ERIC and REP-PCR Banding Patterns and Sequence Analysis of the Internal Transcribed Spacer of rDNA of Stemphylium solani Isolates from Cotton

The genetic diversity of the Stemphylium solani isolates from cotton was assessed by Enterobacterial Repetitive Intergenic Consensus (ERIC) and Repetitive Extragenic Palindromes (REP)-PCR fingerprinting. Twenty eight monosporic isolates of S. solani from cotton were used along with five isolates from tomato and one isolate of Alternaria macrospora from cotton for comparison. The dendrogram obtained revealed clear differences between the cotton and tomato isolates as well as between the tomato isolates from different geographic regions. The genetic relationships among S. solani isolates were also analyzed by sequencing the internal transcribed spacer (ITS) region of four isolates representing the three ERIC and REP groups. The tomato isolate from the State of S?o Paulo showed a distinct ITS sequence from that of the cotton isolates and tomato isolate from the State of Goiás, giving evidence that it belongs to a different genotype of S. solani. This is the first report of the entire sequence of the ITS1-5.8S-ITS2 regions of S. solani.     

Systematics of genus Gnomoniopsis (Gnomoniaceae, Diaporthales) based on a three gene phylogeny, host associations and morphology

Species of Gnomoniopsis are leaf- and stem-inhabiting pyrenomycetes that infect plants in Fagaceae, Onagraceae and Rosaceae. Morphology and analyses of DNA sequences from three ribosomal DNA and protein coding regions, namely β-tubulin, translation elongation factor 1α (tef-1α) and the ITS region including ITS1, 5.8S rDNA and ITS2, were used to define species in Gnomoniopsis. Secondary structural alignment of the ITS region across four genera in Gnomoniaceae was used to increase the potential number of homologous positions in the ITS alignment. Ascospore isolates were grown from newly collected specimens. Type specimens were compared with these specimens to determine their identity. In this paper a recent concept of Gnomoniopsis is confirmed with phylogenetic resolution of additional species. Four new combinations and one new species are proposed. Nine species are described and illustrated, and a key is provided to the 13 species currently recognized in Gnomoniopsis.     

Analysis of the 5.8S rRNA gene and the internal transcribed spacers in Naegleria spp. and in N. fowleri

Internal transcribed spacers (ITS) and the 5.8S ribosomal gene of 21 Naegleria fowleri strains and eight other species including Naegleria gruberi were sequenced. The results showed that this region can help differentiate between and within species. The phylogeny of Naegleria spp. deduced from the ITS and the 5.8S gene produced four major lineages, fowleri-lovaniensis, galeacystis-italica-clarki-gruberi-australiensis, andersoni-jamiesoni, and pussardi, that fit perfectly with those inferred from the 18S rRNA gene analysis. The N. gruberi isolate, NG260, was closely related to Naegleria pussardi. The other N. gruberi isolates branched together with Naegleria australiensis in another lineage. The ITS and 5.8S results for N. fowleri were congruent with those previously deduced by RAPD analysis. The phylogenetic analysis inferred from ITS and RAPD data revealed two major groups. The French Cattenom and Chooz and South Pacific strains constituted the first group. The second group encompassed the strains corresponding to the Euro-American and Widespread RAPD variants and shared the same substitution in the 5.8S gene. In addition, it was possible to define species specific primers in ITS regions to rapidly identify N. fowleri.     

中国北方棉花主产区立枯丝核菌的融合群鉴定

从山东、河北、河南三省采集棉花立枯病样品和土壤200余份,经分离获得198个丝核菌Rhizoctonia solani分离物。菌丝融合测定及5.8S rDNA-ITS区序列分析结果表明,这些分离物分别属于多核丝核菌的AG4-HG-I和AG4-HG-III融合群以及双核丝核菌的AG-A、AG-F、AG-Fb融合群。其中AG4-HG-I是优势融合类群,占分离物总数的88.38%,其次是AG4-HG-III,占10.10%,AG-A、AG-F、AG-Fb各仅有1株。其中双核丝核菌AG-A、AG-F和AG-Fb融     

Genotypic Diversity among Brazilian Isolates of Sclerotium rolfsii

Thirty isolates of Sclerotium rolfsii Sacc. from different hosts and regions of Brazil were studied in relation to morphology, mycelial compatibility, analysis of genomic DNA through random amplified polymorphic DNA (RAPD), variation within the nuclear rDNA [internal transcribed spacers (ITS)] and sequencing of ITS fragments. There was considerable variability among isolates in relation to the number, size and location of sclerotia on the medium surface. Thirteen mycelial compatibility groups (MCG) were identified among 23 isolates. Seven isolates were only self‐compatible. With the exception of group 3, where all the isolates came from soybean, there was no apparent correlation between group and isolate origin. On the basis of RAPD profiles, 11 haplotypes (A to K) were identified. There was an association between the RAPD groups and MCG. Haplotypes A, B, D, G, I and K belonged to MCG groups 1, 2, 3, 4, 5 and 6, respectively. All other RAPD haplotypes contained incompatible isolates. Polymerase chain reaction (PCR) amplification with primers 4R and 5F amplified two fragments containing ITS1, ITS2 and 5.8 S rDNA sequences, that were present in all isolates, with molecular sizes of 739 and 715 bp. Restriction analysis of PCR products showed that the two fragments had sequence divergency which is referred to as ‘ITS types’. Four arbitrarily chosen soybean isolates (2, 6, 7 and 23) and two non‐soybean isolates (11 and 22) were used to investigate the variation within the ITS sequence and its role in the phylogeny. The strict consensus of nine most‐parsimonious trees inferred from the data set which included six isolates of S. rolfsii, four of which have two different ‘ITS types’, showed three well‐supported groupings. The neighbour‐joining tree inferred from the data set also showed three major clades as did the parsimony tree. The major difference was that in the neighbour‐joining tree the ‘ITS type’ 11 was resolved and grouped in one clade. These results show that the ‘ITS types’ within isolates are almost always phylogenetically distinct. There was no clear correlation between ITS‐based phylogeny and isolate origin.     

Ribosomal variation in six species of shape Fusarium

Eighteen isolates representing six Fusarium species from diverse hosts and geographical origins were evaluated to determine ribosomal DNA variation using polymerase chain reaction and restriction fragment length polymorphisms. No length variation was observed for amplified 18S and 28S regions. However, amplification of the ITS region showed one isolate, a F. oxysporum, to be about 120 bp larger than the remaining 17. Restriction digestions in the 18S region revealed polymorphisms within species of F. oxysporum and F. solani. An amplified variable stretch of the 28S gene showed restriction site differences between F. avenecum, F. sambucinum and F. sporotrichioides. A large degree of polymorphism was observed both between and within species in the ITS region. Therefore, entire sequences of the ITS and the 5.8S subunit were obtained for 17 of the 18 isolates. These sequences, along with those from eight additional isolates, were analysed using PAUP to assess the occurrence of DNA sequence divergence within the ITS region. The lack of correlation between molecular-based relationships and species affinities inferred from morphology for some isolates indicates that species designation can be unreliable using morphological data alone. Possible reasons for the discordance of the sequence and morphological data are discussed. This revised version was published online in June 2006 with corrections to the Cover Date.     

Phylogenetic Relationships Among Colletotrichum Pathogens of Strawberry and Design of PCR Primers for their Identification

Isolates of Colletotrichum acutatum, C. fragariae and C. gloeosporioides pathogenic to strawberry plants were examined by sequence analysis of the 5.8S‐ITS region. Phylogenetic relationships among isolates of Colletotrichum are, for the most part, congruent with the molecular groups established in earlier works. 5.8S‐ITS sequence analysis showed a high level of genetic divergence within C. acutatum. Isolates of this species clustered into two very distinct clusters with further subdivision. The divergences between C. fragariae and C. gloeosporioides were too low to distinguish them as separate species. On the basis of the sequence data, specific primers were designed both to identify isolates belonging to the genus Colletotrichum, and to distinguish isolates of the species C. acutatum. The specificity of these primers was validated by testing a wide range of strawberry isolates of Colletotrichum, non‐strawberry isolates of Colletotrichum and other fungi used as controls. Although the 5.8S‐ITS sequences were not polymorphic enough to allow the construction of C. gloeosporioides‐specific primers, specific PCR amplification followed by an MvnI digestion provides a tool to specifically identify strawberry isolates of C. gloeosporioides.     

Molecular characterization of isolates of Beauveria bassiana obtained from overwintering and summer populations of Sunn Pest (Eurygaster integriceps)

Aim:  To examine whether isolates of the entomopathogenic fungus Beauveria bassiana are more closely associated to their summer hosts compared with overwintering hosts, with recently developed molecular tools based on mitochondrial regions. Methods and Results:  Primers for the traditional ITS1‐5·8S‐ITS2 region and two mitochondrial intergenic regions, namely, nad3‐atp9 and atp6‐rns, were used. All amplified products were sequenced, aligned and Neighbour‐Joining (NJ), parsimony and Bayesian phylogenetic inference analyses were performed. The isolates examined were grouped with very good support into three distinct groups, two of them showed geographical correlation, but no clear association to their host. Conclusions:  The mitochondrial intergenic regions used were more informative than the nuclear ITS1‐5·8S‐ITS2 sequences. The sequence variability observed, that allowed the phylogenetic placement of the isolates into distinct groups, depended on the geographical origin of the isolates and can be exploited for designing group‐specific and isolate‐specific primers for their genetic fingerprinting. No clear associations with summer Sunn Pest populations were observed. Significance and Impact of the Study:  Studies on the genetic variability of biocontrol agents like B. bassiana are indispensable for the development of molecular tools for their future monitoring.     

Determination of genetic diversity among Indian isolates of Rhizoctonia bataticola causing dry root rot of chickpea

Genetic diversity among 27 isolates (23 from chickpea and 4 from other host crops) of Rhizoctonia bataticola representing 11 different states of India was determined by random amplified polymorphic DNA (RAPD), internal transcribed spacer restriction fragment length polymorphism (ITS-RFLP) and ITS sequencing. The isolates showed variability in virulence test. Unweighted paired group method with arithmetic average cluster analysis was used to group the isolates into distinct clusters. The clusters generated by RAPD grouped all the isolates into six categories at 40% genetic similarity. High level of diversity was observed among the isolates of different as well as same state. Some of the RAPD (OPN 4, OPN 12, and OPN 20) markers clearly distinguished majority of the isolates into the area specific groups. The ITS I, 5.8rDNA and ITS II regions of 11 isolates representing different RAPD groups were amplified with primers ITS 1 and ITS 4 and digested with seven restriction enzymes. The restriction enzymes DraI, MboI, RsaI, and AluI were found to be suitable for differentiating the isolates into five categories by showing isolate specific ITS-RFLP patterns. The isolates were variable in their nucleotide sequences of the ITS regions. This is the first study on genetic diversity among chickpea isolates of R. bataticola.     

Molecular phylogeny and evolution of subsection Magnicellulatae (Erysiphaceae: Podosphaera) with special reference to host plants

The subsection Magnicellulatae of the genus Podosphaera section Sphaerotheca belongs to the tribe Cystotheceae of the Erysiphaceae, which has the characteristic of producing catenate conidia with distinct fibrosin bodies. In this study, we newly determined the nucleotide sequences of the D1/D2 domains of the 28S rDNA region and the sequences of the rDNA internal transcribed spacer (ITS) region to investigate the relationships between the phylogeny of this fungal group and their host plants. The results indicated that the 28S rDNA region is too conservative for phylogenetic analysis of this fungal group. The phylogenetic analysis using 95 ITS sequences demonstrated that two or more Magnicellulatae taxa often infect the same plant genus or species. Although there is a close relationship between Magnicellulatae and asteraceous hosts, this association seems to be not as strict as that between Golovinomyces and the Asteraceae. The difference between the two fungal groups may be explained by their different evolutionary timing.     

Genetic Diversity of Ostreopsis ovata (Dinophyceae) from Malaysia

The genus Ostreopsis is an important component of benthic and epiphytic dinoflagellate assemblages in coral reefs and seaweed beds of Malaysia. Members of the species may produce toxins that contribute to ciguatera fish poisoning. In this study, two species have been isolated and cultured, Ostreopsis ovata and Ostreopsis lenticularis. Analyses of the 5.8S subunit and internal transcribed spacer regions ITS1 and ITS2 of the ribosomal RNA gene sequences of these two species showed that they are separate species, consistent with morphological designations. The nucleotide sequences of the 5.8S subunit and ITS1 and ITS2 regions of the rRNA gene were also used to evaluate the interpopulation and intrapopulation genetic diversity of O. ovata found in Malaysian waters. Results showed a low level of sequence divergence within populations. At the interpopulation level, the rRNA gene sequence distinguished two groups of genetically distinct strains, representative of a Malacca Straits group (isolates from Port Dickson) and a South China Sea group (isolates from Pulau Redang and Kota Kinabalu). Part of the sequences in the ITS regions may be useful in the design of oligonucleotide probes specific for each group. Results from this study show that the ITS regions can be used as genetic markers for taxonomic, biogeographic, and fine-scale population studies of this species. Received September 15, 2000; accepted December 15, 2000     

CONSPECIFICITY AND INDO-PACIFIC DISTRIBUTION OF SYMBIODINIUM GENOTYPES (DINOPHYCEAE) FROM GIANT CLAMS

We previously reported the occurrence of genetically‐diverse symbiotic dinoflagellates (zooxanthellae) within and between 7 giant clam species (Tridacnidae) from the Philippines based on the algal isolates' allozyme and random amplified polymorphic DNA (RAPD) patterns. We also reported that these isolates all belong to clade A of the Symbiodinium phylogeny with identical 18S rDNA sequences. Here we extend the genetic characterization of Symbiodinium isolates from giant clams and propose that they are conspecific. We used the combined DNA sequences of the internal transcribed spacer (ITS)1, 5.8S rDNA, and ITS2 regions (rDNA‐ITS region) because the ITS1 and ITS2 regions evolve faster than 18S rDNA and have been shown to be useful in distinguishing strains of other dinoflagellates. DGGE of the most variable segment of the rDNA‐ITS region, ITS1, from clonal representatives of clades A, B, and C showed minimal intragenomic variation. The rDNA‐ITS region shows similar phylogenetic relationships between Symbiodinium isolates from symbiotic bivalves and some cnidarians as does 18S rDNA, and that there are not many different clade A species or strains among cultured zooxanthellae (CZ) from giant clams. The CZ from giant clams had virtually identical sequences, with only a single nucleotide difference in the ITS2 region separating two groups of isolates. These data suggest that there is one CZ species and perhaps two CZ strains, each CZ strain containing individuals that have diverse allozyme and RAPD genotypes. The CZ isolated from giant clams from different areas in the Philippines (21 isolates, 7 clam species), the Australian Great Barrier Reef (1 isolate, 1 clam species), Palau (8 isolates, 7 clam species), and Okinawa, Japan (1 isolate, 1 clam species) shared the same rDNA‐ITS sequences. Furthermore, analysis of fresh isolates from giant clams collected from these geographical areas shows that these bivalves also host indistinguishable clade C symbionts. These data demonstrate that conspecific Symbiodinium genotypes, particularly clade A symbionts, are distributed in giant clams throughout the Indo‐Pacific.     

Measure of molecular diversity within the Trypanosoma brucei subspecies Trypanosoma brucei brucei and Trypanosoma brucei gambiense as revealed by genotypic characterization

We have evaluated whether sequence polymorphisms in the rRNA intergenic spacer region can be used to study the relatedness of two subspecies of Trypanosoma brucei. Thirteen T. brucei isolates made up of 6 T. b. brucei and 7 T. b. gambiense were analyzed using restriction fragment length polymorphism (RFLP). By PCR-based restriction mapping of the ITS1-5.8S-ITS2 ribosomal repeat unit, we found a fingerprint pattern that separately identifies each of the two subspecies analyzed, with unique restriction fragments observed in all but 1 of the T. b. gambiense "human" isolates. Interestingly, the restriction profile for a virulent group 2 T. b. gambiense human isolate revealed an unusual RFLP pattern different from the profile of other human isolates. Sequencing data from four representatives of each of the two subspecies indicated that the intergenic spacer region had a conserved ITS-1 and a variable 5.8S with unique transversions, insertions, or deletions. The ITS-2 regions contained a single repeated element at similar positions in all isolates examined, but not in 2 of the human isolates. A unique 4-bp [C(3)A] sequence was found within the 5.8S region of human T. b. gambiense isolates. Phylogenetic analysis of the data suggests that their common ancestor was a nonhuman animal pathogen and that human pathogenicity might have evolved secondarily. Our data show that cryptic species within the T. brucei group can be distinguished by differences in the PCR-RFLP profile of the rDNA repeat.     

Host range, replicative, and cytopathic properties of human immunodeficiency virus type 1 are determined by very few amino acid changes in tat and gp120.

Human immunodeficiency virus type 1 (HIV-1) isolates display differences in a variety of in vitro biological properties, including the ability to infect different cell types, the kinetics of replication, and cytopathicity in the infected cells. Studies with isolates obtained from the same individual over time have shown that these in vitro properties of the viral isolates correlate with pathogenicity in the host. The later isolates, recovered when disease has developed, display a wider cellular host range, replicate rapidly and to high titers in the infected cells, and induce syncytia in these cells. In the present studies, the genomic determinants of these biological properties were defined with recombinant viruses generated between two HIV-1 isolates recovered sequentially from the same individual. The results show that the rate of HIV-1 replication in the HUT 78 T-cell line is controlled by the first coding exon of tat. Infection of T-cell and monocytic cell lines is determined by two specific regions in the envelope gp120, one of which also confers the ability of an isolate to induce syncytia. Amino acid sequence comparison of the regions identified revealed minor differences between the two viral isolates: 2 amino acids in the tat gene product and 10 and 12 amino acids in the two regions of envelope gp120. These data suggest that small changes in the tat and env proteins can have dramatic effects on the pathogenic potential of HIV-1.     

NUCLEAR RIBOSOMAL DNA INTERNAL TRANSCRIBED SPACER REGIONS (ITS1 AND ITS2) DEFINE DISCRETE BIOGEOGRAPHIC GROUPS IN CLADOPHORA ALBIDA (CHLOROPHYTA)1

Nucleotide sequences of the nuclear ribosomal DNA internal transcribed spacers (ITS1 and ITS2), the 5.8S, and short stretches of the adjacent 18S and 26S coding regions were determined in isolates from four disjunct Cladophora albida (Huds.) Kütz. populations (NE-America, W-Europe, Japan, and W-Australia). The two Pacific isolates share nearly identical ITS sequences as do the two Atlantic isolates. In contrast, interoceanic comparisons exhibit a 21% sequence difference. Variation within ITS regions is useful for identification of population groups on a regional or oceanic scale. However, both spacers are characterized by numerous repeat motifs as well as point mutations, which result in alignment problems at the interspecific level within Cladophora.     

Comparison of 5.8S and ITS2 rDNA RFLP Patterns Among Isolates of Acremonium obclavatum, A. kiliense, and A. strictum from Diverse Sources

Polymerase chain reaction (PCR) products of nuclear 5.8S and internal transcribed spacer regions (ITS2) of rDNA from reference cultures of Acremonium obclavatum (a rarely recognized species first reported from India) were compared with cultures of Acremonium spp. isolated from Georgia, USA. Digestion of amplicons sequentially with Hinfl and Sau3AI divided the isolates into four restriction fragment length polymorphism (RFLP) groups. A representative isolate of primary colonizers of insulation facings from a building in Georgia appeared identical to the type culture of A. obclavatum, whereas other cultures from Indian soils showed variation in the ITS2 region that divided them into further subgroups. Reference cultures of A. kiliense (ATCC 14489) and A. strictum (ATCC 10141) and two additional isolates from metropolitan Atlanta, assigned to this latter species complex on a morphological basis, represented two additional RFLP groups both of which were distinct from the RFLP groups in A. obclavatum. A. kiliense and A. strictum could be placed into similar subgroups on the basis of morphological differences and distinct RFLP patterns. Received: 6 June 1997 / Accepted: 22 July 1997     

A novel Arabidopsis-Colletotrichum pathosystem for the molecular dissection of plant-fungal interactions

The ability of a Colletotrichum sp., originally isolated from Brassica campestris, to infect Arabidopsis thaliana was examined. Sequence analysis of the internal transcribed spacer (ITS)1, 5.8S RNA gene and ITS2 regions of ribosomal (r)DNA showed the pathogen to be Colletotrichum destructivum. The host range was broad, including many cruciferous plants and some legumes. At 25 degrees C, all A. thaliana accessions tested were susceptible to the Brassica isolates of C. destructivum; however, at 15 degrees C, the accession Ws-2 showed a temperature-dependant resistance, in which single epidermal cells underwent a rapid hypersensitive response. Legume isolates of C. destructivum were unable to infect A. thaliana and induced deposition of callose papillae at sites of attempted penetration. In compatible interactions, C. destructivum showed a two-stage, hemibiotrophic infection process. The initial biotrophic phase was associated with large, intracellular primary hyphae and was confined to one epidermal cell; whereas, in the subsequent necrotrophic phase, narrow secondary hyphae extensively colonized the tissue and conidia were produced in acervuli. An efficient transformation system was established for C. destructivum, using Agrobacterium-mediated transfer of DNA. The ability to genetically manipulate both partners in the interaction is an important advantage, and the Arabidopsis-Colletotrichum pathosystem should provide a valuable new model for dissecting plant-fungal interactions.     

Comparison of fungi within the Gaeumannomyces-Phialophora complex by analysis of ribosomal DNA sequences.

Four ascomycete species of the genus Gaeumannomyces infect roots of monocotyledons. Gaeumannomyces graminis contains four varieties, var. tritici, var. avenae, var. graminis, and var. maydis. G. graminis varieties tritici, avenae, and graminis have Phialophora-like anamorphs and, together with the other Gaeumannomyces and Phialophora species found on cereal roots, constitute the Gaeumannomyces-Phialophora complex. Relatedness of a number of Gaeumannomyces and Phialophora isolates was assessed by comparison of DNA sequences of the 18S rRNA gene, the 5.8S rRNA gene, and the internal transcribed spacers (ITS). G. graminis var. tritici, G. graminis var. avenae, and G. graminis var. graminis isolates can be distinguished from each other by nucleotide sequence differences in the ITS regions. The G. graminis var. tritici isolates can be further subdivided into R and N isolates (correlating with ability [R] or inability [N] to infect rye). Phylogenetic analysis of the ITS regions of several oat-infecting G. graminis var. tritici isolates suggests that these isolates are actually more closely related to G. graminis var. avenae. The isolates of Magnaporthe grisea included in the analysis showed a surprising degree of relatedness to members of the Gaeumannomyces-Phialophora complex. G. graminis variety-specific oligonucleotide primers were used in PCRs to amplify DNA from cereal seedlings infected with G. graminis var. tritici or G. graminis var. avenae, and these should be valuable for sensitive detection of pathogenic isolates and for diagnosis of take-all.     

Genotypes of Candida dubliniensis in clinical isolates

Amplification of specific sequences of the ITS1 and ITS2 regions and the intervening 5.8S rRNA gene has lead to the identification of four separate genotypes in Candida dubliniensis. Using primers specific for each genotype, we have studied the prevalence of these genotypes among 68 clinical isolates, mostly from Spanish patients infected by HIV. The majority of the isolates tested belonged to genotype 1 (97%), while only one isolate each from genotypes 2 (1.5%) and 3 (1.5%) were detected in the oral cavity of two patients with HIV infection.