Genetic diversity and phylogenetic relationship as revealed by inter simple sequence repeat (ISSR) polymorphism in the genus Oryza

Inter simple sequence repeat (ISSR) polymorphism was used to determine genetic diversity and phylogenetic relationships in Oryza. Forty two genotypes including 17 wild species, representing AA,BB,CC,EE,FF,GG,BBCC,CCDD, and HHJJgenomes, two cultivated species, Oryza sativa (AA) and Oryza glaberrima (AA), and three related genera, Porteresia coarctata, Leersia and Rhynchoryza subulata, were used in ISSR analysis. A total of 30 ISSR primers were screened representing di-, tri-, tetra- and penta-nucleotide repeats, of which 11 polymorphic and informative patterns were selected to determine the genetic diversity. The consensus tree constructed using binary data from banding patterns generated by ISSR-PCR clustered 42 genotypes according to their respective genomes. ISSR analysis suggests that the genus Oryza may have evolved following a polyphyletic pathway; Oryza brachyantha (FF genome) is the most divergent species in Oryza and Oryza australiensis (EE genome) does not fall under the Officinalis complex. DNA profiles based on ISSR markers have revealed potential diagnostic fingerprints for various species and genomes, and also for individual accessions/cultivars. Additionally ISSR revealed 87 putative genome/species-specific molecular markers for eight of the nine genomes of Oryza. The ISSR markers are thus useful in the fingerprinting of cultivated and wild species germplasm, and in understanding the evolutionary relationships of Oryza. Received: 23 August 1999 / Accepted: 10 November 1999     

云芝菌株遗传多样性的ISSR分析

来自全国的34株野生菌株经形态学特征和结合ITS序列鉴定为云芝。采用ISSR标记技术对34株野生云芝菌株进行遗传多样性分析。从20条引物中筛选出7条ISSR引物,扩增得到95个扩增位点,其中多态性位点88个。多态性位点占92.6%,表明ISSR标记的多态性非常高。基于ISSR条带构建亲缘关系树状图,其中遗传变异系数范围为0.58-0.91。34个云芝菌株在相似系数0.60时分为4个类群,不同菌株的遗传差异性与地理分布有一定联系。     

Phylogenetic relationships of turfgrasses as revealed by restriction fragment analysis of chloroplast DNA

Chloroplast DNAs (cpDNAs) were analyzed in order to clarify the phylogenetic relationships among turfgrasses. Physical maps of cpDNAs from Agrostis stolonifera and Zoysia japonica, which are representative species of cool (C3 type) and warm (C4 type) season turfgrasses, respectively, were constructed with four restriction enzymes, i.e., PstI, SalI, SacI, and XhoI. The genome structures of these cpDNAs were found to be similar to each other in terms of genome size and gene orders, showing thereby a similarity to other grass cpDNAs. CpDNAs of 5 species of cool season turfgrasses and 6 species of warm season turfgrasses as well as four species of cereals, distributed among 14 genera of Gramineae, were digested with PstI, XhoI, and BamHI, and their restriction fragment patterns were compared. Their genome sizes were estimated to be 135–140 kbp. Each species showed characteristic RFLP patterns. On the basis of the frequency of commonly shared fragments, a dendrogram showing the phylogenetic relationships among their cpDNAs was constructed. This dendrogram shows that turfgrasses can be divided into three major groups; these correspond to the subfamilies. Cool and warm season turfgrasses are clearly distinguishable from each other, and the latter can be further classified into two subgroups that correspond to Eragrostoideae and Panicoideae. Our classification of turfgrasses and cereals by RFLP analysis of cpDNA agreed in principal with their conventional taxonomy, except for the location of Festuca and Lolium.Contribution no. 101 from the Kihara Institute for Biological Research, Yokohama City University, Yokohama 232, Japan     

Genetic diversity of yacon (Smallanthus sonchifolius (Poepp. & Endl.) H. Robinson) and its wild relatives as revealed by ISSR markers

Set of 29 accessions of Smallanthus sonchifolius, an important tuber crop from South America, and its three wild relatives were analysed using the Inter Simple Sequence Repeats (ISSR) markers. Seven primers out of 30 primers screened gave clear and reproducible spectra. The range of amplified bands was from 2500 bp to 300 bp. These seven primers generated in total 77 bands, from which 75 (97.4%) were polymorphic. Nei's genetic distances between samples varied from 0.01 to 0.24. The Shannon's index (I) was estimated as 0.0392. The UPGMA dendrogram created using the Neighbour joining method and based on the Dice's dissimilarity coefficient separated clearly the wild accessions from all S. sonchifolius samples, which remained close to each other, confirming the clonal origin and thus a very low genetic variability within the genus.     

Genetic relationship among species in the genus Sonneratia in China as revealed by inter-simple sequence repeat (ISSR) markers

Inter-simple sequence repeat (ISSR) analysis was used to establish the genetic relationship among six Sonneratia species in China. A total of 100 primers were screened, of which 11 polymorphic and informative patterns were selected to determine the genetic relationship. Four hundred and eighty five DNA bands were amplified, among which 481 bands (99.18%) were polymorphic. The average number of DNA bands amplified by each primer was 44. Similarity coefficients were calculated and a dendrogram was constructed by using UPGMA algorithm. The six Sonneratia species were divided into two major groups. Group I consisted of Sonneratia caseolaris, Sonneratia × gulngai, Sonneratia alba, and Group II included Sonneratia × hainanensis, Sonneratia ovata and Sonneratia apetala. In Group I, S. × gulngai was close to S. alba, and in Group II, S. × hainanensis was close to S. ovata. The genetic relationships estimated by the polymorphism of ISSR markers are basically in agreement with those previously inferred by morphological data. Thus, ISSR approach is a reliable marker system that can be used to study genetic relationship in the genus Sonneratia.     

Genetic diversity analysis of sedges (Carex spp.) in Shandong,China based on inter-simple sequence repeat

As the plants of turfgrass, forage and environment protecting plants, Carex L. has important economic value. The aims of the study were to construct ISSR-PCR amplification reaction system on Carex and to investigate the genetic diversity of 16 Carex populations belonging to 10 species using inter-simple sequence repeat (ISSR) makers. A total of 120 polymorphic amplified bands were obtained from 6 primers, and the percentage of polymorphisms was 100%. Genetic similarity between accessions ranged from 0.4250 to 0.8667 with an average of 0.6459, suggesting that the collected accessions are genetically diverse. All accessions were grouped into 3 clusters according to the UPGMA dendrogram. Most of the populations from the same regions can be basically clustered together and molecular grouping of Carex spp. correlates with geographical distribution and ecological environment. However, a few appeared to be divergent with the geographical distribution. The results showed that ISSR maker is an effective tool for the study of genetic diversity in Carex. As for the genus Carex, such information is needed for successful management and preservation of species to ensure the maintenance of genetic variation.     

Genetic relationships among species of the genus Diplotaxis (Brassicaceae) using inter-simple sequence repeat markers

Inter-simple sequence repeat (ISSR) amplification was evaluated for its applicability as a genetic marker system to establish relationships among ten Diplotaxis species. ISSR amplification generated multiple banding profiles with the 12 primers from all DNA samples, with an average of 41.2 fragments per primer. This average was clearly higher for the 5′ triple-anchored primers than for other primers. The banding profiles were highly repeatable across separate PCR runs. DNA mixing procedures were found to be appropriate strategies to generate banding patterns representative of each species studied. Similarity values were calculated considering 494 ISSR bands, and a dendrogram was constructed based on the similarity matrix. The ten Diplotaxis species were clustered into two major groups. The first group consists of five species, Diplotaxis tenuifolia and Diplotaxis cretacea, and Diplotaxis muralis with their putative parents (D. tenuifolia and Diplotaxis viminea). In the second group three species are clustered that are closely related (Diplotaxis virgata, Diplotaxis catholica and Diplotaxis siettiana), in addition to Diplotaxis harra, and Diplotaxis erucoides, which has lowest similarity values with the rest of the species studied. The two groups defined in the present work may be concordant with the idea suggested by several authors of a biphyletic origin for Diplotaxis. The genetic relationships among the ten Diplotaxis species estimated by the polymorphism of ISSR markers are in agreement with those previously inferred by other morphological, biochemical and molecular data, indicating the reliability of the ISSR approach for this purpose. Received: 3 January 2000 / Accepted: 31 March 2000     

Genotypic diversity and structure of Satureja mutica revealed by inter-simple sequence repeat markers

Satureja mutica (Lamiaceae) is an herbaceous medicinal plant which grows in Iran. The objective of the study was to obtain an overview of the genetic relatedness among and within seven populations of this species using inter-simple sequence repeat (ISSR). Fourteen ISSR primers amplified a total of 197 DNA fragments of which 176 (88.91%) were polymorphic. All ISSR primers were highly effective in discriminating among the populations. Genetic similarity coefficients ranged from 0.45 to 0.94, indicating considerable distance and diversity in the germplasm and were confirmed by clustering analysis. The dendrogram showed a clear clustering pattern of plants indicating a significant association between genetic similarity and geographical distance. Analysis of molecular variance revealed that a greater proportion of total genetic variation existed within populations (75%) rather than among populations (25%). The study indicated that ISSR markers were effective and reliable for assessing the degree of genetic variation of S. mutica. These findings can support future research on the selection of S. mutica for breeding and medicinal plant development.     

Genetic diversity of Sinojackia dolichocarpa (Styracaceae), a species endangered and endemic to China,detected by inter-simple sequence repeat (ISSR)

Sinojackia dolichocarpa, a species endangered and endemic to China, is distributed only in the regional area of Shimen and Sangzhi in Hunan Province. Inter-simple sequence repeat (ISSR) markers were used to investigate the genetic diversity within and among the four natural populations of S. dolichocarpa. Leaf samples were collected from 84 individuals. Thirteen ISSR primers selected from 80 primers gave rise to 137 discernible DNA bands of which 100 (72.99%) were polymorphic. On average each primer gave rise to 10.5 bands including 7.7 bands with polymorphic profile. At the species level, high genetic diversity was detected (PPB: 72.99%; H_E: 0.2255; Ho: 0.3453). However, relatively low genetic diversity existed within populations. Population in Maozhuhe (MZH) exhibits the greatest level of variability (PPB: 40.38%, H_E: 0.1566, Ho: 0.2330), whereas the population in Jingguanmen (JGM) finds its own variability at the lowest level (PPB: 30.66%; H_E: 0.1078; Ho: 0.1601). A high level of genetic differentiation among populations was revealed by Nei's gene diversity statistics (45.30%), Shannon's information measure (45.24%) and analysis of molecular variance (AMOVA) (52.88%). The main factors responsible for the high level of differentiation among populations are probably related to the selfing reproductive system and the isolation of populations. The strong genetic differentiation among populations indicates that the management for the conservation of genetic variability in S. dolichocarpa should aim to preserve every population.     

Genetic diversity of the threatened Chinese endemic plant,Sinowilsonia henryi Hemsi. (Hamamelidaceae), revealed by inter-simple sequence repeat (ISSR) markers

Sinowilsonia henryi Hemsi., the only representative of the monotypic genus Sinowilsonia Hemsi. (Hamamelidaceae), is a threatened plant endemic to China with high phylogenetical, ecological and economical values. In the present study, inter-simple sequence repeat (ISSR) markers were employed to investigate the genetic diversity and differentiation of 214 individuals sampled from 14 populations. Fifteen selected primers yielded a total of 178 bright and discernible bands. The genetic diversity was low at the population level (h = 0.1025; I = 0.1506; PPL = 26.7%), but quite high at the species level (h = 0.2449; I = 0.3690; PPL = 72.5%). In line with the limited gene flow (N_m = 0.3537), the hierarchical analysis of molecular variance (AMOVA) revealed pronounced genetic differentiation among populations (Φ_ST = 0.6639). Furthermore, the Mantel test revealed a significant correlation between genetic and geographic distances among populations (r = 0.688, P = 0.001), indicating the role of geographic isolation in shaping its present population genetic structure. The present patterns of genetic diversity of S. henryi were assumed to result largely from its evolutionary history and geographic factors. Based on these findings, conservation strategies were proposed to preserve this threatened plant.