金针菇信息素信号通路基因在子实体发育过程中的差异表达

【背景】子实体是食用菌的主要商品部位,也是真菌生殖生长的重要结构,其发育受到多种信号途径的调控。【目的】以金针菇(Flammulina filiformis)为材料,对转录组和基因组数据的信息素信号通路基因进行分析获得差异表达的基因,并对其在菌丝生长和子实体发育过程中的表达情况进行分析,以期为研究食用菌子实体发育提供参考。【方法】基于已有的金针菇基因组数据,注释了金针菇信息素信号通路。进一步通过转录组测序鉴定了该通路中参与金针菇子实体发育的关键基因,并对关键基因进行荧光定量PCR验证。【结果】cdc24和ste12基因在子实体发育不同时期的5个样品(原基、伸长期菌柄、伸长期菌盖、成熟期菌柄和成熟期菌盖)中的表达具有显著差异,使用荧光定量PCR技术进行验证与上述结果一致。【结论】cdc24和ste12这2个关键基因可能参与了金针菇子实体发育过程中的组织分化调控机制。     

A <Emphasis Type="Italic">Sordaria macrospora</Emphasis> mutant lacking the <Emphasis Type="Italic">leu1</Emphasis> gene shows a developmental arrest during fruiting body formation

Developmental mutants with defects in fruiting body formation are excellent resources for the identification of genetic components that control cellular differentiation processes in filamentous fungi. The mutant pro4 of the ascomycete Sordaria macrospora is characterized by a developmental arrest during the sexual life cycle. This mutant generates only pre-fruiting bodies (protoperithecia), and is unable to form ascospores. Besides being sterile, pro4 is auxotrophic for leucine. Ascospore analysis revealed that the two phenotypes are genetically linked. After isolation of the wild-type leu1 gene from S. macrospora, complementation experiments demonstrated that the gene was able to restore both prototrophy and fertility in pro4. To investigate the control of leu1 expression, other genes involved in leucine biosynthesis specifically and in the general control of amino acid biosynthesis (“cross-pathway control”) have been analysed using Northern hybridization and quantitative RT-PCR. These analyses demonstrated that genes of leucine biosynthesis are transcribed at higher levels under conditions of amino acid starvation. In addition, the expression data for the cpc1 and cpc2 genes indicate that cross-pathway control is superimposed on leucine-specific regulation of fruiting body development in the leu1 mutant. This was further substantiated by growth experiments in which the wild-type strain was found to show a sterile phenotype when grown on a medium containing the amino acid analogue 5-methyl-tryptophan. Taken together, these data show that pro4 represents a novel mutant type in S. macrospora, in which amino acid starvation acts as a signal that interrupts the development of the fruiting body. Electronic Supplementary Material Supplementary material is available for this article at http://dx.doi.org/10.1007/s00438-005-0021-8     

Protease inhibitors clitocypin and macrocypin are differentially expressed within basidiomycete fruiting bodies

Clitocypin and macrocypin are cysteine protease inhibitors of the mycocypin family which is unique to basidiomycetes. We have established that Clitocybe nebularis and Macrolepiota procera each contain genes for both macrocypin and clitocypin. Both are expressed in M. procera but only clitocypin in C. nebularis. Further analysis of mycocypin expression at the mRNA and protein levels in mature fruiting bodies of M. procera revealed that clitocypin is expressed evenly throughout the fruiting body, while the level of expression of macrocypins varies, and, at the protein level, is much higher in the veil fragments and the ring. The expression patterns of various mycocypins were determined in Coprinopsis cinerea, using promoters linked to a reporter gene. The expression profile of the clitocypin promoter was similar to that of the constitutive promoter gpdII from Agaricus bisporus, while that of the macrocypin 4 promoter was limited to the outer edges of the fruiting body throughout development. In addition, the activity of the macrocypin 3 promoter was different, indicating different regulation of expression for different macrocypin genes. The complex, tissue specific expression patterns for mycocypin genes suggest different biological roles for the products, either in regulation of endogenous proteases or in defense against pathogens or predators.     

Cross-species microarray hybridization to identify developmentally regulated genes in the filamentous fungus <Emphasis Type="Italic">Sordaria macrospora</Emphasis>

The filamentous fungus Sordaria macrospora forms complex three-dimensional fruiting bodies that protect the developing ascospores and ensure their proper discharge. Several regulatory genes essential for fruiting body development were previously isolated by complementation of the sterile mutants pro1, pro11 and pro22. To establish the genetic relationships between these genes and to identify downstream targets, we have conducted cross-species microarray hybridizations using cDNA arrays derived from the closely related fungus Neurospora crassa and RNA probes prepared from wild-type S. macrospora and the three developmental mutants. Of the 1,420 genes which gave a signal with the probes from all the strains used, 172 (12%) were regulated differently in at least one of the three mutants compared to the wild type, and 17 (1.2%) were regulated differently in all three mutant strains. Microarray data were verified by Northern analysis or quantitative real time PCR. Among the genes that are up- or down-regulated in the mutant strains are genes encoding the pheromone precursors, enzymes involved in melanin biosynthesis and a lectin-like protein. Analysis of gene expression in double mutants revealed a complex network of interaction between the pro gene products.     

Genes involved in Dictyostelium discoideum sexual reproduction

Macrocyst formation in the cellular slime moulds is a sexual process induced under dark and humid conditions. Normal development life cycle in these organisms involves proliferation by cell division and, upon starvation, formation of multicellular aggregates and fruiting bodies, consisting of spores and stalk cells. Macrocyst formation, cell division by binary fission and spore formation are thus three alternative modes of reproduction, for which it is of interest to understand how a choice is made. The genetic basis of asexual development and fruiting body formation is well known, by contrast information on the genetic control of sexual reproduction during macrocyst formation is scarce. In Dictyostelium discoideum, the most widely used species, several cell-surface proteins relevant to sexual cell fusion have been identified using cell fusion-blocking antibodies, but isolation of the relevant genes has been unsuccessful. Analysis of sexually deficient mutants, some of which are normal for asexual development, has shown that sexual reproduction is regulated by both specific genes and genes that are also involved in asexual development. Reverse genetic analysis of 24 genes highly enriched in a gamete-specific subtraction library has revealed four genes involved in the regulation of sexual cell interactions. One of them was found to be a novel regulator of the cAMP signalling pathway specific to sexual development. Studies on the molecular genetic control of the sexual cycle will be reviewed and their contribution to our understanding of the organization and function of the D. discoideum genome as a whole discussed.     

Kin Discrimination in Dictyostelium Social Amoebae

Evolved cooperation is stable only when the benefactor is compensated, either directly or through its relatives. Social amoebae cooperate by forming a mobile multicellular body in which, about 20% of participants ultimately die to form a stalk. This benefits the remaining individuals that become hardy spores at the top of the stalk, together making up the fruiting body. In studied species with stalked migration, P. violaceum, D. purpureum, and D. giganteum, sorting based on clone identity occurs in laboratory mixes, maintaining high relatedness within the fruiting bodies. D. discoideum has unstalked migration, where cell fate is not fixed until the slug forms a fruiting body. Laboratory mixes show some degree of both spatial and genotype‐based sorting, yet most laboratory fruiting bodies remain chimeric. However, wild fruiting bodies are made up mostly of clonemates. A genetic mechanism for sorting is likely to be cell adhesion genes tgrB1 and tgrC1, which bind to each other. They are highly variable, as expected for a kin discrimination gene. It is a puzzle that these genes do not cause stronger discrimination between mixed wild clones, but laboratory conditions or strong sorting early in the social stage diminished by later slug fusion could be explanations.     

A frequently occurring mutation that blocks the expression of fruiting genes in Schizophyllum commune

Summary Fruiting in the basidiomycete Schizophyllum commune readily occurs in a homokaryon with constitutive mutations in both the A and B mating-type genes. Such a homokaryon frequently expresses a mutation, fbf, which completely blocks fruiting and leads to a somewhat faster growth rate. The mutation is unlinked to the A and B genes, frequently reverts to its wild-type allele, and is recessive with respect to fruiting in matings with wild-type homokaryons. The mutation suppresses the accumulation of a number of mRNAs which are regulated by the mating-types genes and are specific for fruiting. The expression of the Sc-3 gene, structurally related to two of the fruiting genes (Sc-1 and Sc-4) but not regulated by the mating-type genes, is unaffected.     

人工疏蕾对杏鲍菇产量及品质的影响

【背景】工厂化栽培中,杏鲍菇是不定点出菇,通常采用人工疏蕾的方法来实现对子实体数目的控制,但目前关于人工疏蕾保留子实体的数目无具体的研究。【目的】通过人工疏蕾的方式,研究保留不同子实体数目对杏鲍菇产量及品质的影响。【方法】对各处理组进行基质利用情况测定,对采收后各组子实体进行产量、形态指标及质构特性的测定。【结果】保留3—4个子实体的基质利用率较高,在生产实际中对成本的浪费较少;保留不同子实体数目对子实体形态指标、单菇重量及单包产量都有显著影响,保留1个子实体时,单菇重量最大但单包产量最低,保留4个子实体时,单包产量较高且子实体形态一致;从质构特性来看,保留子实体数目为4个时,杏鲍菇子实体品质最好、口感最佳。【结论】在杏鲍菇工厂化生产的人工疏蕾环节,保留子实体数目为3—4个时可以减少对成本的浪费,获得产量较高、品质较好的产品。     

Microarray and real-time PCR analyses reveal mating type-dependent gene expression in a homothallic fungus

Sordaria macrospora is a homothallic ascomycete which is able to form fertile fruiting bodies without a mating partner. To analyze the molecular basis of homothallism and the role of mating products during fruiting body development, we have deleted the mating type gene Smta-1 encoding a high-mobility group domain (HMG) protein. The ΔSmta-1 deletion strain is morphologically wild type during vegetative growth, but it is unable to produce perithecia or ascospores. To identify genes expressed under control of Smta-1, we performed a cross-species microarray analysis using Neurospora crassa cDNA microarrays hybridized with S. macrospora targets. We identified 107 genes that are more than twofold up- or down-regulated in the mutant. Functional classification revealed that 81 genes have homologues with known or putative functions. Comparison of array data from ΔSmta-1 with those from three phenotypically similar mutants revealed that only a limited set of ten genes is deregulated in all mutants. Remarkably, the ppg2 gene encoding a putative lipopeptide pheromone is 500-fold down-regulated in the ΔSmta-1 mutant while in all other sterile mutants this gene is up-regulated. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

金针菇几丁质合成酶基因家族鉴定及其表达分析

【背景】几丁质是真菌细胞壁的重要成分,由几丁质合成酶（chitin synthase,CS）催化合成。几丁质合成酶编码基因在大型食用真菌金针菇中的数量及表达规律尚不明确。【目的】探究几丁质合成酶基因在金针菇中存在的数量及其在子实体不同发育时期的表达规律,为其在大型真菌子实体生长发育过程中的功能研究提供基础。【方法】基于已有的金针菇菌株L11基因组数据,结合NCBI其他真菌CS序列鉴定金针菇中几丁质合成酶编码基因的数量,并对其进行生物信息学分析。进一步根据金针菇F19转录组数据以及实时荧光定量PCR （RT-qPCR）技术分析金针菇CS基因家族的表达规律。【结果】在金针菇单核体菌株L11的基因组中鉴定到9个几丁质合成酶基因,系统发育分析表明它们在子实体发育过程中的表达模式可分为4类（皮尔森相关系数=0.85）。【结论】金针菇CS基因家族表达模式在金针菇不同生长发育时期均存在差异,可能参与了子实体发育不同时期和组织的形态建成。     

Monokaryotic fruiting in Schizophyllum commune: Genetic control of the response to mechanical injury

Summary Monokaryotic fruiting is used as a tool to study mushroom development and differentiation in Schizophyllum commune. This paper reports data which further elucidate the genetic control of the monokaryotic fruiting response to mechanical injury. Models relating the various genes implicated in monokaryotic fruiting body production are proposed and evaluated on their ability to explain the observed data. A minimum estimate is made of the number of genes involved in the initiation of monokaryotic fruiting in response to mechanical injury.Paper # 2260 from the Laboratory of Genetics, University of Wisconsin, Madison. Wisconsin 53706, USASupported in part by the College of Agriculture and Life Sciences, University of Wisconsin and by NIH Predoctoral Training Grant # GM 07133 to the Laboratory of Genetics, University of Wisconsin     

兰茂牛肝菌子实体发育的关联物质及其主要通路分析

【背景】兰茂牛肝菌(Lanmaoaasiatica)等外生菌根真菌的子实体形成和发育机制仍然未知。【目的】揭示调控子实体发育的关联物质。【方法】同时运用核磁共振、气相质谱和液相质谱3种代谢组学技术,分析兰茂牛肝菌纯培养8d原基(Y8)与野生子实体(Z0)的小分子物质。【结果】Y8及Z0分别共指认出451、473种化合物;Y8vs.Z0,有362种显著或极显著上调(206种)及下调(156种)差异物质,其涉及47条调控通路。【结论】推测通过9条主要通路完成物质的深度转化及调控,极显著上调及下调差异物质如牛肝菌素可能对子实体的发育起着一定的调控作用,3种方法互相补充扩大了检测的泛度及灵敏度,这为探究兰茂牛肝菌子实体发育机理及人工培养提供了一定的理论参考。     

The control of fruiting body formation in the ascomycete Sordaria macrospora Auersw. by regulation of hyphal development

The morphological effects of biotin and L-arginine on fruiting body formation of the ascomycete Sordaria macrospora are investigated by scanning electron and light microscopy. Biotin is recognized as an elongation factor and arginine as a branching factor in vegetative and reproductive hyphae. In the absence of exogenous biotin, development is blocked after the ascogonium-core hypha stage of protoperithecial morphogenesis, whereas linear growth of the myceliar front is maintained. The addition of exogenous arginine to a biotin deficient culture induces the formation of numerous side branches even in the older mycelium. Fruiting body formation, however, remains blocked at the protoperithecial stage as before, because of the inability of the side branches to elongate. When biotin and arginine are administered simultaneously, a most vigorous branching and growth are induced in the older mycelium, accompanied by a rapid and maximal formation of fruiting bodies. The results are summarized in a model of the exogenous control of hyphal morphogenesis. The model is designed to explain the relationship between fruiting and hyphal density as well as the edge effect on fruiting body formation.     

Spatial and temporal patterns of morel fruiting

The biotic and abiotic factors conditioning morel fruit body production are incompletely known. We examined spatial and temporal patterns of Morchella esculenta fruiting over five years in a wooded site in Missouri, USA. Fruiting onset was inversely correlated with spring air and soil temperatures, whereas abundance was positively correlated with rain events (>10 mm) during the 30 d preceding fruiting. The two years with the greatest fruiting had the shortest fruiting seasons (6–7 d). Fruiting season length was positively correlated with soil warming, suggesting that a narrow range of optimum soil temperatures favour the explosive production of fruit bodies. All woody stems of at least 1 cm diam were mapped and stem diameter and crown condition were noted. Morel fruit bodies were significantly closer to stems of Carya spp., Tilia americana and Ulmus americana than predicted by the frequencies of these woody species or their contribution to the total basal area on the site. Although intra-annual clustering of fruit bodies was often observed, inter-annual clustering was not. The spatial pattern of M. esculenta fruiting appears to be associated with vegetation pattern, whereas the onset and abundance of fruiting are determined by the interaction of spring temperatures with availability of supporting precipitation.     

Genetic transactivation of Dissociation elements in transgenic tomato plants

Summary A DNA amplification is correlated with the dominant, unstable cob-354 cobalt resistance trait in the cellular slime mold, Dictyostelium discoideum. The amplified DNA is present as about 50 copies of an extrachromosomal element. Cells grown under nonselective conditions in the absence of cobalt ions lose both the cobalt resistance trait and all extrachromosomal copies of the amplified DNA. The amplified DNA is transferrable to new genetic backgrounds by parasexual genetic crosses. These results explain the inability to map the cob-354 trait to a linkage group. The chromosomal origin of the amplified DNA is group III or VI. Thus the resistance trait appears to be independent of the previously known cobalt resistance locus, cobA, which maps to group VII. A developmental defect involving the production of multiply-tipped aggregates that do not complete fruiting body formation also is correlated with the presence of the amplified DNA.     

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.     

Regulation of cell–cell adhesion during Dictyostelium development

During development of Dictyostelium, four adhesion systems have been identified and adherens junction-like structures have been discovered in the fruiting body. The temporal and spatial expression of cell adhesion molecules (CAMs) is under stringent developmental control, corresponding to major shifts in morphological complexity. Genetic manipulations, including over-expression and knockout mutations, of the adhesion genes, cadA (encoding DdCAD-1), csaA (gp80) and lagC (gp150), have shed light on new roles for cell adhesion molecules in aggregate size regulation, cell-type proportioning, cell differentiation and cell sorting. As cell–cell interactions remain highly dynamic within cell streams and aggregates, mechanisms must exist to facilitate the rapid assembly and disassembly of adhesion complexes. Studies on gp80 have led to a model for the rapid assembly of adhesion complexes via lipid rafts.