Regulation of the pattern of protein synthesis in Schizophyllum commune by the incompatibility genes

The pattern of protein synthesis in various coisogenic mycelial types of Schizophyllum commune, viz. monokaryon, dikaryon, and homokaryons carrying primary mutations in the A and the B factors, was studied by two-dimensional gel electrophoresis. After pulse-labeling with ³⁵S-methionine, approximately 650 of 710 proteins analyzed were common to all mycelial types. Coisogenic monokaryons differed by only 2%, whereas the largest difference was found between these monokaryons and the dikaryon derived from them (6.6 and 7.7%). The majority of these differences fell into two about equally sized categories, i.e., proteins which were either specifically absent (“switched-off” proteins) or present (“switched-on” proteins) in the dikaryon. “Switched-on” proteins were on the average larger and slightly more acidic than “switched-off” proteins. The double factor mutant which best mimicked the dikaryon in morphology also best resembled the dikaryon in types of proteins synthesized. Unexpected, however, was the large overlap in proteins apparently controlled by each of the two incompatibility factors individually, despite the distinct morphological sequences directed by each of them.     

Molecular cloning of a gene abundantly expressed during fruiting body initiation in Schizophyllum commune.

Complementary DNA was synthesized on polyadenylated RNA from a dikaryotic mycelium of the basidiomycete Schizophyllum commune bearing fruiting body initials. The complementary DNA was cloned into the PstI site of pBR327 by the deoxyguanidylate-deoxycytidylate tailing approach. After transformation into Escherichia coli cells, a differential screening was performed by colony hybridization with complementary [32P]DNA made on the RNAs of the monokaryon and dikaryon strains. Two clones were selected for further analysis by Northern blotting and hybrid release translation. Clone 1D10 hybridized with an mRNA of 775 nucleotides, coding for a polypeptide with an Mr of 15,000. Although this RNA was present in both monokaryotic and dikaryotic mycelia, its concentration appeared to change considerably over time and with different cultivation conditions. This mRNA is probably the most abundantly expressed sequence in S. commune. Clone 1G2 and its homologs hybridized with an mRNA of 650 nucleotides, coding for a polypeptide with an Mr of 13,000. This gene was exclusively expressed in the dikaryon strain. In liquid-grown cultures, the concentration of this mRNA was low but increased ca. 20-fold during the establishment of fruiting body primordia. A chromosomal fragment of 9 kilobase pairs which contained the 1G2 gene was cloned into pBR327 and used as a probe in Northern blot hybridization. It was found that surrounding sequences were not expressed at the same time or to the same extent as the 1G2 gene.     

Life history and developmental processes in the basidiomycete Coprinus cinereus.

Coprinus cinereus has two main types of mycelia, the asexual monokaryon and the sexual dikaryon, formed by fusion of compatible monokaryons. Syngamy (plasmogamy) and karyogamy are spatially and temporally separated, which is typical for basidiomycetous fungi. This property of the dikaryon enables an easy exchange of nuclear partners in further dikaryotic-monokaryotic and dikaryotic-dikaryotic mycelial fusions. Fruiting bodies normally develop on the dikaryon, and the cytological process of fruiting-body development has been described in its principles. Within the specialized basidia, present within the gills of the fruiting bodies, karyogamy occurs in a synchronized manner. It is directly followed by meiosis and by the production of the meiotic basidiospores. The synchrony of karyogamy and meiosis has made the fungus a classical object to study meiotic cytology and recombination. Several genes involved in these processes have been identified. Both monokaryons and dikaryons can form multicellular resting bodies (sclerotia) and different types of mitotic spores, the small uninucleate aerial oidia, and, within submerged mycelium, the large thick-walled chlamydospores. The decision about whether a structure will be formed is made on the basis of environmental signals (light, temperature, humidity, and nutrients). Of the intrinsic factors that control development, the products of the two mating type loci are most important. Mutant complementation and PCR approaches identified further genes which possibly link the two mating-type pathways with each other and with nutritional regulation, for example with the cAMP signaling pathway. Among genes specifically expressed within the fruiting body are those for two galectins, beta-galactoside binding lectins that probably act in hyphal aggregation. These genes serve as molecular markers to study development in wild-type and mutant strains. The isolation of genes for potential non-DNA methyltransferases, needed for tissue formation within the fruiting body, promises the discovery of new signaling pathways, possibly involving secondary fungal metabolites.     

SC3 and SC4 hydrophobins have distinct roles in formation of aerial structures in dikaryons of Schizophyllum commune

Two monokaryons of Schizophyllum commune can form a fertile dikaryon when the mating-type genes differ. Monokaryons form sterile aerial hyphae, while dikaryons also form fruiting bodies that function in sexual reproduction. The SC3 hydrophobin gene is expressed both in monokaryons and in dikaryons. The SC4 hydrophobin is dikaryon specific. In the monokaryon, SC3 lowers the water surface tension, coats aerial hyphae with a hydrophobic layer and mediates attachment of hyphae to hydrophobic surfaces. The SC4 protein lines gas channels within fruiting bodies with a hydrophobic membrane. Using gene disruptions, in this study, we show that in dikaryons SC3 fulfils the same roles as in monokaryons. SC4, on the other hand, has a role within fruiting bodies. In contrast to gas channels in fruiting bodies of the wild type, those of a DeltaSC4 strain easily filled with water. Thus, SC4 prevents gas channels filling with water under wet conditions, probably serving uninterrupted gas exchange. Other dikaryon-specific hydrophobin genes, SC1 and SC6, apparently do not substitute for the SC4 gene. In addition, by expressing the SC4 gene behind the SC3 promoter in a DeltaSC3 monokaryon, it was shown that SC4 cannot fully substitute for SC3, indicating that both hydrophobins evolved to fulfil specific functions.     

Isolation and characterization of a sporeless mutant in Pleurotus eryngii

A sporeless mutant dikaryon, completely defective in sporulation, was isolated from mycelial protoplasts of Pleurotus eryngii mutagenized by UV irradiation. Newly established dikaryons between one component monokaryon from the mutant, and 12 different wild type monokaryons from 3 other wild type dikaryons, all exhibited the sporeless phenotype, whereas those between the other monokaryon and the same wild type monokaryons all produced normal fruiting bodies. These results indicated that the sporeless mutation was induced in one of two nuclei of the mutant and was dominant. In the wild type basidia, the pattern of nuclear behavior during sporulation corresponded to the pattern C nuclear behavior as defined by Duncan and Galbraith. Cytological observation revealed that in the sporeless mutant meiosis was blocked at the meta-anaphase I in most basidia and hence basidiospores and sterigmata were not produced. Although fruiting bodies of the sporeless mutant showed a somewhat leaning growth, their gross morphology and its fruiting body productivity were comparable to that of the original wild type strain. Based on these results, it was considered that the sporeless mutant could serve as a potential material in breeding of sporeless P. eryngii commercial strains.     

Effect of topology of quorum sensing-related genes in Pectobacterium atrosepticum on their expression

In prokaryotic genomes, the neighboring genes are often located on the complementary DNA strands and adjoin each other by their 5′- or 3′-ends, or even overlap with their open reading frames. It was suggested that this gene topology has a functional purpose of regulating their expression. For the genes that overlap by their coding 3′-end encoding regions, this assumption has not been confirmed experimentally. In a broad group of bacteria that belong to proteobacteria, this convergent gene arrangement is typical for functionally connected quorum sensing-related genes “I” and “R,” which encode synthases of autoinducers, such as N-acyl homoserine lactones and their sensors, respectively. In the present study on the example of overlapping quorum sensing-related genes of plant pathogenic bacterium Pectobacterium atrosepticum SCRI1043, expI, and expR, it was shown that the topology of these genes determines the regulation of their expression.     

香菇交配型因子次级重组体的鉴定

对13个香菇菌株的担孢子后代进行了交配型分析,其中8个菌株非亲和反应与亲和反应之比与预期的3∶1的比例无显著差异。另外5个菌株非亲和反应与亲和反应之比不符合3∶1,其中4个菌株在0.05显著水平的X2值仅略高于理论值,而另一菌株HL01具有特殊的表现,其单核体132个随机配对的非亲和反应与亲和反应之比为82∶50,X2值显著偏离3∶1的临界值。用4个标准测试菌株鉴定了来自HL01同一子实体的189个孢子单核体的交配型,在189个单核体中,161个单核体归于4种正常交配型(A1B1,A2B2,A1B2,A2B1)之一。而另外28个可能源于次级重组的单核体可分成另外4个类群。通过以所有可能的组合进行配对杂交,进一步分析了28个单核体的交配型。结果表明,次级重组同时在A因子和B因子中发生,重组值分别为8.5%和11.6%。A因子至少由2个亚基组成而B因子可能由不止2个亚基组成。随后的出菇试验表明,至少含有1个重组体的所有可亲和配对均具有结实能力。     

Genetical variability of glutamate dehydrogenase activity in monokaryotic and dikaryotic mycelia of the ectomycorrhizal fungus Hebeloma cylindrosporum

Summary Glutamate dehydrogenase (GDH) is the key enzyme of ammonium assimilation by ectomycorrhizal fungi. Its activity might be use as a criterion to select mycelia capable of enhancing the nitrogen nutrition of the host plants. Genetical variability of the GDH activity of the ectomycorrhizal fungus Hebeloma cylindrosporum Romagnési was studied in an attempt to determine if this enzyme activity could be improved by way of chromosomal genetics. The activity of 11 wild strains was compared with that of 70 mycelia obtained as the progeny of a laboratory fruiting strain HC1. These 70 mycelia were 20 monokaryons (5 for each mating type) and the 50 synthesized dikaryons obtained from all the compatible fusions between these monokaryons. The specific GDH activity of the 11 wild strains ranged from 1.5 to 11.6 nkat mg^-1 fungal protein. The activity of the monokaryotic progeny of the HC1 strain was, on average, three times lower (2.85 n kat mg^-1 fungal protein) than that of the parental dikaryon. In contrast, synthesized dikaryons originating from these monokaryons were very variable and had an average values similar to that of the parental dikaryon (9.1 nkat mg^-1 fungal protein). Eighteen of these synthesized dikaryons contained an activity higher than that of the original HC1 strain. The variation of the GDH activity of these dikaryons involves additive and non additive (interactive) components, each of them accounting for ca. 50% of the genetical variation. The non additive variation could not be explained by a model involving only dominance. These results are discussed with reference to the genetical improvement of mycorrhizal fungi in order to enhance nitrogen nutrition of the host plants.Abbreviations GDH glutamate dehydrogenase - IAA indole-3-acetic acid - NADP nicotimamide adenine dinucleotide phosphate     

Isolation and characterization of a sporeless mutant in <Emphasis Type="Italic">Pleurotus eryngii</Emphasis>

 A sporeless mutant dikaryon, completely defective in sporulation, was isolated from mycelial protoplasts of Pleurotus eryngii mutagenized by UV irradiation. Newly established dikaryons between one component monokaryon from the mutant, and 12 different wild type monokaryons from 3 other wild type dikaryons, all exhibited the sporeless phenotype, whereas those between the other monokaryon and the same wild type monokaryons all produced normal fruiting bodies. These results indicated that the sporeless mutation was induced in one of two nuclei of the mutant and was dominant. In the wild type basidia, the pattern of nuclear behavior during sporulation corresponded to the pattern C nuclear behavior as defined by Duncan and Galbraith. Cytological observation revealed that in the sporeless mutant meiosis was blocked at the meta-anaphase I in most basidia and hence basidiospores and sterigmata were not produced. Although fruiting bodies of the sporeless mutant showed a somewhat leaning growth, their gross morphology and its fruiting body productivity were comparable to that of the original wild type strain. Based on these results, it was considered that the sporeless mutant could serve as a potential material in breeding of sporeless P. eryngii commercial strains. Received: September 5, 2002 / Accepted: October 16, 2002 Acknowledgments We are grateful to Mrs. Motoe Masuda for her skillful technical assistance. Contribution no. 358 from the Tottori Mycological Institute Correspondence to:Y. Obatake     

Monokariotic fruiting body and clamp cell formation in Mycoleptodonoides aitchisonii (Bunaharitake)

The ability to produce monokaryotic fruiting bodies and clamp cells in culture was examined in monokaryotic strain isolated from several dikaryotic parental strains of the edible mushroom, Mycoleptodonoides aitchisonii (Bunaharitake). We describe a single dikaryotic M. aitchisonii strain, TUFC50005, and 20 monokaryons derived from it, which exhibited a wide spectrum of monokaryotic fruiting types. Most strains formed primordia, or young fruiting body-like structures, but only one of the monokaryons, strain TUFC50005-4, formed a fruiting body, even though it had only one nucleus and produced only two spores after meiosis. We demonstrated that dikariotization was not required for clamp cell formation, fruiting body formation, or meiosis, in this mushroom.     

基于F2群体的香菇遗传图谱构建及其在QTL定位中的应用

以171个F2双核体菌株为作图群体,通过相互配对的2个单核体的基因型推断双核体基因型,构建了第一张基于双核体群体的香菇遗传图谱。该图谱包含分布于15个连锁群的459个标记,覆盖长度为989.7cM,平均标记间隔为2.2cM。此外,以此双核体群体作为表型分离群体,定位了6个与香菇双核体菌丝生长速度相关的QTLs,位于5个连锁群上。采用全同胞单核体随机交配策略,易于构建相对大的双核体群体,用于连锁图构建和QTL定位。研究表明,在食用菌连锁图谱构建及QTL定位研究中,利用F2群体,可能为提高遗传作图效率,解决作图群体与表型分离群体间不一致问题提供新的途径。     

Fruiting body productivity of protoplast-derived clones inLentinula edodes

More than 100 dikaryotic clones (protoclones) derived from mycelial protoplasts of aLentinula edodes dikaryon were examined for their mycelial growth and fruiting body productivity. These protoclones exhibited a variety of vegetative mycelial growth rates, but no apparent difference in colonial morphology compared with the original (parental) dikaryon. Protoclones were cultivated on wood logs under natural conditions, and they exhibited a very wide range of fruiting body yields. Of the 134 protoclones, four were selected that produced a 30–40% increase in dry weight of fruiting body yield over that of the original dikaryon. This high productivity of fruiting bodies was maintained for at least several years. The present results suggest thatL. edodes protoclones can be practically used in strain improvement to increase the capability of fruiting body formation. Contribution No. 287 from the Tottori Mycological Institute.     

The size and genetic composition of virus-specific RNAs in the cytoplasm of cells producing avian sarcoma-leukosis viruses.

The genome of avian sarcoma virus (ASV) contains four known genes: gag, encoding structural proteins of the viral core; pol, encoding the viral RNA-directed DNA polymerase; env, encoding the glycoprotein(s) of the viral envelope; and src, which is responsible for neoplastic transformation of the host cell. We have located these genes on virus-specific RNAs in cells productively infected with both nondefective and defective strains of ASV by using molecular hybridization with DNAs complementary to specific portions of the ASV genome.The cytoplasm of cells producing nondefective ASV contains three species of polyadenylated virus-specific RNA, each of which has chemical polarity identical to that of the viral genome. The largest species has a molecular weight of 3.3 × 10⁶ daltons and a sedimentation coefficient of 38S, encodes all four viral genes, and is probably identical to the viral genome. A second species has a molecular weight of 1.8 × 10⁶ daltons and a sedimentation coefficient of 28S, and encodes the 3′ half of the viral genome, including env, src and a genetically silent region known as “c.” The smallest species has a molecular weight of 1.2 × 10⁶ daltons and a sedimentation coefficient of 21S, and encodes only src and “c.” All three species of virus-specific RNA contain nucleotide sequences at least partially homologous to a sequence of 101 nucleotides found at the extreme 5′ end of the ASV genome. This sequence may not be present in the portions of the ASV genome which encode the 28S and 21S virus-specific RNAs, and hence may be joined to these RNAs during their maturation from precursor molecules.The size and genetic composition of virus-specific RNAs in cells producing defective deletion mutants reflect the nature of the deletion. Deletions of either src or env eliminate the 28S virus-specific RNA, leaving a 21S RNA (which contains either env and “c” in the case of src deletions or src and “c” in the case of env deletions) and a 35S RNA which is probably identical to the viral genome.Based on these and related results, we propose a model for viral gene expression which conforms to previous suggestions that eucaryotic cells initiate translations only at the 5′ termini of messenger RNAs.     

Control of extracellular slime accumulation in monokaryons and resultant dikaryons of Schizophyllum commune.

Extracellular slime accumulation, as alcohol-precipitable material was measured after eight days of growth in glucose-asparagine-salts broth in twenty-two different monokaryons and six resultant dikaryons of Schizophyllum commune. The nutritional control of slime accumulation was also examined in monokaryotic mycelium. Slime occurred after growth in sucrose, glucose, fructose and xylose, with glycerol best. Low inorganic phosphates limited both slime and mycelial growth while limiting MgSO4 decreased growth and enhanced slime. In glucose-asparagine broth, various monokaryons differed widely in slime accumulation, ranging from none (e.g., strain 19) to nearly 800 mg per 100 ml filtrate (strain 1) after eight days growth, followed by a marked decline in slime (eleven days to twenty-one days). Resultant dikaryons all showed less slime accumulation, even when established from two high slime-accumulating monokaryons. In contrast, conditions which arrested dikaryotic fruit-body morphogenesis led to increased slime accumulation.     

A DNA Damage Checkpoint Pathway Coordinates the Division of Dikaryotic Cells in the Ink Cap Mushroom Coprinopsis cinerea

The fungal fruiting body or mushroom is a multicellular structure essential for sexual reproduction. It is composed of dikaryotic cells that contain one haploid nucleus from each mating partner sharing the same cytoplasm without undergoing nuclear fusion. In the mushroom, the pileus bears the hymenium, a layer of cells that includes the specialized basidia in which nuclear fusion, meiosis, and sporulation occur. Coprinopsis cinerea is a well-known model fungus used to study developmental processes associated with the formation of the fruiting body. Here we describe that knocking down the expression of Atr1 and Chk1, two kinases shown to be involved in the response to DNA damage in a number of eukaryotic organisms, dramatically impairs the ability to develop fruiting bodies in C. cinerea, as well as other developmental decisions such as sclerotia formation. These developmental defects correlated with the impairment in silenced strains to sustain an appropriated dikaryotic cell cycle. Dikaryotic cells in which chk1 or atr1 genes were silenced displayed a higher level of asynchronous mitosis and as a consequence aberrant cells carrying an unbalanced dose of nuclei. Since fruiting body initiation is dependent on the balanced mating-type regulator doses present in the dikaryon, we believe that the observed developmental defects were a consequence of the impaired cell cycle in the dikaryon. Our results suggest a connection between the DNA damage response cascade, cell cycle regulation, and developmental processes in this fungus.     

Kraft Pulp Bleaching and Delignification by Dikaryons and Monokaryons of Trametes versicolor

The ability of 10 dikaryotic and 20 monokaryotic strains of Trametes (Coriolus) versicolor to bleach and delignify hardwood and softwood kraft pulps was assessed. A dikaryon (52P) and two of its mating-compatible monokaryons (52J and 52D) derived via protoplasting were compared. All three regularly bleached hardwood kraft pulp more than 20 brightness points (International Standards Organization) in 5 days and softwood kraft pulp the same amount in 12 days. Delignification (kappa number reduction) by the dikaryon and the monokaryons was similar, but the growth of the monokaryons was slower. Insoluble dark pigments were commonly found in the mycelium, medium, and pulp of the dikaryon only. Laccase and manganese peroxidase (MnP) but not lignin peroxidase activities were secreted during bleaching by all three strains. Their laccase and MnP isozyme patterns were compared on native gels. No segregation of isozyme bands between the monokaryons was found. Hardwood kraft pulp appeared to adsorb several laccase isozyme bands. One MnP isozyme (pI, 3.2) was secreted in the presence of pulp by all three strains, but a second (pI, 4.9) was produced only by 52P. A lower level of soluble MnP activity in one monokaryon (52D) was associated with reduced bleaching ability and a lower level of methanol production. Since monokaryon 52J bleached pulp better than its parent dikaryon 52P, especially per unit of biomass, this genetically simpler monokaryon will be the preferred subject for further genetic manipulation and improvement of fungal pulp biological bleaching.     

Changes in phenol oxidases and superoxide dismutase during fruit-body formation of Pleurotus on sawdust culture

Peroxidase and laccase activities increased rapidly up to the formation of primordia and then declined throughout the entire stage of fruiting. In the case of Pleurotus ostreatus, the level of Mn-dependent peroxidase was very low in primordia and fruiting stages but gradually increased with the growth of the fruit-body, whereas no activity was detected in Pleurotus sajor-caju during all growth stages. Superoxide dismutase activity was observed mainly at the fruiting stages. These results show that changes in concentration of lignin-related enzymes are associated with the fruiting process.     

Influence of activated<Emphasis Type="Italic"> A</Emphasis> and<Emphasis Type="Italic"> B</Emphasis> mating-type pathways on developmental processes in the basidiomycete<Emphasis Type="Italic"> Coprinus cinereus</Emphasis>

The A and B mating type pathways in Coprinus cinereus monokaryons can be activated by transformation with cloned genes from strains of compatible mating types. The presence of heterologous A mating-type genes (Aon) induces production of submerged chlamydospores, hyphal knots and sclerotia in cultures kept in the dark. Upon illumination of transformants of certain strains (218), fruiting body primordia may develop that arrest before karyogamy. Furthermore, formation of aerial spores (oidia) is repressed by the action of A mating type genes in the dark, but light overrides this repression. Heterologous B mating type genes enhance the effects of the A genes on developmental processes, and partially repress the negative action of light on A-mediated regulation of development. Most notably, A-induced fruiting occurs more efficiently and earlier when the B mating type pathway is also active (Bon). However, activation of the B pathway alone is not sufficient to induce fruiting. Unlike A-activated transformants, A+ B-activated transformants of monokaryon 218 form mature fruiting bodies. Therefore, the B genes control fruiting body maturation at the stage of karyogamy. Basidia within the fruiting bodies that were analysed contained four spores in a typical post-meiotic arrangement. In the absence of an activated A mating type pathway, B mating type genes cause deformation and hyperbranching of vegetative hyphae, a reduction in aerial mycelium, and invasion of the agar substrate - a phenotype resembling the "flat" phenotype known from B-activated Schizophyllum commune strains. B-activated transformants usually show enhanced production of chlamydospores and hyphal knots, but maturation of sclerotia is variably efficient. Activation of the B mating type pathway in monokaryons blocked acceptance of nuclei, but not activation of the A mating type pathway.     

The evolving role of microRNAs in animal gene expression

MicroRNAs (miRNAs) constitute an abundant family of 22-nucleotide RNAs that base-pair to target mRNAs and typically inhibit their expression. To assess the global impact of animal miRNAs on gene regulation, the expression of predicted targets and their cognate miRNAs was extensively analyzed in mammals and Drosophila. In general, targets are co-expressed at relatively low or undetectable levels in the same tissues as the miRNAs predicted to regulate them. Additionally, genes that are highly co-expressed with miRNAs usually lack target sites. The authors conclude that many animal genes are under evolutionary pressure to maintain or avoid complementary sites to miRNAs. Thus, the miRNA pathway broadly contributes to the complex gene regulatory networks that shape animal tissue development and identity.