Molecular characterization and genetic relationship among almond cultivars assessed by RAPD and SSR markers

RAPDs and SSRs were used to study the genetic diversity of Iranian almond cultivars and their relationship to important foreign cultivars and three related species. Eight unidentified almond Shahrodi cultivars and three wild almonds (Prunus communis, Prunus orientalis and Prunus scoparia) were also included. Of the primers tested, 42 (out of 80) RAPD and 18 (out of 26) SSR primers were selected for their reproducibility and high polymorphism. A total of 664 polymorphic RAPD bands were detected out of 729 bands. The number of presumed alleles revealed by the SSR analysis ranged from 3 to 10 alleles per locus with a mean value of 6.64 alleles per locus. Both techniques discriminated the genotypes very effectively, but only RAPDs were able to discriminate the cultivars Monagha and Sefied. Results demonstrated an extensive genetic variability within the tested cultivars as well as the value of SSR markers developed in peach for characterization of almond and related species of Prunus. Dice similarity coefficient was calculated for all pair wise comparisons and was used to construct a UPGMA dendrogram. For both markers a high similarity in dendrogram topologies was obtained although some differences were observed. All dendrograms, including that obtained by the combined use of both the marker data, depicted the phenetic relationships among the cultivars and species, depending upon their geographic region and/or pedigree information. Almond cultivars clustered with accession of P. communis showing their close relationship. P. orientalis and P. scoparia were clustered out of the rest of P. dulcis.     

Comparison of the use of morphological,protein and DNA markers in the genetic characterization of Iranian wild Prunus species

In this study, the genetic diversity of four Iranian wild Prunus species including Prunus eleagnifolia, Prunus hauskenchtii, Prunus scoparia and Prunus lycioides were investigated using morphological, protein and DNA markers. DNA markers included nuclear and chloroplast SSRs and self-incompatibility (S) allele amplification. At the morphological level, leaf width showed significant differences between the four wild Prunus species. Concerning fruit and kernel characters, their values are relatively similar indicating the high degree of homoplasy described in Prunus. Nuclear SSR markers have been the most abundant markers with a higher polymorphism in comparison with morphological, protein and chloroplast SSR markers. Results also indicated the high variability present in the S locus. On the other hand, the correlation between the clustering based on DNA markers and protein were in general low. Dendogram performed using nuclear and chloroplast SSR indicated a more diffuse clustering between the wild almond species probably due to the natural introgression of genes observed in these wild almond species. Data from the analysis of the total protein seems to be more accurate to establish taxonomy relationships in these very close wild species.     

Genetic diversity and phylogenetic relationships of Prunus microcarpa C.A. Mey. subsp. tortusa analyzed by simple sequence repeats (SSRs)

Prunus microcarpa C.A. Mey. subsp. tortusa is a deciduous shrub well adapted to severe winter and dry-hot summer conditions. As the first step to explore the genetic and horticultural potential of P. microcarpa C.A. Mey. subsp. tortusa, we used SSRs to elucidate the genetic variation within its populations dispersed in upper Mesopotamia. We also investigated its phylogenetic relationship with economically important Prunus species; almond, apricot, sweet cherry, peach and plums. Using 47 amplifying SSR primer pairs, 63 P. microcarpa C.A. Mey. subsp. tortusa genotypes sampled from five locations and 15 cultivars belonging to other Prunus species were assayed. The cross-species transportability of SSRs was 96% indicating a high degree of homology between P. microcarpa C.A. Mey. subsp. tortusa and the other Prunus species. The genetic distance between P. microcarpa C.A. Mey. subsp. tortusa genotypes belonging to a particular geographic site was lower than that between genotypes of different geographic origins. Cluster analysis differentiated P. microcarpa C.A. Mey. subsp. tortusa genotypes according to their geographic sites and separated them from the other Prunus species. P. microcarpa C.A. Mey. subsp. tortusa and sweet cherry, the subgenus Cerasus, were located in the same major cluster, the other Prunus species, belonging to the subgenera Amygdalus and Prunus, were located in another one. The analysis of molecular variance (AMOVA) revealed that genetic variation among individuals within populations (59.10%) was much higher than among Prunus groups (29.28%) and among P. microcarpa C.A. Mey. subsp. tortusa populations of different geographic sites (11.61%). The results indicate a substantial genetic diversity in P. microcarpa C.A. Mey. subsp. tortusa and the need of exploring a wider area to increase the chance of finding a particular genotype.     

Development of novel chloroplast microsatellite markers for Dendrobium officinale, and cross-amplification in other Dendrobium species (Orchidaceae)

Nine pairs of polymorphic chloroplast microsatellite primers were developed for Dendrobium officinale Kimura et Migo, an endangered herb. Levels of polymorphism were tested across a total of 55 individuals from four natural populations (12–15 individuals per population). Allele numbers varied from two to four per locus, while the number of haplotypes ranged from four to six per population. Transferability of the nine polymorphic chloroplast microsatellite primers was checked on an additional set of 51 Dendrobium individuals (belonging to 17 different species). Three markers could be transferable to all the species tested, while the remaining six markers successfully cross-amplified in most species tested. Moreover, polymorphism of the nine chloroplast microsatellite primers was tested across Dendrobium moniliforme (L.) Sw. and Dendrobium loddigesii Rolfe. All of them were polymorphic in D. moniliforme, while seven of which were polymorphic in D. loddigesii. These polymorphic chloroplast microsatellite primers developed for D. officinale will be a useful tool for the study of genetic diversity, population genetic structure, evolution of D. officinale and establishment of effective conservation strategies.     

Novel genomic and EST-derived SSR markers in Japanese chestnuts

A total of 366 novel simple sequence repeat (SSR) markers were developed in Japanese chestnut (Castanea crenata), comprising 220 genomic SSRs derived from enriched genomic libraries and 146 expressed sequence tag (EST)–SSRs obtained from large-scale EST sequencing analysis. Thirty accessions, comprising Japanese, Chinese (C. mollissima), European (Castanea sativa), and American chestnuts (Castanea dentata), were used for evaluation of SSR polymorphism and transferability across species. The EST–SSRs showed less polymorphism than the genomic SSRs and were more transferable. The mean observed heterozygosity (H_O) and the mean expected heterozygosity (H_E) of genomic SSRs in the Japanese chestnuts were 0.63 and 0.68, respectively; those of EST-SSRs were each 0.47. Although about 80% of the genomic SSRs were amplified in all 4 species, more than 95% of the EST–SSRs were transferable across all 4 species. The many novel SSRs developed in this study will be applicable for the construction of genetic linkage maps, QTL analysis of phenotypic traits, high-throughput genotyping of marker-assisted selection, and association genetics.     

Comparative analysis of genetic diversity in Tunisian apricot germplasm using AFLP and SSR markers

Eighty-one accessions representing apricot germplasm in Tunisia were collected from different areas of cultivation and fingerprinted using amplified fragment length polymorphism (AFLP) and microsatellites (SSR) markers. A total of 339 polymorphic markers were revealed using 5 AFLP primers combinations and 24 SSR loci. AFLP and SSR markers expressed a high level of polymorphism allowing the distinction of the accessions with an efficiency coefficient of discrimination of 100% for AFLP and 97% for SSR markers. Genetic diversity structure was assessed with AFLPs and SSRs markers separately then with combined matrix data by the help of hierarchical clustering elaborated using Wards method based on Nei and Li (1979) distances. Comparison of the obtained dendrograms revealed a phylogeographic structure into two major groups with significant conservation between the observed subgroups in relation with the geographic origin of the accessions. The relative efficiency of the markers in determining the genetic relationships among apricot accessions has been assessed and a combination of AFLPs and SSRs markers was the most effective. In addition, Mantel test based on genetic distances indicated highly significant correlation between AFLP-SSR data and each of the AFLP and SSR ones, with Pearson correlation values of r = 0.873 and r = 0.692, respectively, revealing the higher efficiency of the combination of both molecular techniques (AFLP and SSR) to estimate the levels of genetic variability among apricot germplasm.     

Molecular and physiological identification of new S-alleles associated with self-(in)compatibility in local Spanish almond cultivars

The S-allele characterisation of ‘Alzina’ and ‘Garondès’, two local almond cultivars from the island of Majorca, by a multidimensional approach has allowed the confirmation of the presence of the S_f-allele and the identification of a new allele not previously described in almond, S₃₆. When these cultivars were phenotypically evaluated, both showed a self-incompatible phenotype and were cross-incompatible, as assessed by artificial self- and cross-pollinations and fruit sets after field pollinations, confirming that their S_f-allele is in its active form, S_fa. Thus a new CGI group in almond is proposed and named XXVIII. These results confirm the wide diversity of S-alleles in almond both at genotypic and phenotypic levels, as well as their similarity with the S-alleles from other close Prunus species. This similarity suggests the possibility of allele introgression between species or allele identity by descent from a common ancestor.     

EST-PCR markers developed for highbush blueberry are also useful for genetic fingerprinting and relationship studies in rabbiteye blueberry

The pedigrees of most rabbiteye blueberry (Vaccinium virgatum) cultivars can be traced back to four wild selections, ‘Ethel’, ‘Clara’, ‘Myers’, and ‘Black Giant’; thus, they result from a very narrow germplasm base and are highly related. Until now randomly amplified polymorphic DNA (RAPD) has been the only type of molecular marker used in rabbiteye blueberry. Here we have tested whether a type of sequence-tagged site (STS) marker which utilizes specific ∼20-mer primers from expressed sequence tags (ESTs) of highbush blueberry (V. corymbosum), called EST-PCR markers, are useful for genetic fingerprinting and relationship studies in rabbiteye blueberry. Of 44 EST-PCR primer pairs, from an assortment of genes expressed in flower buds of cold acclimated and non-acclimated plants, and shown to amplify polymorphic fragments among a collection of highbush genotypes, 40 (91%) resulted in successful amplification, and 33 of those (83%) amplified polymorphic fragments among the rabbiteye genotypes. The average number of scorable bands per primer pair was two. A dendrogram constructed from genetic similarity values, based on the EST-PCR marker data, tended to group siblings and parent/progeny together, generally agreeing with pedigree information. A group of 20 markers from five EST-PCR primer pairs distinguished all the genotypes in this study. These markers are as easy to generate and as affordable as RAPDs, but are based on actual gene sequences, and should have general utility for DNA fingerprinting, genetic diversity, and mapping studies.     

Comparative analysis of genetic diversity in Citrus germplasm collection using AFLP,SSAP, SAMPL and SSR markers

In this study we evaluate the informativeness and efficiency of Amplified Fragment Length Polymorphism (AFLP), Sequence-Specific Amplified Polymorphism (S-SAP), Selectively Amplified Microsatellite Polymorphic Loci (SAMPL) and Simple Sequence Repeat (SSR) markers for genetic diversity, phylogenetic relationship among the Citrus species and mapping ability of the marker system. The SSR exhibited relatively higher level of polymorphism information content in terms of the expected heterozygosity, than that of the AFLPs, SSAPs and SAMPLs. For each marker system, average level of the discriminating potential was very close to the actual discriminating potential. Similarity matrices showed weak, yet significant correlations when Mantel's test was applied. The highest positive (0.72) correlation was found between the AFLP and SSAP markers. The SSR and SAMPL markers were poorly correlated. The dendrogram topology among the four marker systems had high similarity. Taken together, the SSAP and SAMPL were highly efficient in detecting genetic similarity in Citrus, while the SSR may be more useful for segregation studies and genome mapping in Citrus. The SSAP and SAMPL markers could be useful for Citrus genome mapping in combination with AFLP and SSR markers. To our knowledge, this was the first detail report of a comparison of performances among AFLP, SSR and retrotrasposon based molecular marker technique on a set of samples of Citrus. Our result provides guidance for future efficient use of these molecular methods in genetic analysis of Citrus sp. and its relatives.     

Development of ITS sequence based SCAR markers for discrimination of Paphiopedilum armeniacum, Paphiopedilum micranthum, Paphiopedilum delenatii and their hybrids

Paphiopedilum armeniacum, Paphiopedilum micranthum and Paphiopedilum delenatii are endangered orchid species. These three Paphiopedilum species and their hybrids are difficult to distinguish morphologically. In this study, rDNA-ITS (internal transcribed spacer) sequences were used to design species-specific SCAR (sequence characterized amplified regions) markers to distinguish P. armeniacum, P. micranthum, P. delenatii and their respective hybrids. The developed markers efficiently amplified 600 bp DNA product for P. armeniacum and its hybrids (SCAR-600armF/Pap-ITS2R), 300 bp product for P. delenatii and its hybrids (SCAR-300delF/Pap-ITS2R) and 700 bp product for P. micranthum and its hybrids (SCAR-700micF/Pap-ITS2R). The effectiveness of designed species-specific markers was also confirmed by using multiplex polymerase chain reaction amplification with a combination of developed three SCAR markers.     

Phenotypic variability and genetic structure in plum (Prunus domestica L.), cherry plum (P. cerasifera Ehrh.) and sloe (P. spinosa L.)

In the present study, phenotypic variability of 80 plum (Prunus domestica L.) varieties maintained in the French National Plum Collection was evaluated with 19 quantitative traits. In addition, genetic diversity and genetic structure was studied in three plum species (P. domestica L., Prunus cerasifera Ehrh. and Prunus spinosa L.) using chloroplast DNA (cpDNA) markers and five single sequence repeat (SSR) loci. Based on phenotypic traits, some varieties, such as mirabelle plums, grouped together. Bayesian structure analysis was used to identify different genetic groups, whereby damson plums were clearly distinguished from greengage plums. When examining the three species together, a higher level of cpDNA allelic richness was found in P. cerasifera and in P. spinosa than in P. domestica where only five cpDNA haplotypes were detected in the national plum collection, with one main haplotype that accounted for 80% of the varieties studied. P. domestica cpDNA haplotypes tended to group together with P. cerasifera haplotypes whereas most of P. spinosa haplotypes formed a separate cluster. SSR markers were somewhat able to distinguish the three species. These results provide some clues as to the origin of plum and the various plum varieties. Our results also provide useful information for the management of plum genetic resources.     

Diversity,relationships, and genetic fingerprinting of the Listada de Gandía eggplant landrace using genomic SSRs and EST-SSRs

Listada de Gandía is one of the most renowned Spanish eggplant (Solanum melongena L.) landraces. Assessing its genetic diversity and relationships, as well as devising tools for its identification, is of great relevance for the enhancement and protection of this landrace. Forty-two eggplant accessions, which included 25 Striped accessions, of which 19 were of the Listada type (six accessions of Listada de Gandía, eight of Other Spanish Listada, and five of Non-Spanish Listada) and six of the Other Non-Spanish Striped group, and 17 Non-Striped accessions were characterized with 17 genomic SSRs and 32 EST-SSRs. Genomic SSRs had, as a mean, a greater polymorphism and polymorphic information content (PIC) than EST-SSRs. Although Listada de Gandía proved to be genetically diverse, specific and universal alleles for two SSR markers were found for this landrace. All the Listada accessions cluster together in the multivariate PCoA and UPGMA phenograms performed, and are separated from the Other Non-Spanish Striped and Non-Striped accessions. Also, Listada de Gandía accessions were clearly differentiated from the Other Spanish Listada and Non-Spanish Listada accessions in these analyses. SSR markers revealed of great utility to obtain a specific fingerprint for the Listada de Gandía eggplant as well as to establish the uniqueness and distinctness of this landrace. This information will be very helpful for the enhancement and protection from imitation of Listada de Gandía, and contributes to support its potential recognition with a Protected Designation of Origin (PDO) status.     

Comparative analysis of autochthonous almond (Prunus amigdalus Bastch) material and commercial varieties in the Castilla-La Mancha Region (Spain)

The Castilla-La Mancha Region is characterized by a large variety of microclimates, allowing the cultivation of species with different climate requirements. While the districts of “Sierra del Segura” and “Campos de Hellín” account for the largest almond growing area in the region. This comparative study is based on the existence of native almond material (local names De Santos and Daniel) which shows kernel morphology and nut quality quite similar to the two most well known commercial varieties of almonds: Marcona and Desmayo Largueta. The identification of this native almond material is of great importance due to its adaptation to local environmental conditions (low temperatures, drought, hot and dry summers) and its morphological similarities with these two almond commercial varieties. A set of 6 Prunus SSR markers were used to identify and differentiate a total of 27 almond samples taken in the “Sierra del Segura” district, including local plant material and material from commercial varieties as a reference. Ten different SSR profiles were discriminated. The number of alleles per locus ranged from seven to twelve with a total of 52 alleles for all loci and an average of 9 alleles per locus. The analysis showed that they share 58% of the studied alleles with one common allele size in both cases for all the SSRs studied. This is the first molecular characterization of native almond germplasm in the Castilla-La Mancha Region. The results provide useful information that could be included in the future almond germplasm bank.     

Analysis of the taxonomic subdivision within the genus Helleborus by nuclear DNA content and genome-wide DNA markers

Helleborus is a genus of herbaceous perennials belonging to the family Ranunculaceae. Within this genus six sections with a total of 22 species are found. The largest section Helleborastrum contains 16 species for which genetic relationships are still unclear. This study represents the first genetic analysis in the genus Helleborus, including the two newly described species H. liguricus and H. abruzzicus based on multilocus amplified fragment length polymorphism (AFLP) markers with a genome-wide distribution in combination with nuclear DNA content data. Chromosome analyses of roots tips revealed a number of 2n = 32 for the selected species, which was congruent with previous observations. The nuclear DNA content of Helleborus was estimated by flow cytometry applying propidium iodide staining and varied between 18 and 33 pg/2C, depending on the species. For AFLP analyses, 19 out of the 22 Helleborus species were studied using 10 AFLP primer combinations, resulting in a total of 1109 polymorphic bands among all species including the outgroup. The genetic distances between species varied between 0.034 and 0.330. Based on genetic distances a phenogram using the Neighbor-joining cluster method with bootstrap analysis was calculated. The results support the previously suggested division of the genus into six sections and thereby approve AFLP data to be applicable for phenetic analyses. Moreover, this genetic information is significant for the development of future Helleborus breeding strategies.     

Rose (Rosa hybrida L.) EST-derived microsatellite markers and their transferability to strawberry (Fragaria spp.)

The ‘Genome database for Rosaceae (GDR)’ provides a large collection of expressed sequence tags (ESTs) harboring simple sequence repeats (SSRs) from several Rosaceae genera, including Rosa (rose). Primer pairs flanking SSR were designed for 312 unique Rosa ESTs based on GDR database. Eight rose (Rosa hybrida L.) genotypes were tested for PCR amplification, and 287 (92%) of the primer pairs generated allele-specific PCR bands that were readily scored. From 183 (63.7%) primer pairs that evidenced polymorphic alleles among the eight rose cultivars, 20 pairs evidencing EST sequence homology to known gene functions and high levels of polymorphism were selected and utilized for DNA fingerprinting and genetic diversity assessments of 47 rose hybrids. A total of 202 polymorphic bands were scored and generated unique fingerprints for each rose hybrid. The Nei–Li genetic similarity coefficients among 1081 pair-wise comparisons of 47 cultivars exhibited a broad range of genetic variations from 0.30 (‘Grand King’ and ‘Carnival’) to 0.99 (‘First Red’ and ‘Red Champ’). UPGMA cluster analysis divided 47 hybrids into five major groups and two sub-groups. The cross-species transferability of 273 EST-SSR primer pairs was evaluated using four genotypes of the strawberry, a genus member of the Rosaceae family. PCRs on the DNA samples of strawberry were successful for 165 primer pairs; among these, 123 pairs amplified 243 polymorphic bands. As surrogates of the marker transfer, the phenetic relationship among the four strawberry genotypes was evaluated. Genetic similarity coefficients varied from 0.78 (‘Maehyang’ and ‘Janghyee’) to 0.64 (‘Janghyee’ and ‘Pragana’). The results of cluster analysis showed that the three octaploid strawberry cultivars were quite similar, whereas the diploid ‘Pragana’ was related distantly at the genomic DNA level. The EST-SSR markers developed in the present study can be efficiently utilized for genetic diversity studies in Rosaceae.     

Pericarp total protein profiles as molecular markers of tomato fruit quality traits in two segregating populations

The tomato fruit quality results of biochemical and physiological changes that occur during the ripening process. Although, the pericarp total protein profiles are less polymorphic than DNA-based markers the polymorphism in those could be directly associated with fruit quality traits. The aim of this work was to identify associations between polymorphic polypeptides from fruit pericarp at two ripening stages and fruit quality traits evaluated in two segregating populations of tomato. A cross between a normal ripening cultivar of Solanum lycopersicum (C, Caimanta) and a genotype carrying the nor (non ripening) gene (N) as well as a cross between Caimanta and a cherry type tomato of S. lycopersicum var. cerasiforme (Ce) showed genetic variance for several fruit quality traits such as fruit weight, shape, solids soluble content, acidity, color and fruit shelf life. The quantitative variations observed at phenotypic level had correspondence with the polymorphism detected in the protein profiles. Indeed, the polymophic polypeptides associated with quality fruit traits and fruit shelf life would be useful to assist tomato breeding programs as protein molecular markers.     

Assessment of diversity in Podophyllum hexandrum by genetic and phytochemical markers

For successful conservation and domestication of a species, evaluation of its genetic diversity by different markers is important. Morphological characteristics, phytochemical variation and random amplified polymorphic DNA (RAPD) profiles were generated in different accessions of Podophyllum hexandrum in order to determine the genetic diversity. Random amplified polymorphic DNA (RAPD) analysis revealed a high degree of genetic diversity among the accessions used in the study. There was also high diversity in the concentration of marker compounds in the collected samples as revealed by HPLC analysis. It is shown that the approaches used in the work successfully discriminate between the accessions of this species and thus they constitute interesting tools to analyze molecular, biochemical and phenotypic diversity within this species. Similarity measurement using UPGMA followed by cluster analysis resulted in formation of many groups based on geographical distribution that generally reflected expected trends between the genotypes. There were also some important exceptions like PW-S, an accession from Wastoorwan, Khrew showing close resemblance to PG-S and PG-B collected from Gulmarg but grown at two different gene banks at Srinagar and Bonera. Further an accession PSH-B from Keller was significantly diverse from the rest of the native genotypes phytochemically, morphologically and at molecular level. RAPD data analysis was found to be significant predictor of phytochemical markers in cultivated P. hexandrum germplasm. Twelve accessions grown in gene bank repository were subjected to RAPD analysis and were assessed for content of podophyllotoxin and podophyllotoxin β-d-glycoside by HPLC. Individual regressions of podophyllotoxin and podophyllotoxin β-d-glycoside by RAPD analysis against HPLC has been found to determine linear values. Strong correlation and a strong association of values of the phytochemical variables and the DNA polymorphism data has been recorded.     

Development of microsatellite markers in cultivated vanilla: Polymorphism and transferability to other vanilla species

The sources of natural vanilla are the cured fruits of two obligatorily hand-pollinated and clonally propagated orchids: ‘Bourbon/Mexican vanilla’ (Vanilla planifolia G. Jackson) and ‘Tahitian vanilla’ (Vanilla tahitensis J.W. Moore). In this paper we describe for the first time the isolation and characterization of 14 microsatellite loci from V. planifolia. These were monomorphic within cultivated accessions, as expected from the probable single clonal origin of this crop and previous genetic studies. These markers were transferable to V. tahitensis and 11 loci were polymorphic between these two closely related species. Furthermore, some of these markers were transferable and polymorphic across 15 other wild American, African and Asian species and revealed consistent relationships between species, together with a strong pattern of Old World versus New World differentiation in the genus. These microsatellites will be very useful for diversity, hybridization and phylogeographic studies in the genus Vanilla.     

DNA profiling of Capsicum landraces of Manipur

Seven chilli landraces of Manipur belonging to three cultivated species of Capsicum (Capsicum annuum, Capsicum frutescens, and Capsicum chinense) form economically important food crops of the region. The genotypes were characterized using ten random amplified polymorphic DNA (RAPD) markers. The cluster analysis based on Jaccard's similarity coefficient calculated by UPGMA method differentiated the genotypes into two main cluster groups. One cluster represented the C. annuum genotypes while the other cluster represented the C. frutescens and the C. chinense genotypes. C. chinense genotypes were more close to C. frutescens genotypes. Genetic variation between the C. frutescens genotypes was more than among the C. annuum genotypes and the C. chinense genotypes were the least similar ones.     

Characterization of a new fungal antagonist of Phytophthora capsici

The capacity of many microorganisms for antagonism towards pathogens is unknown and previously uncharacterized species may be potentially useful in this respect. This work presents the evaluation of the capacity of a previously uncharacterized Ascomycete, denominated here as UA to protect chili pepper (Capsicum annuum) against Phytophthora capsici, and other soil-borne plant pathogens and establishes the role of UA as a biocontrol agent. Inoculation of UA 2 days before the inoculation of P. capsici led to 77.8% survival of pepper plants. Simultaneous confrontation of both microorganisms in vitro led to 53.1% growth inhibition of P. capsici, while the inoculation of P. capsici 3 days after the inoculation with UA improved growth inhibition up to 73%. Simultaneous confrontation in vitro of UA with Fusarium oxysporum and Fusarium solani led to 41.2 and 50% growth inhibition, respectively, but had no effect on Rhizoctonia solani or a binucleate Rhizoctonia isolate. Moreover, formation of zoosporangia and the germination of zoospores were completely inhibited by exposure to undiluted filter sterilized filtrate. UA produces septate mycelia, but could not be classified in detail due to a lack of spores or reproductive structures. However, sequencing of Internal Transcribed Spacer 1, 2 and the 5.8S genes indicated that this fungus is a member of the Ascomycetes.