Presence of a 20 bp insertion/deletion in the ITS1 region of Verticillium lecanii

Polymorphism of Beauveria bassiana (Deuteromycota: Hyphomycetes) strains isolated from Ixodes ricinus (Acari: Ixodidae) in Moldova

Polymorphism of 10 Beauveria bassiana strains, isolated from Ixodes ricinus in Moldova, was evaluated using traditional (morphological and cultural properties) and molecular (RAPD patterns and ITS sequences) methods. The isolates differed greatly in morphological and cultural features, such as color, consistence, and growth rate. Four RAPD-PCR markers were used to evaluate genetic diversity of the strains. Phylogenetic neighbor-joining analysis of RAPD patterns divided strains into 3 major clades. The ITS sequences of 8 strains were identical to those of known B. bassiana strains. Two subsets (1 and 2) different by one nucleotide change were found in the ITS1 region. One strain of subset 1 was different from known B. bassiana strains by possessing 2 point mutations in the ITS region. RAPD-based clustering correlated to ITS sequence and colony morphology-based grouping of the strains.

Selection of Lecanicillium Strain with High Virulence against Developmental Stages of Bemisia tabaci

Selection of fungal strains with high virulence against the developmental stages of Bemisia tabaci was performed using internal transcribed spacer regions. The growth rate of hyphae was measured and bioassay of each developmental stage of B. tabaci was conducted for seven days. All of the fungal strains tested were identified as Lecanicillium spp., with strain 4078 showing the fastest mycelium growth rate (colony diameter, 16.3 ± 0.9 mm) among the strains. Compared to strain 4075, which showed the slowest growth rate, the growth rate of strain 4078 was increased almost 2-fold after seven days. Strains 4078 and Btab01 were most virulent against the egg and larva stages, respectively. The virulence of fungal strains against the adult stage was high, except for strains 41185 and 3387. Based on the growth rate of mycelium and level of virulence, strains 4078 and Btab01 were selected as the best fungal strains for application to B. tabaci, regardless of developmental stage.

The analysis of the complete mitochondrial genome of Lecanicillium muscarium (synonym Verticillium lecanii) suggests a minimum common gene organization in mtDNAs of Sordariomycetes: phylogenetic implications

The mitochondrial genome (mtDNA) of the entomopathogenic fungus Lecanicillium muscarium (synonym Verticillium lecanii) with a total size of 24,499-bp has been analyzed. So far, it is the smallest known mitochondrial genome among Pezizomycotina, with an extremely compact gene organization and only one group-I intron in its large ribosomal RNA (rnl) gene. It contains the 14 typical genes coding for proteins related to oxidative phosphorylation, the two rRNA genes, one intronic ORF coding for a possible ribosomal protein (rps), and a set of 25 tRNA genes which recognize codons for all amino acids, except alanine and cysteine. All genes are transcribed from the same DNA strand. Gene order comparison with all available complete fungal mtDNAs-representatives of all four Phyla are included-revealed some characteristic common features like uninterrupted gene pairs, overlapping genes, and extremely variable intergenic regions, that can all be exploited for the study of fungal mitochondrial genomes. Moreover, a minimum common mtDNA gene order could be detected, in two units, for all known Sordariomycetes namely nad1-nad4-atp8-atp6 and rns-cox3-rnl, which can be extended in Hypocreales, to nad4L-nad5-cob-cox1-nad1-nad4-atp8-atp6 and rns-cox3-rnl nad2-nad3, respectively. Phylogenetic analysis of all fungal mtDNA essential protein-coding genes as one unit, clearly demonstrated the superiority of small genome (mtDNA) over single gene comparisons.

Genetic, morphological, and virulence characterization of the entomopathogenic fungus Verticillium lecanii

In order to clarify relationships among genetic diversity, virulence, and other characteristics of conidia, 46 isolates of Verticillium lecanii from various hosts and geographical locations were examined. The internal transcribed spacer (ITS) and intergenic spacer (IGS) regions of ribosomal DNA (rDNA), mitochondrial small subunit rDNA (mt-SrDNA) and beta-tubulin were analyzed by PCR-RFLP. PCR-single stranded conformational polymorphism (SSCP) was performed on regions of the mitochondrial large subunit rDNA, mt-SrDNA, beta-tubulin and histone 4. There were no relationships among the results of RFLP, SSCP, isolation source, and location. However, amplified product size of IGS did have relationships with conidia size and sporulation. Six isolates with 4.0-kb IGS products had large conidia dimensions, and yielded low numbers of conidia compared with other isolates. Three out of the six isolates were high virulence (over 90%) against green peach aphids. Furthermore, double-stranded RNA (dsRNA) was detected in 22 out of 35 V. lecanii isolates and related with the amplicon sizes of IGS, though not with virulence or isolation location. Isolates containing dsRNA were divided into six distinct types based on banding pattern. These data demonstrate the level of genetic diversity of V. lecanii, and suggest relations among the genetic properties and conidial morphology.

IGS sequence variation, group-I introns and the complete nuclear ribosomal DNA of the entomopathogenic fungus Metarhizium: excellent tools for isolate detection and phylogenetic analysis

The complete nuclear rDNA gene complex of Metarhizium anisopliae var. anisopliae isolate ME1 is 8118bp long and contains the 18S, 5.8S, and 28S rRNA genes as well as the ITS and IGS regions. Variation in the ITS of isolates of M. anisopliae var. anisopliae and one each of Metarhizium anisopliae var. acridum, Metarhizium flavoviride var. flavoviride, and Metarhizium flavoviride var. minus, clustered 39 out of 40 of M. anisopliae var. anisopliae isolates in one clade. Nucleotide sequence variation in the IGS among 21 of M. anisopliae var. anisopliae isolates showing IGS length variation sorted them into three strongly supported clades, which were weakly correlated with insect hosts and were not correlated with geographic location. Two group-I introns, Ma-int4 and Ma-int5, were discovered in the 18S and the 3(') end of the 28S, in M. anisopliae var. anisopliae isolates ITALY-12 and IMBST 9601. The insertion sites and sub-group of these introns correlated with their closest relatives, as judged by phylogenetic analysis of intron nucleotide sequence.

Identification of group-I introns at three different positions within the 28S rDNA gene of the entomopathogenic fungus Metarhizium anisopliae var. anisopliae

Using a set of heterologous primers designed from the 3'-end of the 28S rRNA gene of Verticillium dahliae the corresponding gene region of 30 isolates of the entomopathogenic fungus Metarhizium anisopliae var. anisopliae was amplified. The polymerase chain reaction products obtained could be classified into four groups varying in size from 1.0 to 2.2 kb. Sequence analyses of representative PCR products revealed the presence of five distinct introns, positioned in three different insertion sites. Fungal isolates 316 and 11 both harbored one intron each (374 and 337 bp in size, respectively), whereas isolate 33 harbored three introns (436, 334, and 412 bp) within the relevant 28S rRNA region. All five introns shared the conserved P, Q, R, S elements and all the other characteristic features of group-I introns in their deduced secondary structure; three (316-int, 33-int1, and 33-int3) belong to subgroup IC1 and two (33-int2 and 11-int) belong to subgroup IE. Further, reverse transcription polymerase chain reactions indicated that all these introns were absent from the mature RNA molecules. The appearance of the five introns at identical positions with those from other organisms belonging to various phyla is discussed.