Mycoscience Volume 47, Issue 6

The advancing identification and classification of Rhizoctonia spp. using molecular and biotechnological methods compared with the classical anastomosis grouping

Anamorphic classification of Rhizoctonia spp. has been based on young cell nuclear numbers and hyphal fusion to anastomosis groups (AGs), in addition to the teleomorph classification. The widespread development of molecular biology techniques has added modern tools to support classification of organisms according to their genetics and evolutionary processes. These various methods have also been used in recent years for classification of Rhizoctonia. Data are continuously accumulating in the literature and the sequences in databases, which are readily available for researchers in the network systems. In the present review, attempts were made to describe and compare the advantages and disadvantages of the various methods for the classification of Rhizoctonia spp. Currently, the rDNA-internal transcribed spacer (ITS) sequence analysis seems to be the most appropriate method for classification of Rhizoctonia spp. Data of all the appropriate multinucleate Rhizoctonia (MNR) accumulated in GenBank were analyzed together in neighbor-joining (NJ) and maximum-parsimony (MP) trees supplemented with percent sequence similarity within and among AGs and subgroups. Generally, the clusters of the isolate sequences were supportive of the AGs and subgroups based on hyphal fusion anastomosis. The review also indicates inaccuracies in designation of sequences of some isolates deposited in GenBank. The review includes detailed analyses of the MNR groups and subgroups, whereas complementary descriptions of the binucleate Rhizoctonia (BNR), uninucleate Rhizoctonia (UNR), and comprehensive interrelationships among all the currently available MNR, BNR, and UNR groups and subgroups in GenBank are to be discussed in a subsequent review article.

Eight-carbon volatiles in mushrooms and fungi: properties, analysis, and biosynthesis

Eight-carbon volatiles are ubiquitous among fungi and characteristic of the fungal aroma. They are the product of the oxidation and cleavage of the fatty acid linoleic acid and are classified as oxylipins, molecules taking part in a wide range of biological processes. Their involvement in the fungal aroma, interactions with pests and pathogens, and reproductive events are reviewed here, as well as the enzymic systems involved in their biosynthesis.

Molecular phylogenetic analyses reveal a close relationship between powdery mildew fungi on some tropical trees and Erysiphe alphitoides, an oak powdery mildew

To investigate the phylogenetic relationships among the powdery mildew fungi of some economically important tropical trees belonging to Oidium subgenus Pseudoidium, we conducted molecular phylogenetic analyses using 30 DNA sequences of the rDNA internal transcribed spacer (ITS) regions and 26 sequences of the domains D1 and D2 of the 28S rDNA obtained from the powdery mildews on Hevea brasiliensis (para rubber tree), Anacardium occidentale (cashew), Bixa orellana, Citrus spp., Mangifera indica (mango), and Acacia spp. The results indicate that the powdery mildew fungi isolated from these tropical trees are closely related to one another. These powdery mildews are also closely related to E. alphitoides (including Erysiphe sp. on Quercus phillyraeoides). Because of the obligate biotrophic nature of the powdery mildew fungi, the relationship between powdery mildews and their host plants is conservative. However, the present study suggests that a particular powdery mildew species has expanded its host ranges on a wide range of the tropical trees. This article also suggests that a powdery mildew fungus distributed in temperate regions of the Northern Hemisphere expanded its host ranges onto tropical plants and may be a good example of how geographical and host range expansion has occurred in the Erysiphales.

Construction of a linkage map of Lentinula edodes (shiitake) with the HEGS (high-efficiency genome scanning) system: use of versatile AFLP and PCR-based gene markers

An improved linkage map of Lentinula edodes (shiitake) was constructed with an HEGS (high-efficiency genome scanning) system. Two hundred twenty-one HEGS-derived amplified fragment length polymorphism (AFLP-H) markers and 21 gene markers were developed and combined with 203 previously developed sequencer-derived AFLP markers (AFLP-S markers) and 3 mating factor loci (A, Bα, and Bβ) to construct a comprehensive linkage analysis. As a result, a novel linkage map with 166 markers including 2 mating factors (A and B), 10 HEGS-derived gene markers, 72 AFLP-H markers, and 82 AFLP-S markers was obtained. Of the total 448 markers, 273 could not be located on a linear map and thus were assigned to linkage groups as accessory markers. The map covers a total length of 1398.4 centimorgans (cM) with an average marker interval distance of 8.4 cM. The map consists of 11 linkage groups (LGs) in agreement with our previous map, and 7 LGs among them were found to contain branched linkages, which may be the result of reciprocal translocations representing dynamic reorganization of the shiitake genome. The previously reported linkage map was improved in terms of number of markers, marker density, linear order of markers, and total map length.

Genetic analysis of nuclear ribosomal DNA of Lentinula edodes

Genetic analysis of nuclear ribosomal DNA (rDNA) of Lentinula edodes was carried out using rDNA restriction fragment length polymorphisms (RFLPs) as genetic markers. Two compatible monokaryotic strains that differed in the endonuclease digestion patterns of their rDNA were used. The dikaryotic strain established by crossing them produced mixed RFLP patterns. Single-spore isolates derived from the dikaryotic strain showed three types of rDNA RFLP patterns: either one of the two parental types or a mixed type. From the frequency of the mixed type, the recombination value of rDNA tandem repeats was calculated to be 31.4%. Linkage analysis between rDNA and two incompatibility factors (A and B) revealed that rDNA was not linked to either factor. The rDNA genotypes did not affect mycelial growth among the single-spore isolates.

Nervostroma, gen. nov. in the Sclerotiniaceae, the teleomorph of Cristulariella, and Hinomyces anam. gen. nov. to accommodate the anamorph of Grovesinia: reassessment of the genus Cristulariella

Taxonomy of the genus Cristulariella is revised, retaining Cristulariella (Crist.) depraedans as the type. Two new species, Crist. cercidiphylli and Crist. corni, are additionally described under the genus. The new anamorphic genus Hinomyces is erected to accommodate Botrytis (Cristulariella) moricola and Cristulariella pruni. A new genus and species, Nervostroma depraedans, is erected in the Sclerotiniaceae to accommodate the teleomorph of Crist. depraedans, with an additional species, Nervostroma cercidiphylli.

Macrophage J774.1 cell is activated by MZ-Fraction (Klasma-MZ) polysaccharide in Grifola frondosa

We previously reported that the (β1,3)-branched (β1,6)-glucan, MD-Fraction extracted from the fruit body of the edible maitake mushroom (Grifola frondosa) exhibits an antitumor effect. In this study, we separated a new polysaccharide from maitake, which we named Maitake MZ-Fraction (Klasma-MZ). MZ-Fraction is a β-glucan with a low molecular weight of about 20000, which has a β1,3-and a β1,6-bond. MZ-Fraction enhanced TNF-α and IL-12 productivity and the antigen presentation of murine macrophage cell line J774.1 in vitro. Furthermore, MZ-Fraction showed antitumor activity similar to MD-Fraction in vivo.

Identity of a powdery mildew fungus occurring on Paeonia and its relationship with Erysiphe hypophylla on oak

A powdery mildew fungus found on Paeonia lutea at the Botanical Garden of Geneva (Switzerland) was identified as Erysiphe hypophylla based on morphological observations. The occurrence of E. hypophylla on Paeonia seemed curious, because host plants of this species have been restricted to a few Quercus species of the family Fagaceae. In this study, we determined the rDNA sequences of the powdery mildew specimens on Paeonia and E. hypophylla on Quercus to confirm the identity of the Paeonia fungus. The three sequences from the specimens on P. lutea were identical to one another in both ITS and 28S rDNA regions and also to the sequences of E. hypophylla on Q. robur, which supports the identification that the fungus on P. lutea is E. hypophylla. However, these sequences were also identical to the sequences of E. alphitoides on Quercus spp. and Oidium mangiferae on mango. This result suggests a possibility that E. hypophylla is conspecific to E. alphitoides. Further study is required to clarify whether E. hypophylla is a synonym of E. alphitoides or a distinct species.

Saccharomyces cerevisiae forms actin ring structures in sporulation, similarly to Zygosaccharomyces rouxii

Yeast filamentous actin (F-actin) exists mainly as patches and cables. Previously, we investigated the behavior of F-actin during sporulation of Zygosaccharomyces rouxii and found a novel actin ring localized around the spore periphery in zygotic asci at a late stage of sporulation. To clarify whether the actin rings are also formed in sporulation in the model yeast Saccharomyces cerevisiae, we observed the distribution of F-actin in sporulating S. cerevisiae by rhodamine-phalloidin staining and confocal laser scanning microscopy. Ringlike actin structures were detected at the peripheral regions of S. cerevisiae spores in globose asci. When asci of S. cerevisiae were induced to become zygotic, actin rings were more obvious than those in globose asci. These results indicate that S. cerevisiae forms characteristic actin ring structures at a late stage of sporulation, similarly to Z. rouxii.

Two new species and one new variety of Oudemansiella (Agaricales) from Japan

Two new species and one new variety of Oudemansiella (Agaricales) from Japan are described and illustrated: (1) Oudemansiella latilamellata sp. nov. (subgenus Xerula, section Radicatae) has relatively broad lamellae and broadly ellipsoid spores with a subacute apex; (2) Oudemansiella rhodophylla sp. nov. (subgenus Xerula, section Radicatae), growing in deciduous forests of Fagus crenata, Quercus crispula, etc., is characteristic in having lamellae tinted reddish; and (3) Oudemansiella amygdaliformis var. bispora var. nov. (subgenus Xerula, section Albotomentosae) is distinguished from the type variety by having two-spored basidia and grows in evergreen oak forests (Castanopsis sieboldii, Quercus glauca, etc.) or bamboo groves.

A lycoperdaceous fungus, Arachnion album (Agaricales, Arachniaceae), newly found in Japan

Arachnion album was collected in Osaka and Hyogo Prefectures, western Honshu, Japan. This is a new record of this genus for Japan. Macro- and microscopic features of the species are described and illustrated based on the Japanese specimens, and comparisons with some related taxa of A. album are given.

First report of Mycopappus alni in Japan: species identification of the pathogenic fungus of a frosty mildew disease in Crataegus chlorosarca

A leaf disease similar to frosty mildew disease caused by Mycopappus species was detected on the leaves of Crataegus chlorosarca in Tomakomai, Hokkaido Prefecture. From morphological observations and gene analyses of rDNA-ITS, the fungus was identified as M. alni, which causes leaf blight disease on Alnus spp., Betula spp., and a Pyrus sp. in North America and Turkey. This is the first report of M. alni in Japan and Crataegus as its new host genus.