Asphodelus tenuifolius andA. fistulosus (Liliaceae) are morphologically,genetically, and biologically different species

The biological analysis of six populations ofAsphodelus tenuifolius and 12 populations ofA. fistulosus has confirmed that they are separate species. Both their floral structures (length of the tepals, stamens, anthers and style) and also their pollen size are clearly different.A. tenuifolius has only the 2n = 28 chromosome race, whileA. fistulosus has 2n = 28 and 2n = 56.A. tenuifolius is genetically less variable thanA. fistulosus and they have different electrophoretic mobilities. Gene duplication phenomena exist in the 2n = 28 level of both species.     

Growth Pattern and Movement of Epidermal Cells within Leaves of Asphodelus tenuifolius Cav.

The pattern of growth (velocity field) in the intercalary growthzones of monocotyledon leaves can be determined from patternsof cell number density (number per unit length of cell file)and leaf elongation rates using theory based on a cell numberconservation equation. The case where elongation rate is non-steadywhile the pattern of cell number density is steady is discussedand a method for extending calculations into the meristem usingobservations of numbers of mitotic cells is outlined. Applicationof these methods is illustrated using data for epidermal cellsin the first leaf of Asphodelus tenuifolius Cav. During earlyleaf development, leaf elongation rate increased exponentiallybut cell number density and mitotic number density were steady.Cells 0.1 mm from the base of the leaf when leaves were 3.2mm long took 8.3 d to move through the growth zone. In leavesthat were 4 d older, similar cells took 5.1 d to traverse thegrowth zone. Increases in the rates of leaf elongation and ofcell movement appeared to be associated mainly with increasesin total rates of cell production in the epidermal meristem. Asphodelus tenuifolius Cav., Asphodelus fistulosus L., velocity field, meristem, mitotic cell number density, extension-only zone     

Isozyme and seed protein phylogeny of the genusCitrullus (Cucurbitaceae)

Electrophoretic analysis of 26 enzyme coding genes was conducted on accessions of threeCitrullus species and the relatedPraecitrullus fistulosus andAcanthosicyos naudinianus. The isozyme phylogeny of the genusCitrullus and the related species was constructed based on pairwise measurements of the respective genetic distances between the species and races.P. fistulosus andA. naudinianus form two distinct outgroups toCitrullus which is characterized by two main clusters: The first includes twoC. colocynthis races and the second,C. lanatus andC. lanatus var.citroides, which are more closely related to each other than they are toC. ecirrhosus. The isozyme phylogeny is consistent with the variability in six seed protein bands and with the crossability relations among the examined species.     

Random amplified polymorphic DNA (RAPD) identification of genetic variation in three species ofPorphyra (Bangiales,Rhodophyta)

The random amplified polymorphic DNA (RAPD) technique was used to characterize three species ofPorphyra from the western North Atlantic and adjacent Gulf of Mexico. Twenty 10-mer primers were screened for DNA amplification usingPorphyra template DNA. Nine of these oligonucleotide primers, all (G+C)-rich, were positive or band-producing, but yielded poor or variable band resolution. Subsequent use of the universal 20-mer M 13 primer resulted in both clear band resolution with a minimum of secondary bands and a high degree of reproducibility. Amplification products for DNA from six regional isolates ofPorphyra carolinensis Coll et Cox,P. leucosticta Thuret in Le Jolis andP. rosengurttii Coll et Cox were compared to each other and toBangia atropurpurea (Roth) C. Agardh. Results provide evidence of both genetically hetero- and homogeneous populations. Use of the RAPD method with the M 13 primer yields amplification products which can be used to fingerprint specific genotypes. This procedure could be used to discriminate between hetero- and homokaryotic fusion products from previously characterized donor strains.     

Quaternary range dynamics of ecologically divergent species (Edraianthus serpyllifolius and E. tenuifolius,Campanulaceae) within the Balkan refugium

Aim We investigated Quaternary range dynamics of two closely related but ecologically divergent species (cold‐tolerant Edraianthus serpyllifolius and thermophilic Edraianthus tenuifolius) with overlapping distribution ranges endemic to the western Balkan Peninsula, an important yet understudied Pleistocene refugium. Our aims were: to test predictions of the ‘refugia‐within‐refugia’ model of strong genetic subdivisions due to population isolation in separate refugia; to explore whether two ecologically divergent species reacted differently to Pleistocene climatic fluctuations; and to test predictions of the displacement refugia model of stronger differentiation among populations in the thermophilic E. tenuifolius compared with the cold‐tolerant E. serpyllifolius. Location The western Balkan Peninsula. Methods We gathered amplified fragment‐length polymorphism (AFLP) data and plastid DNA sequences from two to five individuals from 10 populations of E. serpyllifolius and 22 populations of E. tenuifolius, spanning their entire respective distribution areas. AFLP data were analysed using a Bayesian clustering approach and a distance‐based network approach. Plastid sequences were used to depict relationships among haplotypes in a statistical parsimony network, and to obtain age estimates in a Bayesian framework. Results In E. serpyllifolius, both AFLP and plastid sequence data showed clear geographic structure. Western populations showed high AFLP diversity and a high number of rare fragments. In E. tenuifolius, both markers congruently identified a major phylogeographic split along the lower Neretva valley in central Dalmatia. The most distinct and earliest diverging chloroplast DNA (cpDNA) haplotypes were found further south in the south‐easternmost populations. North‐western populations, identified as a separate cluster by Bayesian clustering, were characterized by low genetic diversity and a low number of rare AFLP markers. Main conclusions Clear evidence for multiple Pleistocene refugia is found not only in the high‐elevation E. serpyllifolius, but also in the lowland E. tenuifolius, despite the lack of obvious dispersal barriers, in line with the refugia‐within‐refugia model. Genealogical relationships and genetic diversity patterns support the hypothesis that cold‐adapted E. serpyllifolius responded to climatic oscillations mostly by elevational range shifts, whereas thermophilic E. tenuifolius did so mainly by latitudinal range shifts, with different phases (and probably extents) of range expansion. In contrast to the displacement refugia hypothesis, the two elevationally differentiated species do not differ in their genetic diversity.     

Assessment of random amplified polymorphic DNA (RAPD) for determining the origin ofYoungia koidzumiana Kitamura (compositae)

We determined the parental species ofYoungia koidzumiana (a natural interspecific hybrid) using PCR and arbitrary 10-mer primers to generate random amplified polymorphic DNA (RAPD) markers. These markers, generated by three primers, were sufficient to distinguishYoungia sonchifolia, Youngia denticulata, Youngia chelidoniifolia, andY. koidzumiana. The electrophoresis profiles of the amplified products from each of the four species were then compared. Three primers produced a total of 42 scorable markers; nine were specific markers forY. denticulata andY. chelidoni-ifolia. The length of the amplified DNA fragments ranged from 370 to 2500 b p. The three primers revealed polymorphic bands, which were indicators of the parental species ofY. koidzumiana. These bands showed a combination of specific profiles forY. denticulata andY. chelidoniifolia. Our results also were comparable to the data obtained for flowering times, floret numbers, and chromosome numbers of the four species. Therefore, we suggest thatY. koidzumiana is a hybrid betweenY. denticulata andY. chelidoniifolia}, and that RAPD markers are well suited for assessing the origins of plant species.     

Qualitative and quantitative characterization of RAPD variation among snap bean (Phaseolus vulgaris) genotypes

Ten snap bean (Phaseolus vulgaris) genotypes were screened for polymorphism with 400 RAPD (random amplified polymorphic DNA) primers. Polymorphic RAPDs were scored and classified into three categories based on ethidium bromide staining intensity. An average of 5.19 RAPD bands were scored per primer for the 364 primers that gave scorable amplification products. An average of 2.15 polymorphic RAPDs were detected per primer. The results show that primer screening may reduce the number of RAPD reactions required for the analysis of genetic relationships among snap-bean genotypes by over 60%. Based on the analysis of the distribution of RAPD amplification, the same number of polymorphic RAPDs were amplified from different genotypes for all RAPD band intensity levels. A comparison of RAPD band amplification frequency among genotypes for the three categories of bands classified by amplification strength revealed a measurable difference in the frequencies of RAPDs classified as faint (weakly amplifying) compared to RAPD bands classified as bold (strongly amplifying) indicating a possible scoring error due to the underscoring of faint bands. Correlation analysis showed that RAPD bands amplified by the same primer are not more closely correlated then RAPD bands amplified by different primers but are more highly correlated then expected by chance. Pairwise comparisons of RAPD bands indicate that the distribution of RAPD amplification among genotypes will be a useful criterion for establishing RAPD band identity. For the average pairwise comparison of genotypes, 50% of primers tested and 15.8% of all scored RAPDs detected polymorphism. Based on RAPD data Nei's average gene diversity at a locus was 0.158 based on all scorable RAPD bands and 0.388 if only polymorphic RAPD loci were considered. RAPD-derived 1 relationships among genotypes are reported for the ten genotypes included in this study. The data presented here demonstrate that many informative, polymorphic RAPDs can be found among snap bean cultivars. These RAPDs may be useful for the unique identification of bean varieties, the organization of bean germplasm, and applications of molecular markers to bean breeding.     

Phylogenetic relationships between Leymus (Poaceae,Triticeae) and related diploid Triticeae species based on isozyme and genome-specific random amplified polymorphic DNA (RAPD) markers

Abstract

To investigate the phylogenetic relationships between Leymus and related diploid species of the Triticeae tribe, the esterase isozyme (EST), superoxide dismutase (SOD) isozymes, and genome-specific random amplified polymorphic DNA (RAPD) markers were used to analyze for 14 Leymus species, together with two Psathyrostachys species (Ns), three Pseudoroegneria species (St), two Hordeum species (H), Lophopyrum elongatum (E^e), Australopyrum retrofractum (W), and Agropyron cristatum (P). The data were used to construct dendrograms by means of UPGMA in the NTSYS-pc computer program. The results suggested that (1) isozyme analysis can be used in the systematic studies of these perennial Triticeae; (2) there is a close relationship between Leymus, Psathyrostachys juncea, three Pseudoroegneria species, and Lophopyrum elongatum; (3) the Ns genome-specific RAPD marker was present in all 14 polyploid species of Leymus, while the E^e and P genome-specific RAPD markers were absent in 14 polyploid species of Leymus; the St, W and H genome-specific RAPD markers were present in some species of Leymus; (4) Leymus species have multiple origins, and different Leymus species derived their genomes from different donors.     

Random amplified polymorphic DNA (RAPD) analysis reveals genetic relationships among the annual Cicer species

 Random amplified polymorphic DNA markers were used to distinguish between nine different Cicer taxa representing the cultivated chickpea and eight other related annual wild species. Of the 75 random10-mer primers tested, only 8 amplified genomic DNA across all the species. A total of 115 reproducibly scorable RAPD markers were generated, all except 1 polymorphic, and these were utilized to deduce genetic relationships among the annual Cicer species. Four distinct clusters were observed and represented C. arietinum, C. reticulatum and C. echinospermum in first cluster followed by C. chorassanicum and C. yamashitae in the second cluster, while C. pinnatifidum, C. judaicum and C. bijugum formed the third cluster. Cicer cuneatum did not cluster with any of the species and was most distantly placed from the cultivated species. Except for the placement of C. chorassanicum and C. yamashitae, deduced species’ relationships agreed with previous studies. In addition, species-diagnostic amplification products specific to all the nine species were identified. The results clearly demonstrate a methodology based on random-primed DNA amplification that can be used for studying Cicer phylogeny and chickpea improvement. Received: 27 July 1998 / Accepted: 5 August 1998     

Characterization of geographically isolated accessions in five Alstroemeria L. species (Chile) using FISH of tandemly repeated DNA sequences and RAPD analysis

In fifteen geographically isolated populations of five species of Alstroemeria L. (A. aurea, A. hookeri, A. ligtu, A. pelegrina and A. presliana) collected in Chile, karyotypes and variation of RAPD markers were investigated. Tandemly repeated DNA sequences - 5S and 18/25S rDNA genes and the sequence A001-1 (De Jeu et al. 1997) were used to characterize karyotypes by fluorescence in situ hybridization (FISH). Ten somatic metaphases per population were used for measurement of chromosome length. Differences in RAPD marker bands were used for characterization of populations, creating a similarity index. FISH with all three DNA probes shows a high degree of polymorphism between and sometimes also within accessions of A. aurea, A. hookeri and A. ligtu. The number of chromosome pairs showing 5S rDNA signals is more different for the investigated species A. aurea, A. hookeri, A. ligtu, A. pelegrina and A. presliana with 5, 7, 5, 3 and 7, respectively, than the number of 18/25S rDNA signals in this succession with 7, 7, 6, 5 and 7 chromosome pairs, showing a high evolutionary dynamics within the genus. Furthermore, among the four populations of A. hookeri, accession 4181 was different in arm length of chromosome 3. RAPD markers (index of similarity) also showed a greater genetic distance of accession 4181 from the other three accessions of A. hookeri. The possible evolutionary mechanisms providing these polymorphisms were discussed.     

Species-specific primers discriminate schistosome intermediate hosts: unambiguous PCR diagnosis of Bulinus forskalii group taxa (Gastropoda: Planorbidae)

The morphological definition of taxa has proved difficult within the Bulinus forskalii group, which includes intermediate hosts of medically important Schistosoma species in West Africa. Although B. forskalii and B. senegalensis transmit different schistosome species they are conchologically similar and their distributions overlap. Randomly amplified polymorphic DNA (RAPD) allows differentiation of sibling species in the genus Bulinus, but RAPDs are difficult to standardize, impairing their value as a taxonomic tool. Hence, RAPD products diagnostic for either B. senegalensis or B. forskalii from West Africa were cloned, sequenced and a panel of species-specific primers designed. Sequencing of RAPD products identified a homology in two apparently independent RAPD loci, a problem where RAPDs are indiscriminately scored for phylogenetic analyses. Specificity of primers was confirmed by widespread sampling throughout each species' range. This approach produced a simple, robust, unambiguous PCR-based species identification strategy for this difficult group.     

Genetic diversity of the narrow endemic Allium aaseae (Alliaceae)

Low levels of genetic variability are common for a number of geographically restricted plants: these data are consistent with theoretical expectations that small populations should be genetically depauperate. However, in some species, high levels of variability have been found in rare species. Allium aaseae is a rare, narrow endemic in the foothills of the Boise Front of southwestern Idaho. Genetic variation in the rare endemic A. aaseae, and nearby populations of the more common species, A. simillimum, was examined with randomly amplified polymorphic DNA (RAPD) data. Eight populations of A. aaseae and six populations of A. simillimum (three near the range of A. aaseae, and three distant populations) of 25 individuals each were examined for this analysis. Genetic diversity as determined with RAPD markers of both species examined in this study is largely found within and not among populations. Levels of genetic diversity are high, especially for a narrow endemic species such as A. aaseae. Proportion of RAPD loci polymorphic was high in both species, although slightly higher in the more common A. simillimum. Because these higher levels of genetic variability run counter to theory, alternative explanations beyond population size must be invoked to explain the levels of genetic diversity found in this study. Possible explanations are (1) A. aaseae is only recently derived from A. simillimum, (2) hybridization between A. aaseae and A. simillimum is occurring, (3) multiple origins of A. aaseae, (4) populations of A. simillimum included in the analysis are all A. aaseae, (5) A. aaseae and A. simillimum are conspecific, and (6) an artifact of RAPD data.     

Morphological and molecular characterisation of Pythium species causing chilli (Capsicum annuum L.) damping-off

Twenty-five Pythium isolates comprising five species viz., Pythium aphanidermatum, P. deliense, P. graminicola, P. heterothallicum and P. ultimum from different geographical locations of Tamil Nadu (Coimbatore, 4; Cuddalore, 6; Dindigul, 1; Dharmapuri, 1; Erode, 1; Madurai, 1; Namakkal, 7; Thanjavur, 1; Theni, 1; Thirunelveli, 1 and Vellore, 1) isolated from chilli crop were analysed with randomly amplified polymorphic DNA (RAPD) markers. Morphological and molecular characteristics of these different species were correlated with the RAPD. Polymerase chain reaction amplification of total genomic DNA with six random primers generated unique banding patterns depending on the primer and the isolate. The isolate I₁₇ produced identical banding patterns, while other isolates produced dissimilar bands within the particular species, indicating the genetic diversity among the isolates within a species. Morphological characters were also different from each other even in isolate I₁₇ which shared identical bands. Cluster analysis showed minimum and maximum per cent similarities among the tested Pythium species which ranged from 49 to 89%, respectively. RAPD markers were better suited for differentiating isolates within a species rather than species.     

Detection of DNA polymorphisms within the genusCattleya (Orchidaceae)

We have adapted methodology necessary for the detection of molecular polymorphisms in the orchid genusCattleya, namely, randomly amplified polymorphic DNA (RAPD). We report a high level of molecular variability among species; each of eight species examined exhibited a unique DNA fingerprint with nine out of ten arbitrary primers used in single-primer RAPD reactions. Among progeny of an intraspecificCattleya cross, 55 percent of major amplification products were found to segregate. Segregation of these markers facilitated the preliminary identification of several linkage intervals. The identification and mapping of DNA polymorphisms by the RAPD technique will facilitate the use of these taxa for the identification of species-specific and genus-specific traits, allow for the measurement of recombination and introgression in hybrid populations, and enable geneticists to address concordance (or lack thereof) in the processes of speciation, morphological evolution, and molecular change in a large and highly advanced plant family.     

A Molecular Method for Detection of <Emphasis Type="Italic">Aspergillus carbonarius</Emphasis> in Coffee Beans

Ochratoxin A (OTA) is a carcinogenic and nephrotoxic mycotoxin that has been detected in a variety of food products, including green coffee beans. About 80% of Aspergillus carbonarius strains collected from coffee beans are able to produce OTA on this substrate. The rapid identification of this fungal species would be desirable. RAPD assays were applied to identify amplification products specific for A. carbonarius. One selected fragment, denoted OPX7₈₀₉, was cloned and sequenced. Based on the nucleotide sequence obtained, specific oligonucleotides (OPX7F₈₀₉ and OPX7R₈₀₉) were designed and used as primers for DNA amplification. One amplified band of 809 bp was obtained from A. carbonarius genomic DNA, whereas no amplified fragment from DNA of other Aspergillus species was detected. This PCR analysis was also successfully employed to detect A. carbonarius in coffee beans. This PCR assay could contribute to the early and rapid detection of the potential presence of OTA in coffee samples.     

RAPD and organelle specific PCR re-affirms taxonomic relationships within the genus Coffea

The phenetic relationships between 18 Coffea accessions representing 11 of the most important Coffea species employed in current breeding programmes were examined using RAPD markers and chloroplast and mitochondrial genome specific sequence tagged sites (STS). Estimates of variability based on the number of shared RAPD amplification products placed the species into three distinct groups which were consistent with derived chloroplast DNA phenotypes, the geographical origins of the species and previous studies based on morphological characteristics and RFLPs. C. eugenioides (2n = 2x = 22) exhibited the greatest similarity to the cultivated C. arabica (2n = 4x = 44) and may represent its maternal progenitor. The results are discussed in the context of strategies for Coffea improvement.     

Rapid identification of white-Engelmann spruce species by RAPD markers

Fragments of random amplified polymorphic DNA (RAPDs) were used as markers to distinguish Picea glauca (Moench) Voss (white spruce) and Picea engelmannii Parry (Engelmann spruce). These species and their putative hybrids are difficult to differentiate morphologically and are collectively known as interior spruce. Four oligodeoxynucleotide decamer primers showed species-specific amplification products between white spruce and Engelmann spruce. These fragments are highly conserved among seed lots and individual trees of each species from diverse geographic origins. The consistency and reproducibility of these species-specific amplification products were tested in more than two amplification reactions. Therefore, RAPD markers can provide genetic markers for easy and rapid identification of the specific genetic entry of these spruce species and their reported putative hybrids. According to the frequencies of the species-specific RAPD markers, it is possible to estimate the hybrid fraction, indicative of true introgression between the two species. These results are useful for quick identification of both species and their hybrid swarms at any stage in the sporophyte phase of the life cycle, for determining the occurrence and the magnitude of introgressive hybridization in an overlap zone between the two species, and for certification purposes in operational re-forestation and tree-improvement programs.     

RAPD-Based Inter- and Intravarietal Classification of Fungi of the gaeumannomyces-Phialophora Complex

The suitability of randomly amplified polymorphic DNAs (RAPD) for differentiation at the varietal and intravarietal level was tested on several hundred isolates of the gaeumannomyces-Phialophora (G-P) complex from different geographic locations and host plants. Amplification products obtained using two decamer primers allowed differentiation between gaeumannomyces graminis and gaeumannomyces cylindrosporus and between the three varieties of gaeumannomyces graminis, as well as further division at the intravarietal level. Thus, isolates of the causal agent of take-all on cereals, Gaeumannomyces graminis var. tritici were divided into six subgroups by amplification with these two primers. There is some evidence for an association between host preference and RAPD subgroups but further work is needed to confirm this and to determine the importance of these subgroups. This fast and easy method is a useful tool for investigating the occurrence and distribution of this pathogen and for studying changes in the populations of species and subgroups of Gaeumannomyces in cereal cropping systems     

Isolation and characterization of microsatellites in Leuciscus cephalus (Cypriniformes,Cyprinidae) and cross‐species amplification within the family Cyprinidae

Thirteen polymorphic microsatellites were isolated from Leuciscus cephalus, a widespread cyprinid species with great ecological tolerance. Together with the cross‐species amplification of six additional loci originally published for three cyprinid fish species, we optimized a multiplex panel for L. cephalus allowing the genotyping of 19 polymorphic loci. Number of alleles and heterozygosity per locus in a sample of 20 fish individuals ranged from two to 16 and from 0.05 to 0.90, respectively. These primers will be useful in determining the population structure of L. cephalus. In addition, successful cross‐amplification was obtained for several species of Cyprinidae.     

RAPD Analysis of Pathogenic Variability in Ascochyta rabiei

Thirty Italian isolates of the phytopathogenic fungus Ascochyta rabiei (Pass.) Labr., the causal organism of Ascochyta blight on chickpea (Cicer arietinum L.), were analysed by a random oligonucleotide primer dependent polymerase chain, reaction (PCR) technique called random amplified polymorphic DNA analysis (RAPD) using three decamer primers. In previous investigations these isolates had been differentiated in six pathogenic groups. RAPD results were summarized in an analysis using the program PAUP. With each of the primers several amplification products were observed which were common to all isolates. The results of the RAPD analyses also showed that all isolates could be identified by a unique RAPD pattern. No correlation between RAPD patterns and the division of the isolates in pathogenic groups could be established. The application of the RAPD technique for cataloguing isolates and to obtain specific genetic markers for all isolates of the species Ascochyta rabiei is discussed.