Characterization of small GTPases Cdc42 and Rac and the relationship between Cdc42 and actin cytoskeleton in vegetative and ectomycorrhizal hyphae of Suillus bovinus.

This work reports the isolation and molecular characterization of CDC42 and RAC1 cDNAs from the ectomycorrhiza forming filamentous homobasidiomycete Suillus bovinus. Previously, no RAC gene was described from filamentous fungi and no CDC42 gene was described from homobasidiomycetes. Southern hybridization with SbCDC42 and SbRAC1 cDNAs indicated that the S. bovinus genome contains only one CDC42 and one RAC1 gene. The predicted amino acid sequence of SbRaclp is 77% identical with the Rac1B protein of chick, whereas SbCdc42p is most identical with Schizosaccharomyces pombe Cdc42p, showing 88% identity. In the predicted amino acid sequences of SbRaclp and SbCdc42p, the five guanine nucleotide binding regions, switch I and II, and the effector domain are highly identical to those known in other small GTPases. These domain structures suggest that in S. bovinus, SbRac1p and SbCdc42p function as molecular switches regulating the organization of actin cytoskeleton, similar to yeasts and mammals. SbRAC1 and SbCDC42 were expressed in vegetative and ectomycorrhizal hyphae, and SbCdc42p was detected in ectomycorrhiza-forming hyphae if growth and differentiation of the symbiotic hyphae took place. Cdc42p and actin were localized at the tips of S. bovinus vegetative hyphae. Similar to yeast, in filamentous fungi Cdc42p may be necessary to maintain the actin cytoskeleton at hyphal tips, making the polarized growth of the hyphae possible. In developing ectomycorrhiza, Cdc42p and actin were visualized in association with plasma membrane in swollen cells typical to the symbiotic hyphae. The role of Cdc42p and actin in regulation of the growth pattern and morphogenesis of ectomycorrhizal hyphae is discussed.

Scots pine expresses short-root-specific peroxidases during development.

Nine short-root-specific proteins from Scots pine (Pinus sylvestris L.) detected and isolated as individual spots by 2D-PAGE were identified. The similar peptide mass maps obtained for all nine polypeptide spots together with lectin-blotting results suggest that they represent forms of the same modified protein. N-Terminal sequence analysis of two of the peptides showed high similarity to peroxidases. RT-PCR with oligonucleotide primers corresponding to determined peptide sequences and conserved regions in plant peroxidases led to isolation of Psyp1 cDNA which is most abundantly expressed in short roots. Psyp1 is the first peroxidase cDNA to be isolated from the genus Pinus. It encodes a 363-amino-acid class-III peroxidase with a calculated molecular mass of 35.7 kDa and theoretical pI of 4.74. The predicted PSYP1 amino-acid sequence is grouped with other class-III peroxidases in phylogenetic analyses, but it has a unique amino-acid sequence which may be associated with its function in short roots or with its phylogenetic group. The presence of a signal sequence for extracellular transport indicates that PSYP1 belongs to the group of secreted class-III peroxidases. The presence of 10 tyrosine residues and putative auxin-binding regions in PSYP1 suggests that the function of the enzyme is associated with cell-wall formation in short roots. The downregulation of Psyp1 expression in symbiotic short roots hosting the ectomycorrhizal fungus Suillus bovinus is perhaps related to the change in cell-wall structure necessary for ectomycorrhizal development.

Interactions of the Trichoderma reesei rho3 with the secretory pathway in yeast and T. reesei.

We recently isolated from the filamentous fungus Trichoderma reesei (Hypocrea jecorina) a gene encoding RHOIII as a multicopy suppressor of the yeast temperature-sensitive secretory mutation, sec15-1. To characterize this gene further, we tested its ability to suppress other late-acting secretory mutations. The growth defect of yeast strains with sec1-1, sec1-11, sec3-2, sec6-4 and sec8-9 mutations was suppressed. Expression of rho3 also improved the impaired actin organization of sec15-1 cells at +38 degrees C. Overproduction of yeast Rho3p using the same expression vector as T. reesei RHOIII appeared to be toxic in sec3-101, sec5-24, sec8-9, sec10-2 and sec15-1 cells. When expressed from the GAL1 promoter, RHO3 suppressed the growth defect of sec1 at the restrictive temperature and inhibited the growth of sec3-101 at the permissive temperature. Disruption of the rho3 gene in the T. reesei genome did not affect the hyphal or colony morphology nor the cellular cytoskeleton organization. Furthermore, the growth of T. reesei was not affected on glucose by the rho3 disruption. Instead, both growth and protein secretion of T. reesei in cellulose cultures was remarkably decreased in rho3 disruptant strains when compared with the parental strain. These results suggest that rho3 is involved in secretion processes in T. reesei.

Molecular characterization of actin genes from homobasidiomycetes: two different actin genes from Schizophyllum commune and Suillus bovinus.

The actin-encoding genes Scact1 and Scact2 of the homobasidiomycete Schizophyllum commune are the first actin genes isolated from higher filamentous fungi. Their isolation shows that homobasidiomycetes have two actin encoding genes instead of one typical to yeasts and filamentous ascomycetes. This result was further confirmed by cloning two actin encoding genes, Sbact1 and Sbact2, from another homobasidiomycete Suillus bovinus. The comparison of the genomic and cDNA sequences of the actin genes showed that Scact1 and Scact2 genes of S. commune contain seven introns, five of which are at the same position in the two genes while S. bovinus actin genes contain nine similarly positioned introns. In the four genes, five intron positions are shared, which indicates a close relationship between the actin encoding genes from S. commune and S. bovinus. Northern hybridization and analysis of two-dimensional immunoblots showed a difference in the expression levels between the two actin genes in each fungus. No actin protein could be detected from S. commune Scact2. The deduced amino acid sequence of the Scact2 gene also differs considerably from any other known actin protein. These data suggest that the Scact2 gene either has a special as yet unidentified function in S. commune life cycle or is a transcribed but no longer translated pseudogene. Scact2 gene has a putative microORF (short open reading frame) and Scact1 gene an intron in the 5'-untranslated region, which could reduce the translational efficiency and increase the transcriptional efficiency of the Scact2 and Scact1 genes, respectively. During mating in S. commune or at formation of ectomycorrhiza in S. bovinus, the expression of actin genes was similar to that in vegetative hyphae. This result suggests that the reorganization of actin cytoskeleton in response to extra- and intracellular signals in higher filamentous fungi could be directly regulated by members of signalling pathways well characterized in yeast and mammalian cells.

Effect of abscisic acid and cold acclimation on the cytoskeletal and phosphorylated proteins in different cultivars of Triticum aestivum L.

In winter wheat, the tubulin and 60 kDa-phosphorylated proteins/actin ratio is considerably higher in the roots than in the leaves. Differences in the content of the main cytoskeletal proteins were also found in the leaves of the different cultivars. It is suggested that the lower amount of the tubulin and 60 kDa-phosphorylated proteins and higher content of actin determine the greater tubulin cytoskeletal stability in the leaves and their higher frost resistance, as compared with the roots. Also, it is possible that the higher content of the tubulin and 60 kDa-phosphorylated proteins defines the lower microtubule (MT) stability in the leaves of the low frost resistant cultivar than in the leaves of the more frost resistant ones. In the roots and leaves of the low frost resistant cultivar, the low stability of the numerous tubulin structures is apparently one reason for the abscisic acid (ABA)-induced reduction of the cytoskeletal and 60 kDa-phosphorylated proteins in the cells. The cold acclimation compensated the ABA effect in the roots of the very frost resistant cultivar in the most extent. This suggests the existence of the different pathways in the increased plant cell frost resistance through the action of ABA and low temperature.

The relationship between B-mating-type genes and nuclear migration in schizophyllum commune

Raudaskoski, M. 1998. The relationship between B-mating-type genes and nuclear migration in Schizophyllum commune. Copyright 1998 Academic Press.

Multiple genes encoding pheromones and a pheromone receptor define the B beta 1 mating-type specificity in Schizophyllum commune.

The genes defining multiple B mating types in the wood-rotting mushroom Schizophyllum commune are predicted to encode multiple pheromones and pheromone receptors. These genes are clustered in each of two recombinable and independently functioning loci, B alpha and B beta. A difference in specificity at either locus between a mated pair of individuals initiates an identical series of events in sexual morphogenesis. The B alpha 1 locus was recently found to contain genes predicted to encode three lipopeptide pheromones and a pheromone receptor with a seven-transmembrane domain. These gene products interact in hetero-specific pairs, the pheromone of one B alpha specificity with the receptor of any one of the other eight B alpha specificities, and are likely to activate a signaling cascade similar to that known for mating in Saccharomyces cerevisiae. We report here that the B beta 1 locus also contains at least three pheromone genes and one pheromone receptor gene, which function similarly to the genes in the B alpha 1 locus, but only within the series of B beta specificities. A comparison of the DNA sequences of the B alpha 1 and B beta 1 loci suggests that each arose from a common ancestral sequence, allowing us to speculate about the evolution of this unique series of regulatory genes.

Expression and Secretion of Barley Cysteine Endopeptidase B and Cellobiohydrolase I in Trichoderma reesei.

Localization of expression and secretion of a heterologous barley cysteine endopeptidase (EPB) and the homologous main cellobiohydrolase I (CBHI) in a Trichoderma reesei transformant expressing both proteins were studied. The transformant was grown on solid medium with Avicel cellulose and lactose to induce the cbh1 promoter for the synthesis of the native CBHI and the recombinant barley protein linked to a cbh1 expression cassette. Differences in localization of expression between the two proteins were clearly indicated by in situ hybridization, indirect immunofluorescence, and immunoelectron microscopy. In young hyphae, native-size recombinant epb mRNA was localized to apical compartments. In older cultures, it was also seen in subapical compartments but not in hyphae from the colony center. The recombinant EPB had a higher molecular weight than the native barley protein, probably due to glycosylation and differential processing in the fungal host. As was found with its transcripts, recombinant EPB was localized in apical and subapical compartments of hyphae. The cbh1 mRNA and CBHI were both localized to all hyphae of a colony, which suggests that the endogenous CBHI was also secreted from these. In immunoelectron microscopy, the endoplasmic reticulum and spherical vesicles assumed to contribute to secretion were labeled by both CBHI and EPB antibodies while only CBHI was localized in elongated vesicles close to the plasma membrane and in hyphal walls. The results indicate that in addition to young apical cells, more mature hyphae in a colony may secrete proteins.

Microtubule cytoskeleton in hyphal growth. Response to nocodazole in a sensitive and a tolerant strain of the homobasidiomycete Schizophyllum commune.

In the wild-type strains of the homobasidiomycete Schizophyllum commune microtubules were totally depolymerized by low concentrations of nocodazole, while high concentrations of benomyl only modified the structure of microtubule cytoskeleton. In the nocodazole-tolerant mutant strain NT30 the microtubule cytoskeleton remained partly functional at a nocodazole concentration which demolished the microtubules in the wild-type strains. The continuation of apical growth for several hours in the wild-type strain without cytoplasmic microtubules indicated that microtubules are not the major elements in hyphal extension growth. However, the irregular branching of the treated apical cells both in the nocodazole-sensitive and -tolerant strain suggested that an intact microtubule cytoskeleton is needed for maintaining the direct extension of the leading hyphae at the colony edge. In the nocodazole-sensitive strain growth in the absence of polymerized microtubules frequently led to the death of the apical cells even when the drug was removed. In the tolerant strain the nuclear divisions continued in spite of nocodazole, but the uninucleate hyphal compartments became multinucleate. This probably resulted from poor segregation of nuclei and septation of hyphae at telophase, which indicated that these processes might be dependent on proper polymerization of cytoplasmic microtubules in higher fungi. The different electrophoretic mobility of the beta-tubulin from the NT30 strain and its parental strains suggested that the tolerance of the NT30 to nocodazole could be due to a mutation in a beta-tubulin encoding gene.

Cloning, sequence and expression of a beta-tubulin-encoding gene in the homobasidiomycete Schizophyllum commune.

The beta-tubulin (beta Tub)-encoding gene (tub-2) of Schizophyllum commune is the first tubulin gene isolated, cloned and sequenced from higher filamentous fungi (homobasidiomycetes). The S. commune tub-2 gene is organized into nine exons and eight introns. The introns vary from 48 to 107 nt in length, and are distributed throughout the gene. The tub-2 exons code for a protein of 445 amino acids (aa), which shows great homology with beta Tubs of filamentous ascomycetes, plants, and animals, but less homology with yeasts. The codon usage of tub-2 from S. commune is biased, as it is in most beta Tub-encoding genes of filamentous fungi. The S. commune beta Tub shows a conserved aa sequence in the C-terminal domain, which is suggested to interact with microtubule-associated proteins in animals. In contrast, the S. commune beta Tub deviates from most known beta Tubs by having a Cys165 residue, which might be significant for the insensitivity of S. commune haploid strains to the antimicrotubule drug, benomyl. In tub-2 of different haploid strains, sequence polymorphisms occur in the 5' and 3' flanking regions. The expression of tub-2 is high in young mycelium, which has a high number of extending apical cells, but decreases with the aging of the mycelium. No significant difference in the hybridization signal intensity for the tub-2 transcripts was recorded either during intercellular nuclear migration at early mating, or in mycelia with a mutation in the B mating-type gene.(ABSTRACT TRUNCATED AT 250 WORDS)

5- and 10-year mortality in a rural middle-aged population at Haapavesi, Northern Finland, with special reference to ischaemic heart disease.

As a part of a larger prospective population study of ischaemic heart disease (IHD) the causes of 5- and 10-year mortality were analysed in 1554 rural inhabitants aged 40 to 59 years (90.0% of the population of this age group) in Northern Finland. The total mortality in 5 years was 2.3% among women and 6.3% among men. The respective 10-year mortality figures were 6.2% and 13.4%. The proportion of IHD as a cause of these deaths among women was 35% and 34% in 5 and 10 years, respectively; among men 46% and 46% of the deaths were due to IHD in 5 and 10 years, respectively. Among women the proportion of strokes was 22% and 19% in 5 and 10 years, respectively; the other causes of death among women amounted to 43% and 47% in 5 and 10 years, respectively. Among men, strokes resulted in the death of 14% and 7% in 5 and 10 years, respectively, the other causes of death amounted to 40% and 47% in 5 and 10 years, respectively. The incidence of IHD as a cause of death among women was higher than previously reported.

The effect of hydroxyurea on meiosis and genetic recombination in the fungus Coprinus lagopus.

Treatment with hydroxyurea (HU) inhibits fruitbody development in Coprinus lagopus (sensu Lewis). The two most sensitive meiotic stages are mid-late premeiotic S phase and the pachytene-diplotene period. A 2 or 4 h treatment at mid-late premeiotic S phase arrests fruitbody development. If the same treatment is given at pachytene and diplotene, the fruitbody completes meiosis but the spores produced are inviable. The spores from fruitbodies treated at pachytene appear to be normal whereas those treated at diplotene are empty because the four nuclei remain in the basidium. A 2 or 4 h treatment with HU during karyogamy causes a decrease in spore viability and a dramatic increase in recombination frequency. The same treatment at metaphase II or later stages causes little damage to fruitbody development or spore viability. The effects of HU on the meiotic cell cycle suggest that the drug exerts its effect by inhibiting the synthesis of deoxynucleotides.

Meiosis in Schizophyllum commune: the effect of hydroxyurea on basidiospore sporulation, germination, and nuclear number.

In a search for an experimental procedure to synchronize meiosis in fruit bodies of Schizophyllum commune, the effect of hydroxyurea on sporulation was tested. Results indicate that hydroxyurea has an immediate and reversible effect on basidiospore sporulation, germination, and nuclear number. A tentative time schedule for meiosis is presented.

Ultrastructure of an indigotin-producing dome mutant of Schizophyllum commune.

Electron microscopic observations of an indigotin-producing dome mutant of Schizophyllum commune Fr. have shown that large wall ingrowths occur within the hyphae. These ingrowths are coupled with morphological abnormalities produced by the dome mutation. The pigment indigotin appears to be produced by progressive condensation within vacuoles and to a lesser extent within the wall ingrowths. Cytochemical techniques have shown that the wall ingrowths are similar in structure to the hyphal walls. there was no evidence for the passage of condensed indigotin into the medium; the pigment granules found in the medium must therefore form outside the hyphae.

Mutational Analysis of Natural Alleles at the B Incompatibility Factor of SCHIZOPHYLLUM COMMUNE: alpha2 and beta6.

The B incompatibility factor of the fungus Schizophyllum commune having allelic specificity alpha2-beta6 was subjected to mutagenesis by X-irradiation. Five types of mutations were recovered, four of them new types previously unreported. All lead to loss of the B-factor regulatory function; three of the five have retained their allelic specificity. The mutations map in three closely linked sites: Balpha, Bbeta, and between Balpha and Bbeta.

Acid phosphatase activity in the wild-type and B-mutant hyphae of Schizophyllum commune.

In the wild-type and B-mutant hyphae of Schizophyllum commune, acid phosphatase activity was found in association with vacuoles, lipid bodies, and endoplasmic reticulum. Small granules containing acid phosphatase also occurred in mitochondria and along the nuclear envelope. Both ultrastructural and biochemical studies indicated greater acid phosphatase activity in the B-mutant than in the wild-type hyphae, which suggests that the mutation in the B incompatibility factor increases the production of the acid phosphatase in the mutant hyphae.

Ultrastructural aspects of a mutant of Schizophyllum commune with continuous nuclear migration.

Study of a mutant of the basidomycete Schizophyllum commune with continuous migration of nuclei revealed that the mutant is characterized by vacuolization, bundles of fibrillar-like material, and microtubules. The bundles of fibrillar-like material and microtubules extend through degraded septa to adjacent cells and are found in proximity to nuclei.