin of semi-wild soybean (Glycine gracilis) and the biosafety protection of wild soybean from transgenic soybeans. Population eco-genetic data are necessary to provide a more coherent and comprehensive understanding of the genetic events that occurred in the natural habitats of wild soybean (Glycine soja). We tested genetic diversity and structure of 11 wild mixed populations of wild soybean (Glycine soja) and semi-wild soybean (G. gracilis), 1 wild soybean population, and 1 cultivated soybean variety population were studied using 20 nuclear microsatellite markers (SSRs). We found based on microsatellite polymorphisms that the mixed populations were characterized by higher mean heterozygosity (H _o = 0.029) and outcrossing rate (t _m = 6.35 %), and lower fixation index (F _is = 0.891), and the semi-wild plants had distinctly higher heterozygosity (H _o = 0.081) than that of the wild plants (H _o = 0.007). The occurrence of semi-wild plants influenced population genetic structure but not geographical population differentiation. These mixed populations exhibited strong ecogeographical differentiation, which suggests that their original populations were colonized over a long phytogeographical history. The introgression occurred through pollen gene flow from the soybean fields into wild populations and created the semi-wild plants, with significant genetic differentiation from the typical wild ones. Introgressive genes could become established by two possible modes in wild soybean populations by both self-segregation and/or intrapopulation secondary hybridization. The latter deserves attention because of the possibility of rapid transgene escape.     

Microsatellite analysis of genetic population structure of the endangered cyprinid Anaecypris hispanica in Portugal: implications for conservation

The endangered fish species Anaecypris hispanica is restricted to eight disjunct populations in the Portuguese Guadiana drainage. The genetic structure of these populations was studied in order to determine levels of genetic variation within and among populations and suggest implications for conservation of the species. Based on five microsatellite loci, the null hypothesis of population homogeneity was tested. Tests for genetic differentiation revealed highly significant differences for pairwise comparisons between all populations, and substantial overall population subdivision (F_ST=0.112). All sampled populations contained unique alleles. Our findings indicate marked genetic structuring and emphasise limited dispersal ability. The high levels of genetic diversity detected within and among A. hispanica populations suggest, however, that the observed fragmentation and reduction in population size of some populations during the last two decades, has impacted little on levels of genetic variability. Data imply that most A. hispanica populations should be managed as distinct units and that each has a high conservation value containing unique genetic variation. It is argued that geographic patterns of genetic structuring indicate the existence of eight management units.     

Isozyme Polymorphism and Genetic Differentiation in Natural Populations of a New Tetraploid Species <Emphasis Type="Italic">Avena agadiriana</Emphasis>, from Morocco

A new wild tetraploid oat Avena agadiriana Baum et Fedak was collected from the five populations along the Atlantic coast in Morocco. Variations in six enzyme systems were surveyed and allele frequency, percentage of polymorphic loci, number of alleles per locus, observed and expected heterozygosities, and unbiased genetic distance were calculated. Phenotypic frequencies were scored representing 11 polymorphic loci. The mean percentage of polymorphic loci was 46.25, the mean number of alleles per locus was 1.502, and the mean expected heterozygosity was 0.1526. Two heterozygotes resulting from outcrosses were found in the progeny from M60 and M71. The population of M71 had peculiar alleles Est-4A not present in the other populations. Most of the genetic diversity of this species was between populations with little existing within populations. Geographic and genetic distances between populations were positively correlated with each other and the correlation coefficient was 0.7031. Cluster analysis showed two strongly differentiated groups were apparent, M71 and M74, and the remainder. The former group appears to be adapted to man-made habitat, such as road side or eucalyptus plantation, and the latter to a distinct dry, sandy habitat. To make wide intra-specific variation in this species, the modified mating system would be indispensable.     

白孔雀微卫星DNA遗传多样性及其分类地位

利用14对蓝孔雀(Pavo cristatus)和绿孔雀(P.muticus)的微卫星标记对白孔雀基因组DNA进行扩增,发现都能扩增出特异性条带,每对引物扩增的平均等位基因数为1.71,有7对引物具有较丰富的多态性,其中MCW0080和MCW0098标记期望杂合度分别为0.7207和0.7571,多态信息含量分别为0.658和0.695,表现出丰富的遗传多样性和较高的选择潜力。白孔雀×蓝孔雀和绿孔雀群体的遗传多样性分析结果表明,白孔雀、绿孔雀和蓝孔雀3个群体的杂合度和遗传多样性水平都很低,期望杂合度分别为0.2579、0.2482和0.2744,群体间的遗传分化系数为9.7%,群体间分化极显著(P<0.001),白孔雀与蓝孔雀的亲缘关系最近,Reynolds'遗传距离和基因流分别为0.0295和8.6112,表明白孔雀不是蓝孔雀一个亚种。     

Evaluation of genetic diversity and relationships within an on-farm collection of Perilla frutescens (L.) Britt. using microsatellite markers

The present study demonstrates utilization of 11 microsatellite markers to explore genetic diversity held in Perilla frutescens (L.) Britt. landrace accessions growing on farms in different parts of Korea and Japan and to assess their genetic relationships. All microsatellite loci were polymorphic and produced a total of 96 alleles ranging from 4 to 20, with an average of 8.7 alleles per locus. Of the 96 alleles found, a total of 15 unique landrace-specific alleles were observed at 9 different loci. The locus GBPFM203 provided the highest number of alleles (20), of which five were unique and each specific to a particular landrace accession. The occurrence of unique, accession-specific alleles presented molecular evidence for the generation of new alleles within on-farm collection of Perilla. The mean values of observed (H _O) and expected heterozygosity (H _E) were 0.39 and 0.68, respectively, indicating a considerable amount of polymorphism within this collection. A genetic distance-based phylogeny grouped the two Perilla varieties, var. frutescens and var. crispa (Thunb.) Decne into two distinct groups. Accessions belonging to var. frutescens could also be divided into two subgroups at a close genetic distance (GD = 0.432). The overall clustering pattern did not strictly follow the grouping of accessions according to their geographic origins. These observations are indicative of extensive germplasm exchange among farms from different geographical regions. The genetic similarity observed among the Perilla landraces may be useful for future Perilla crop variety identification, conservation, and improvement programs.