Development of a sex-specific molecular marker for Japanese hop <Emphasis Type="Italic">Humulus Japonicus</Emphasis> Siebold &; Zucc

Japanese hop (Humulus japonicus Siebold & Zucc.) is a dioecious plant and a suitable model for studying the XX/XY₁Y₂ system of sex chromosomes. To develop a sex-specific marker, 12 RAPD and 36 ISSR markers were analyzed on the basis of pools of male and female plants identified after flowering. We were the first to identify ISSR marker K-16, which manifested stable amplification of an approximately 300-bp fragment in male plants and the absence of amplification in female plants in the populations examined. Marker effectiveness was confirmed in several Japanese hop populations of different origin.     

Identification of a DNA marker linked to sex determination in <Emphasis Type="Italic">Calamus tenuis</Emphasis> Roxb., an economically important rattan species in northeast India

Calamus tenuis (Roxb.), a versatile, dioecious rattan species predominant in northeast India, has emerged as an economical material for light furniture and cottage industries. For the genetic improvement of the species, it is essential to be able to recognize male and female plants at the seedling stage. Screening of genomic DNA with inter-simple sequence repeat (ISSR) primers was used to discover sex-specific polymerase chain reaction (PCR) amplification products. Thirty ISSR primers were screened on female and male C. tenuis plants from five different provinces of Assam, India. A putative female-specific marker was identified. The applicability of ISSR-PCR analysis for development of sex-linked molecular markers in Calamus is discussed.     

Comparative Assessment of ISSR and RAPD Marker Assays for Genetic Diversity Analysis in Jojoba [Simmondsia chinensis (Link) Schneider]

A collection of male and female plants of ten Jojoba [Simmondsia chinensis (Link) Schneider] genotypes was analyzed with 50 RAPID and 55 ISSR markers to compare the efficiency and utility of these techniques for detecting genetic polymorphism. RAPID and ISSR analysis yielded 442 and 566 scorable amplified products, respectively, of which 60.7 and 69.3% were polymorphic. ISSRs revealed efficiency over RAPDs due to high EMR (effective multiplex ratio), DI (diversity index, mean PIC per primer) and MI (marker index) values. Jaccard similarity matrices among male plants, among female plants and between male and female plants of the ten jojoba genotypes varied between 0.705-0.784. Dendrograms generated by cluster analysis (UPGMA, NTSYS-pc) supported by bootstrap values using RAPID and ISSR datasets led to grouping of most of male and females genotypes in separate clusters. While pattern of clustering remained more or less same, the two dendrograms did differ with respect to the grouping of a few male and female genotypes. The value of the Mantel test shows poor correlation (r = 0.41) between ISSR and RAPID marker datasets.     

Identification of sex in hop (Humulus lupulus) using molecular markers.

The rapid identification of sex in the dioecious hop (Humulus lupulus) is important for the breeding of this cultivated plant because only unfertilized flowers of the female plants are used as an ingredient in the production of beer. It is thought that a sex-chromosome mechanism controls the development of male or female plants. We have compared pools of male and female plants derived from a hop cross to identify molecular markers associated with the Y or male-specific chromosome. Of 900 functional RAPD primers, 32 revealed fragments specific for male plants that were absent in female plants of this cross. Subsequently, the 32 positive primers were tested on unrelated male and female plants. Three of these 32 primers were specific for the Y chromosome in all lines. The Y-specific product derived from one of these primers (OPJ9) was of low copy in hybridization experiments and predominantly present in male plants. Primers developed from the DNA sequence of this product provide a marker for rapid sex identification in crosses of hop by means of PCR.     

Development of male-specific SCAR marker in date palm (Phoenix dactylifera L.)

Genetics of control mechanisms that underlies sex differentiation in date palm is not known. Sex of the plants becomes known only at the time of first flowering, which takes around 5 years. In comparison, molecular diagnosis (if available/feasible) promises quick and reliable identification of sex types very early when plantlets are growing in seedbeds. To develop such an assay, genomic DNA from 45 individual plants (25 female and 20 male) belonging to different varieties of date palm was subjected to PCR amplification using 100 random amplified polymorphic DNA (RAPD) and 104 intersimple sequence repeat (ISSR) primers. Initially, two bulk genomic DNA samples (each made by pooling DNA from ten male and female plants, separately) were used. A primer showing sex-specific band in bulked samples was further used for amplification of the genomic DNA of the individual samples of that bulk. Only one RAPD primer, OPA-02, amplified a fragment of ~1.0 kb in all the individual samples of male genotypes, whereas this fragment was absent in all the female genotypes. This male-specific fragment was cloned and sequenced (GenBank accession no. JN123357), and a sequence-characterized amplified region (SCAR) primer pair was designed that amplified a 406-bp fragment in both female and male genotypes and a unique fragment of 354 bp in only male genotypes. The SCAR marker was further validated using 25 female and ten male date palm plants belonging to different varieties collected from different locations.     

Assessment of Genetic Diversities of Selected Laminaria (Laminariales,Phaeophyta) Gametophytes by Inter-Simple Sequence Repeat Analysis

Inter-simple sequence repeat (ISSR) analysis was used to assess genetic diversity among 10pairs of male and female Laminaria gametophytes. A total of 58 amplification loci was obtained from 10selected ISSR primers, of which 34 revealed polymorphism among the gametophytes. Genetic distances were calculated with the Dice coefficient ranging from 0.006 to 0.223. A dendrogram based on the unweighted pair-group method arithmetic (UPGMA) average showed that most male and female gametophytes of the same species were clustered together and that 10 pairs of gametophytes were divided into four groups. This was generally consistent with the taxonomic categories. The main group consisted of six pairs of gametophytes, which were selected from Laminaria japonica Aresch. by intensive inbreeding through artificial hybridization. One specific marker was cloned, but was not converted successfully into a sequence characterized amplified region (SCAR) marker. Our results demonstrate the feasibility of applying ISSR markers to evaluate Laminaria germplasm diversities.     

Assessment of Genetic Diversities of Selected Laminaria （Laminariales, Phaeophyta） Gametophytes by Inter-Simple Sequence Repeat Analysis

Inter-simple sequence repeat (ISSR) analysis was used to assess genetic diversity among 10 pairs of male and female Laminaria gametophytes. A total of 58 amplification loci was obtained from 10 selected ISSR primers, of which 34 revealed polymorphism among the gametophytes. Genetic distances were calculated with the Dice coefficient ranging from 0.006 to 0.223. A dendrogram based on the unweighted pair-group method arithmetic (UPGMA) average showed that most male and female gametophytes of the same species were clustered together and that 10 pairs of gametophytes were divided into four groups. This was generally consistent with the taxonomic categories. The main group consisted of six pairs of gametophytes, which were selected from Laminaria japonica Aresch. by intensive inbreeding through artificial hybridization. One specific marker was cloned, but was not converted successfully into a sequence characterized amplified region (SCAR) marker. Our results demonstrate the feasibility.of applying ISSR markers to evaluate Laminaria germplasm diversities.     

Sex identification and genetic variation of Saccharina (Phaeophyta) gametophytes as revealed by inter-simple sequence repeat (ISSR) markers

Inter-simple sequence repeat (ISSR) polymerase chain reaction (PCR) markers were utilized to investigate the genetic variation between male and female gametophyte populations of strains Rongfu and 901 of Saccharina. In total, 11 ISSR primers were able to generate 135 satisfactory and reproducible loci, of which 134 were polymorphic with 99.26 % polymorphism. The percentages of polymorphism of female gametophyte populations (60 and 62 % for their respective strains) were higher than those of the males (53 %), and the Nei’s genetic diversity and Shannon’s information index showed a similar tendency. The clustering of gametophytes of the same sex from each strain was well resolved by both an unweighted paired group method using the arithmetic average and a principal component analysis, suggesting that any male/female gametophyte pair could represent each strain. However, a single pair was not adequate for germplasm maintenance because the genetic variance among individuals within a population accounted for 57.45 % of the total (P?<?0.0001), as shown by the analysis of molecular variance. The gametophyte sex could be identified by amplification with primer UBC809 because of a differential band present in the females. According to the sequence of this band, a pair of ISSR-derived sequence-characterized amplified region (SCAR) primers was designed. With the primers, one female-specific fragment was detected using PCR and Southern blot hybridization. This converted SCAR marker was localized on one unique chromosome of the female gametophytes of these two strains by use of fluorescence in situ hybridization, confirming that it was a female chromosome-specific marker.     

ISSR marker-assisted selection of male and female plants in a promising dioecious crop: jojoba (Simmondsia chinensis)

Simmondsia chinensis (Link) Schneider, a multipurpose and monogeneric dioecious shrub from arid zones, has emerged as a cash crop all over the globe. Its seed propagation poses severe problems due to its male-biased population: the male:female ratio is 5:1. Investigations have been carried out to generate a sex-specific Inter-simple sequence repeat (ISSR) marker for the early detection of male and female plants. Of the 42 primers analysed with a bulk sample of pooled male DNA and a bulk sample of pooled female DNA, only one primer, UBC-807, produced a unique ~1,200 base-pair fragment in the male DNA. To validate this observation, this primer was re-tested with individual male and female samples from eight cultivars. A similar unique ~1,200 bp fragment was present in the male individuals of all eight cultivars and completely absent in the female individuals tested. This is the first report of the use of ISSR markers to ascertain sex in physiologically mature S. chinensis plants.     

Trinucleotide microsatellite repeat is tightly linked to male sex in hop (<Emphasis Type="Italic">Humulus lupulus</Emphasis> L.)

Hop is a dioecious perennial, the female plants of which are cultivated for production of resin, used mainly in the brewing industry. Sex determination of hop plants is phenotypically determined in the second year of growth, so early sex determination at seedling stage, before planting, is important for breeding and cultivation purposes. We analyzed a microsatellite locus to determine sex specific differences in hop. Alleles of the locus showed tight linkage to male character, since no cross-over event was detected in two analyzed families with 181 progenies. The complete heterozygosity in 50 analyzed diverse males indicates a potential use of this marker for any desired parental pair. The marker is amplified in homologous chromosomes, which rules out incorrect determination of non-amplified samples, as can be the case with the dominant (presence/absence) type of markers. The described microsatellite locus is also highly variable, with 35 sized alleles, the distribution of which in different hop germplasms and their sequence variability are discussed. The sex specific marker determined in our study can contribute to studies of sex determination mechanisms and can be readily used in hop breeding and cultivation.     

利用ISSR标记分析红脂大小蠹微生境中球孢白僵菌遗传多样性

针对红脂大小蠹危害程度不同的3个地区的球孢白僵菌种群,利用ISSR（inter-simple sequence repeat）分子标记分析了各个种群的遗传多样性。从19条引物中筛选出10条多态性高、稳定性好的ISSR引物用于扩增分析。68株球孢白僵菌的Nei’s基因多样性（h）为0.2973,Shannon指数（Is）为0.4488。旬邑、宜君、古交3地白僵菌种群间的基因分化系数（GST）为0.0525,基因流（Nm）为9.0255;而来源于土壤、红脂大小蠹、蛀屑和树皮的白僵菌种群间的基因分化系数为0.1449,基因流为2.9508。各球孢白僵菌种群表现出不同的多样性水平,旬邑种群和红脂大小蠹虫种群的遗传多样性相对较高;地理分布种群间的差异不如分离基质种群间的差异明显,地理分布种群间存在明显的基因交流,而分离基质种群间的基因流较低,遗传分化明显。     

The first sex-specific molecular marker discovered in the moss Pseudocalliergon trifarium

Most dioecious plants do not exhibit discernible sexual dimorphism before sexual maturity. Therefore, it is impossible to address any sex-related questions during the prereproductive phase unless a genetic sex marker is available for gender determination. The aim of the present study was to develop a genetic sex marker for the moss Pseudocalliergon trifarium to allow gender and sex ratio determination at any stage in the life cycle. A high proportion of P. trifarium populations do not express sex. The screening of genomic DNA with inter simple sequence repeat (ISSR) primers was used to discover sex-specific polymerase chain reaction (PCR) amplification products. A presumably female-specific band was found, excised from the gel, cloned, and sequenced. A sequence-walking method was used to characterize the same region in males. A primer pair was designed to allow the amplification of a 159-bp portion of the female-specific DNA region. All tested material, up to 16-year-old herbarium specimens, provided unambiguous amplification products. This study successfully provides, for the first time in a moss, a sex-specific DNA marker. It allows reliable determination of gender and sex ratios. The short length of the amplification product is an advantage as satisfactory PCR products are more likely when the targeted sequence is short. The amount of variation in the DNA region shared by both sexes was relatively high. If the male sequence can be better characterized, the sex-specific regions could possibly be used to evaluate sex-specific phylogeographic patterns.     

大连地区岛屿与大陆玉竹种群遗传多样性的ISSR分析

选取大连地区大陆与海岛共有植物玉竹为研究对象,采用ISSR分子标记技术对来自5个海岛和4个大陆种群的262个玉竹个体进行遗传多样性的比较和分析。从10个筛选出的ISSR引物扩增得到120个位点信息,其中多态性条带百分率为91.67%,Nei's基因多样性指数（h）为0.346 0,Shannon信息指数（I）为0.510 8。其遗传分化系数（G_st）为0.117 4,基因流（N_m）为3.758 5。研究结果表明玉竹天然种群的遗传多样性较为丰富,种群间基因交流较为频繁,遗传距离与地理距离具有一定的相关性。通过海岛与大陆种群遗传多样性的比对发现,海岛种群的遗传多样性略高于大陆种群,表明在孤立的生境和更为复杂的选择压力下,海岛玉竹种群可能会积累更多的遗传变异从而形成较高的遗传多样性水平。本文研究结果将为进一步探讨隔离生境中天然植物种群遗传进化规律提供证据。     

Assessment of genetic fidelity of micropropagated <Emphasis Type="Italic">Swertia chirayita</Emphasis> plantlets by ISSR marker assay

Inter simple sequence repeat (ISSR) marker assay was employed to validate the genetic fidelity of Swertia chirayita plantlets multiplied in vitro by axillary multiplication upto forty-two passages. Sixteen ISSR primers generated a total of 102 amplicons among the tissue-cultured plants. Forty-eight amplicons were amplified in the outlier (a Swertia species). The outlier (negative control) was employed to rule out the possibility that the invariant fingerprint was due to chance alone and that the ISSR technique employed was not discriminatory enough to detect the off-types. A homogenous amplification profile was observed for all the micropropagated plants. The results confirmed the clonal fidelity of the tissue culture-raised S. chirayita plantlets and corroborated the fact that axillary multiplication is the safest mode for multiplication of true to type plants.     

Sex Distribution of Paper Mulberry (Broussonetia papyrifera) in the Pacific

BackgroundPaper mulberry (Broussonetia papyrifera (L.) L''Hér. ex Vent) is a dioecious tree native to East Asia and mainland Southeast-Asia, introduced prehistorically to Polynesia as a source of bark fiber by Austronesian-speaking voyagers. In Oceania, trees are coppiced and harvested for production of bark-cloth, so flowering is generally unknown. A survey of botanical records of paper mulberry revealed a distributional disjunction: the tree is apparently absent in Borneo and the Philippines. A subsequent study of chloroplast haplotypes linked paper mulberry of Remote Oceania directly to a population in southern Taiwan, distinct from known populations in mainland Southeast-Asia.MethodologyWe describe the optimization and use of a DNA marker designed to identify sex in paper mulberry. We used this marker to determine the sex distribution in selected localities across Asia, Near and Remote Oceania. We also characterized all samples using the ribosomal internal transcribed spacer sequence (ITS) in order to relate results to a previous survey of ITS diversity.ResultsIn Near and Remote Oceania, contemporary paper mulberry plants are all female with the exception of Hawaii, where plants of both sexes are found. In its natural range in Asia, male and female plants are found, as expected. Male plants in Hawaii display an East Asian ITS genotype, consistent with modern introduction, while females in Remote Oceania share a distinctive variant.ConclusionsMost paper mulberry plants now present in the Pacific appear to be descended from female clones introduced prehistorically. In Hawaii, the presence of male and female plants is thought to reflect a dual origin, one a prehistoric female introduction and the other a modern male introduction by Japanese/Chinese immigrants. If only female clones were dispersed from a source-region in Taiwan, this may explain the absence of botanical records and breeding populations in the Philippines and Borneo, and Remote Oceania.     

银杏ISSR-PCR扩增反应体系的建立与优化

目的:为了对银杏进行分子鉴定和遗传关系的分析,建立银杏ISSR-PCR的最佳扩增反应体系。方法:采用正交设计和单因素梯度实验,对影响ISSR-PCR反应体系的5个主要因素(Mg2+、dNTP、引物、模板DNA及Taq DNA聚合酶)进行筛选及优化。结果:银杏25μL ISSR最佳扩增反应体系包含10×Taq反应缓冲液、2.5 mmol/L MgCl2、0.45 mmol/L dNTP、1.2μmol/L引物(UBC861)、10 ng模板DNA及0.9 U Taq DNA聚合酶,使用此ISSR扩增反应体系,获得了10株不同性别银杏DNA的清晰条带,验证了该体系的稳定性。结论:优化的反应体系为采用ISSR分子标记技术对银杏进行遗传多样性分析、遗传育种和转基因等研究奠定了一定的理论基础。     

Evaluation of clonal integrity in desert date tree (Balanites aegyptiaca Del.) by inter-simple sequence repeat marker assay

Axillary shoot bud multiplication as a safest mode of micropropagation to obtain clonal progeny was revealed through the application of molecular marker technique in Balanites aegyptiaca. Inter-simple sequence repeat (ISSR) markers were used to evaluate the genetic constancy of micropropagated plantlets chosen from a clonal collection of shoots that originated from mature nodal explants (mother plant). Out of 20 ISSR primers screened, ten primers yielded reliable and reproducible patterns of amplified products in all the tested plants. In this study, on an average, 11.7 bands were amplified per primer. A total of 117 bands were scored for the tissue culture-raised plantlets; 115 amplification products were monomorphic and 2 bands were polymorphic. Based on the ISSR band data, 98.2 % genetic uniformity was detected among the regenerants. Thus, the amplification products validated that the plantlets were true-to-type in morphological or growth characteristics when compared with the mother plant.     

Strains of Prunus necrotic ringspot virus in hop (Humulus lupulus L.)

Purified preparations of Prunus necrotic ringspot virus (NRSV) from hop plants formed two light-scattering zones when centrifuged in sucrose density gradients; the upper and lower zones contained particles 25 mμ and 31 mμ in diameter respectively whose sedimentation coefficients were 79 S and 107 S. NSRV isolates from hop were of two distinct serological types: ‘A’ strains, serologically very closely related to NRSV isolates from apple; and ‘C’ strains more nearly related to NRSV from cherry. The variety Fuggle is tolerant to hop mosaic (not related to NRSV) and different selections of apparently healthy female plants usually contained A strains; but C strains were usually isolated from nettlehead-diseased plants. Either A or C strains occurred in male plants grown with the hop-mosaic tolerant varieties. In mosaic-sensitive varieties (Goldings and Bramlings) apparently healthy female plants tested were usually infected with C strains; either A or C types occurred in mosaic-sensitive male plants. NRSV was not detected in the seventy-four hop seedlings obtained from virus-infected plants. Some varieties developed nettlehead when infected with NRSV (A) or (C) + the hop form of arabis mosaic virus, but not with NRSV (A) or (C) alone. Others developed nettlehead when infected with arabis mosaic virus + NRSV (C) but not with arabis mosaic + NRSV (A). A and C strains can multiply together in the same hop plant. There is evidence of partial antagonism, however, and the fluctuating behaviour of the nettlehead syndrome probably reflects changes in the relative concentration of the two serotypes.     

Molecular-genetic polymorphisms of cultivars of common hops (Humulus lupulus L.) using ISSR-PCR analysis

Genetic diversity among 26 Russian and European cultivars of the common hop (Humulus lupulus L.) was studied using the ISSR-PCR technique. Twenty-one primers used provided amplification of 183 DNA fragments, 106 of which (57.9%) were found to be polymorphic. The ISSR markers, specific for certain cultivars were revealed. Based on the coefficient of dissimilarity values, cluster analysis was performed and a dendrogram was constructed, on which most of the hop cultivars formed two clusters according to their origin. Advantages of the ISSR-PCR analysis in selective studies aimed at the classification and identification of common hop cultivars are discussed.     

Identification of molecular markers for selection of supermale (YY) asparagus plants

The research was aimed to elaborate a method for selection of male plants (XY, YY) and female ones (XX) as well as for identification of supermale genotypes (YY) among male phenotypes. The population obtained by self-pollination of andromonoecious plants was analysed. In order to identify the bands differentiating the male from the female genotypes, Bulk Segregant Analysis (BSA) was carried out. Primers identified by BSA analysis were used for RAPD amplification on the template of the male and female individuals. Among the products obtained by the use of primer OPB-20, some bands were linked with sex. A band of about 700 bp was found in all female plants, and in 4 phenotypically male specimens. In the male plants, the band showed a much lower intensity, compared with the female specimens. It seems that this fragment can be linked to the X chromosome in the investigated specimens. In the female specimens with XX karyotype, template duplication occurs and hence the band intensity is twice as high as in the XY karyotype. Three male plants did not include the OPB-20-700 fragment so they could potentially have the supermale (YY) karyotype. If the obtained marker proved its usefulness for identification of supermale plants, it could become a valuable tool facilitating breeding work.