Blue Light Overrides Repression of Asexual Sporulation by Mating Type Genes in the Basidiomycete Coprinus cinereus

Monokaryotic mycelia of the homobasidiomycete Coprinus cinereus form asexual spores (oidia) constitutively in abundant numbers. Mycelia with mutations in both mating type loci (Amut Bmut homokaryons) also produce copious oidia but only when exposed to blue light. We used such an Amut Bmut homokaryon to define environmental and inherent factors that influence the light-induced oidiation process. We show that the Amut function causes repression of oidiation in the dark and that light overrides this effect. Similarly, compatible genes from different haplotypes of the A mating type locus repress sporulation in the dark and not in the light. Compatible products of the B mating type locus reduce the outcome of light on A-mediated repression but the mutated B function present in the Amut Bmut homokaryons is not effective. In dikaryons, the coordinated regulation of asexual sporulation by compatible A and B mating type genes results in moderate oidia production in light. Copyright 1998 Academic Press.     

A linkage map of the basidiomycete Coprinus cinereus based on random amplified polymorphic DNAs and restriction fragment length polymorphisms

A genetic linkage map of the basidiomycete Coprinus cinereus was constructed on the basis of the segregation of 219 RAPD markers, 28 RFLP markers and the A and B mating-type loci among 40 random basidiospore progeny from a single cross between a wild-type homokaryon, KF(3)#2, and an AmutBmut strain, #326. Thirteen linkage groups covering a total of 1346cM were identified and correlated to the 13 chromosomes of this fungus by hybridization of RFLP and RAPD marker probes to CHEF blots. These probes also revealed chromosome length polymorphisms (CLP), which could be associated with haplotype plots of the progeny. The average kb/cM ratio in this cross was approximately 27.9kb/cM. The AmutBmut strain undergoes sexual development without mating, because of mutations in both A and B mating-type loci, and has been used to identify mutations affecting developmental processes such as dikaryosis, fruit body morphogenesis, and meiosis. The markers in the map, especially the RAPD ones, would facilitate mapping of genes responsible for such mutations induced in the AmutBmut strain.     

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.     

香菇印gpd-Le和ras-Le启动子的功能分析

利用从香菇菌丝体中克隆的启动子片段gpd-Le(613bp)和ras-Le(715bp)分别连接于报告基因gfp(绿色荧光蛋白基因)的上游,构建了启动子功能活性检测表达质粒pLg-gfp和pLr-gfp。采用PEG介导法把表达质粒pLg-gfp和pLr-gfp分别与辅助质粒pCc1001(含有trp1基因)共转化进色氨酸营养缺陷型的灰盖鬼伞粉孢子的原生质体中。经过选择培养基筛选、假定转化子的分子鉴定以及GFP荧光检测。结果表明:香菇gpd-Le启动子在灰盖鬼伞的菌丝中具有较强驱动外源gfp基因表达的活性,在荧光显微镜和共聚焦显微镜下观察到gfp基因表达的绿色荧光。而香菇ras-Le启动子没有检测到有驱动外源gfp基因表达的活性。     

The control of meiosis progression in the fungus Coprinus cinereus by light/dark cycles

Meiosis progression in Coprinus cinereus is controlled by light/dark cycles. Light is essential to propel basidia into karyogamy and light intensity determines the timing of meiotic events. The higher the light intensities, the faster the fruiting bodies enter karyogamy. The critical period when light has this influence is between 16 and 6 h before karyogamy. The control is highly stage specific. A 3-h dark period is essential for a Java dikaryon and the Japanese A(mut)B(mut) homokaryon to enter meiotic metaphase; without it the fruit body is permanently arrested at diffused diplotene. This arrest is light intensity-dependent (>20 hlx) and temperature-dependent (e.g., 27 degrees C). The placement of the dark period is very stage specific; it has no effect when placed before karyogamy stage. A dikaryon of London origin is light blind and able to complete meiosis under continuous high light regime. Fruiting bodies arrested under a continuous high light can be rescued by a 3-h dark treatment, but there is always an 8-h lag time to enter meiotic metaphase. It is possible that the dark effect signals cellular processes leading to division events. Cytological studies of arrested fruiting bodies showed that chromosomes are normal in meiotic prophase through pachytene and diplotene, but are unable to undergo chromosome condensation. Genetic crosses between a monokaryon of Java stock J6;5.4 and a monokaryon BL55 or H5 of London stock showed that light-blindness is dominant, and is controlled by a single Mendelian gene.     

灰树花gpd-Gf启动子的功能分析

利用从灰树花菌丝体中克隆的gpd-Gf（615bp）启动子片段串联于报告基因gfp上游,构建启动子功能活性检测表达质粒pGg-gfp。采用PEG介导法把表达质粒pGg-gfp与辅助质粒pCc1001（含有trp1基因）共转化进色氨酸营养缺陷型的灰盖鬼伞粉孢子的原生质体中。经过选择培养基筛选、假定转化子的分子鉴定以及GFP荧光检测, 结果表明：灰树花gpd-Gf启动子在灰盖鬼伞菌丝中具有较强驱动gfp基因表达的活性,在荧光显微镜和共聚焦显微镜下可以观察到转化子菌丝发出的强烈荧光。     

The A mating type and blue light regulate all known differentiation processes in the basidiomycete Coprinus cinereus

Monokaryons of Coprinus cinereus constitutively form small spores (oidia) in the aerial mycelium. Some strains also produce large, inflated single cells (chlamydospores) at the agar/air interface, and hyphal aggregates (hyphal knots) that can develop into sclerotia. Monokaryons show various reactions upon transformation with heterologous A mating type genes. Production of oidia in such A-activated transformants is repressed in the dark and induced by blue light. Five of six monokaryons tested following transformation with A genes showed induced production of hyphal knots and sclerotia in the dark, and at least three strains showed enhanced chlamydospore production in the dark. Continuous incubation under blue light inhibited formation of hyphal knots, sclerotia and chlamydospores in both competent monokaryons and in A-activated transformants. On artificial medium and on a 12?h light/12?h dark regime, A-activated transformants of one distinct monokaryon (218) formed fruit-body primordia that were arrested in development before karyogamy. Our studies show that A mating type genes control all major differentiation processes in Coprinus, but whether developmental processes can proceed depends on the genetic background of the strain.     

The A mating type and blue light regulate all known differentiation processes in the basidiomycete Coprinus cinereus

Monokaryons of Coprinus cinereus constitutively form small spores (oidia) in the aerial mycelium. Some strains also produce large, inflated single cells (chlamydospores) at the agar/air interface, and hyphal aggregates (hyphal knots) that can develop into sclerotia. Monokaryons show various reactions upon transformation with heterologous A mating type genes. Production of oidia in such A-activated transformants is repressed in the dark and induced by blue light. Five of six monokaryons tested following transformation with A genes showed induced production of hyphal knots and sclerotia in the dark, and at least three strains showed enhanced chlamydospore production in the dark. Continuous incubation under blue light inhibited formation of hyphal knots, sclerotia and chlamydospores in both competent monokaryons and in A-activated transformants. On artificial medium and on a 12 h light/12 h dark regime, A-activated transformants of one distinct monokaryon (218) formed fruit-body primordia that were arrested in development before karyogamy. Our studies show that A mating type genes control all major differentiation processes in Coprinus, but whether developmental processes can proceed depends on the genetic background of the strain. Received: 11 May 1998 / Accepted: 15 July 1998     

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.     

Glutamate metabolism in a monokaryon of Coprinus cinereus.

The possible involvement of the glutamine synthetase/glutamate synthase pathway in ammonia assimilation is reported in a monokaryon of Coprinus cinereus.     

香菇B交配型位点的分子遗传学结构研究I.信息素受体和信息素前体编码基因的克隆和序列分析

本研究结合简并PCR和染色体步行两种方法研究了香菇135菌株的交配型B位点的分子遗传学结构。从135菌株的原生质体单核体1号菌株中获得了1个信息素受体编码基因LErcb1-B1和1个信息素前体编码基因LEphb1-B1。经序列比对分析,香菇的信息素受体LErcb1-B1序列与灰盖鬼伞和裂褶菌的信息素受体之间具有同源性,经SOSUI软件分析该序列具有7次跨膜结构特征。信息素前体LEphb1-B1具有CaaX基序特征。     

Evidence for synthesis de novo of NADP-linked glutamate dehydrogenase in Coprinus mycelia grown in nitrogen-free medium

Abstract NADP-linked glutamate dehydrogenase is developmentally regulated in the mushroom fruit bodies of Coprinus cinereus . The enzyme can also be specifically induced by transfer of mycelium of the monokaryon BC9/6,6 to an ammonium-free medium containing an excess of pyruvate. Tests involving differential labelling show that the enzyme is synthesised de novo in this latter type of experiment.     

香菇印gpd-Le和ras-Le启动子的功能分析

利用从香菇菌丝体中克隆的启动子片段gpd-Le(613bp)和ras-Le(715bp)分别连接于报告基因gfp(绿色荧光蛋白基因)的上游,构建了启动子功能活性检测表达质粒pLg-gfp和pLr-gfp。采用PEG介导法把表达质粒pLg-gfp和pLr-gfp分别与辅助质粒pCc1001(含有trp1基因)共转化进色氨酸营养缺陷型的灰盖鬼伞粉孢子的原生质体中。经过选择培养基筛选、假定转化子的分子鉴定以及GFP荧光检测。结果表明:香菇gpd-Le启动子在灰盖鬼伞的菌丝中具有较强驱动外源gfp基因表达的活性,在荧光显微镜和共聚焦显微镜下观察到gfp基因表达的绿色荧光。而香菇ras-Le启动子没有检测到有驱动外源gfp基因表达的活性。     

香菇印gpd-Le和ras-Le启动子的功能分析

利用从香菇菌丝体中克隆的启动子片段gpd-Le(613bp)和ras-Le(715bp)分别连接于报告基因gfp(绿色荧光蛋白基因)的上游,构建了启动子功能活性检测表达质粒pLg-gfp和pLr-gfp。采用PEG介导法把表达质粒pLg-gfp和pLr-gfp分别与辅助质粒pCc1001(含有trp1基因)共转化进色氨酸营养缺陷型的灰盖鬼伞粉孢子的原生质体中。经过选择培养基筛选、假定转化子的分子鉴定以及GFP荧光检测。结果表明:香菇gpd-Le启动子在灰盖鬼伞的菌丝中具有较强驱动外源gfp基因表达的活性,在荧光显微镜和共聚焦显微镜下观察到gfp基因表达的绿色荧光。而香菇ras-Le启动子没有检测到有驱动外源gfp基因表达的活性。     

Rapid isolation of genes from an indexed genomic library of C. cinereus in a novel pab1+ cosmid

In this study we present an indexed genomic library of homokaryon AmutBmut constructed within a novel cosmid carrying pab1+ as a selectable Coprinus marker. The average insert size per cosmid comprises 41 kb. We screened the library and detected copies of known (a1-2, beta-tub, cgl1, ras, trp1) and of new Coprinus genes (cac, lac1, lac2, lac3). Screening was performed either by Southern blot hybridisation or more efficiently by non-radioactive PCR amplification. We successfully applied PCR with specific and with degenerate primers, multiplex PCR and colony PCR in library screening. Our results suggest a new, more efficient pooling strategy for future high throughput screenings to be used in PCR with pooled cosmid DNAs, or in a less laborious approach using pooled Escherichia coli colonies for PCR.     

环腺苷酸在灰盖鬼伞子实体发育中的效用研究

通过测试ｃＡＭＰ,子实体浸提液对灰盖鬼伞（Ｃｏｐｒｉｎｕｓ　ｃｉｎｅｒｅｕｓ）双核体菌丝的子实体诱导测试研究及通过用腺苷分别抑制ｃＡＭＰ在子实体发育各阶段的合成,对ｃＡＭＰ在灰盖克伞子实体发育中的影响进行了研究。结果表明：ｃＡＭＰ及子实体浸提液对灰盖鬼伞双核体菌丝的子实体形成并无诱导信号作用,阻止ｃＡＭＰ的合成延缓了子实体原基的发生,菌盖的形成,担孢子梗的形成,也延缓了质配和担孢子的发生,但菌柄的延长,子实体的成熟,担孢子的着色与释放则不受ｃＡＭＰ合成受阻的影响。     

Decolorization of the anthraquinone dye Cibacron Blue 3G-A with immobilized Coprinus cinereus in fluidized bed bioreactor

Coprinus cinereus, which was able to decolorize the anthraquinone dye Cibacron Blue 3G-A (CB) enzymatically, was used as a biocatalyst for the decolorization of synthetic solutions containing this reactive dye. Coprinus cinereus was immobilized in both calcium alginate and polyacrylamide gels, and was used for the decolorization of CB from synthetic water by using a fluidized bed bioreactor. The highest specific decolorization rate was obtained when Coprinus cinereus was entrapped in calcium alginate beads, and was of about 3.84 mg g(-1) h(-1) with a 50% conversion time (t1/2) of about 2.60 h. Moreover, immobilized fungal biomass in calcium alginate continuously decolorized CB even after 7 repeated experiments without significant loss of activity, while polyacrylamide-immobilized fungal biomass retained only 67% of its original activity. The effects of some physicochemical parameters such as temperature, pH and dye concentration on decolorization performance of isolated fungal strain were also investigated.     

Purification, characterization and evaluation of extracellular peroxidase from two Coprinus species for aqueous phenol treatment

Non-ligninolytic fungal peroxidases produced by Coprinus cinereus UAMH 4103 and Coprinus sp. UAMH 10067 were purified, characterized and evaluated as cost-effective alternatives to horseradish peroxidase for aqueous phenol treatment. Purified Coprinus peroxidases exhibited a molecular weight of 36 kDa on matrix-assisted laser desorption ionization time-of-flight mass spectrometry. Although the catalytic properties of the two Coprinus peroxidases were nearly identical in both crude and purified forms, the stabilities were substantially different. The peroxidase from Coprinus sp. UAMH 10067 was more stable at 50 degrees C and under basic conditions (up to pH 10) than the enzyme from C. cinereus UAMH 4103. The former enzyme also performed better at pH 9 than the latter one in aqueous phenol treatment. The phenol removal efficiency of the Coprinus peroxidase was comparable to those of previously studied plant peroxidases. The broader working pH and higher thermal and alkaline stability of the peroxidase from Coprinus sp. UAMH 10067 may be advantageous for its application to industrial wastewater treatment.