Cataloging and profiling genes expressed in Lentinula edodes fruiting body by massive cDNA pyrosequencing and LongSAGE

This study investigated the molecular mechanism of the fruiting body development and sporulation in the cap of the Shiitake mushroom, Lentinula edodes. Although there has been much research into L. edodes, there remain significant gaps in our knowledge of how the species reproduces. In order to provide molecular resources and to understand the molecular mechanism of the fruiting body development in basidiomycete comprehensively, we searched for the genes which are important for fruiting body development and sporulation in the cap of mature fruiting body of L. edodes by using the whole-genome approach. Massive cDNA pyrosequencing was used to generate >7000 sequence contigs from mature fruiting bodies. We used Gene Ontology to categorize the contigs to form the catalog of genes expressed at the stage of the mature fruiting body. We also assigned the contigs into the KEGG pathways. The catalog of expressed genes indicates that the mature fruiting bodies (1) sense the external environment, (2) transmit signals to express genes through regulatory systems, (3) produce many proteins, (4) degrade unwanted proteins, (5) perform extensive biosynthesis, (6) generate energy, (7) regulate the internal environment, (8) transport molecules, (9) carry out cell division, and (10) differentiate and develop. After establishing the catalog of expressed genes in L. edodes, we used the LongSAGE approach to analyze the expression levels of genes found in mature fruiting bodies before (FB) and after (FBS) spores appeared. Gene-expression patterns according to GO categories were similar in these two stages. We have also successfully identified genes differentially expressed in FB and FBS. Fold-changes in expression levels of selected genes based on LongSAGE tag counts were similar to those obtained by real-time RT-PCR. The consistency between real-time RT-PCR and LongSAGE results indicates reliability of the LongSAGE results. Overall, this study provides valuable information on the fruiting processes of L. edodes through a combination of massive cDNA pyrosequencing and LongSAGE sequencing, and the knowledge thereby obtained may provide insight into the improvement of the yield of commercially grown Shiitake mushrooms.     

Lectin activity of Lentinus edodes

The hemagglutinating activity of submerged mycelium and culture liquid for four strains of Lentinus edodes (Berk.) Sing [L. edodes (Berk.) Pegler] was studied in the search for lectins. The hemagglutinating activity of culture liquid was substantially higher, compared with mycelium. The carbohydrate-binding capacity of the agglutinins was established, and the lectin activity of extracts from mycelia grown on several agar media was elucidated in relation to fruiting. The lectin activity of L. edodes was examined at different morphogenetic steps: mycelium, brown mycelial film, primordium, and fruiting body. Hemagglutination titers at the brown film step were higher than in the mycelium, whereas activity at the primordial and fruiting bodies steps decreased. Lectins seem to be involved in the formation of hyphal aggregates of brown mycelial film.     

糙皮侧耳生长发育过程中漆酶基因家族的表达研究

漆酶参与木质素的降解和食用菌的生长发育。为了明晰漆酶基因在糙皮侧耳生长发育过程中的作用,本文采用real-time PCR检测了11条漆酶基因及Lacc2的小亚基sspoxa3在糙皮侧耳生长发育不同阶段的表达。其中lacc6和sspoxa3在整个生长发育阶段表达量均较高;lacc12随着原基的分化和子实体的形成大量表达,与成菇过程有关。lacc4,lacc7和lacc11在原基分化期高表达,与原基的分化有关。lacc2,lacc3和lacc8在成熟子实体阶段表达量显著上升,与子实体的分化和成熟有关。     

Isolation of genes differentially expressed during the fruit body development of Pleurotus ostreatus by differential display of RAPD

To analyze genes involved in fruit body development of Pleurotus ostreatus, mRNAs from three different developmental stages: i.e., vegetative mycelium, primordium, and mature fruit body, were isolated and reverse-transcribed to cDNAs. One hundred and twenty random PCR amplifications were performed with the cDNAs, which generated 382, 394, 393 cDNA fragments from each developmental stage. From these fragments, four cDNA clones specifically expressed in primordium or mature fruit body were detected. Sequence analysis and database searches revealed significant similarity with triacylglycerol lipase, cytochrome P450 sterol 14 alpha-demethylase and developmentally regulated genes of other fungi. Northern blot analyses confirmed that all of the four cDNAs were unexpressed in mycelium, thus stage-specific genes for fruit body formation of P. ostreatus were successfully isolated.     

蛹虫草原基分化的差异蛋白质组学研究

蛹虫草子实体形成及发育的蛋白分子机制尚不清楚,本研究引入SWATH非标记定量蛋白质组学技术,对蛹虫草Cordyceps militaris 905菌株的菌丝体（mycelium,My）、原基（primordium,Po）、生长期子实体（developmental fruiting body,DF）和成熟期子实体（mature fruiting body,MF）进行了比较蛋白质组学分析。经搜库比对,从蛹虫草的My、Po、DF和MF中依次鉴定蛋白1 136个、1 090个、1 018个和997个（global FDR 1%）,经维恩分析后获得C. militaris 905蛹虫草表达蛋白1 578个。在此基础上,SWATH非标记技术定量蛋白1 109个。本研究获得了蛹虫草Po期与My期、DF期与Po期、MF期与DF期的差异表达蛋白,依次为115个、352个和104个,并对菌丝体分化形成原基的差异表达蛋白进行了重点解析。GO注释结果表明,Po期与My期差异表达蛋白以有机含氮类化合物代谢为主,其中AMP（活性成分虫草素合成的中间产物）从头生物合成途径富集最为显著。约1/5的差异表达蛋白参与氧化还原反应,还原酶活性的蛋白在原基中几乎都上调表达,而氧化功能的蛋白受到抑制,表明蛹虫草原基分化可能受到氧化应激的诱导。蛋白互作网络分析结果进一步表明,氧化还原反应与核苷类物质代谢相关联,可能通过影响AMP从头生物合成途径来调控虫草素的生物合成。对蛹虫草子实体系统的蛋白质组学研究和解析有利于揭示子实体形成的蛋白分子机制,为蛹虫草的基础和栽培研究提供了理论支撑。     

利用加权基因共表达网络分析方法挖掘香菇发育不同阶段的关键基因

香菇是世界产量第二大食用菌,栽培历史悠久。在木屑袋料栽培模式下,香菇发育可以分为菌丝生长期（G）、菌丝褐化期（B）、原基形成期（P）以及出菇期（FB）4个阶段。褐化期和原基形成期是香菇从营养生长期到生殖生长两个关键发育阶段,对香菇子实体产量和质量至关重要。本研究以3种不同栽培材料为重复,对香菇发育的前3个阶段进行了转录组分析。主成分分析和相似性分析表明,基因随着发育进程的推进,不同栽培基质样本的基因表达特征相似。以菌丝生长阶段的转录本为参照,通过基因差异表达分析,获得与菌丝褐化成熟和原基形成相关的基因,并对这些基因进行GO和KEGG功能富集分析;其次,对9个转录本数据进行加权基因共表达网络分析（WGCNA）,分别获得了与菌丝生长、褐化阶段及原基形成各阶段高度相关的黑色、蓝色及黄色基因模块,并利用网络节点分析获得了与菌丝褐化成熟和原基形成得到7个关键基因;最后,结合差异基因和基因模块分析,得到了菌丝生长阶段的17个重要基因、褐化阶段的167个重要基因以及原基形成阶段的67个重要基因。通过多分析手段结合为筛选候选基因提供了更为高效的方法。     

Cloning, sequence analysis and transcriptional expression of a ras gene of the edible basidiomycete Lentinus edodes

In the edible basidiomycete, Lentinus edodes, the presence of a high level of intracellular cyclic AMP (cAMP) is closely related to the onset of fruiting and/or primordium formation. Since a close relationship between intracellular cAMP levels and expression of ras genes was reported for organisms such as Saccharomyces cerevisiae and Dictyostelium discoideum, we have cloned and sequences a ras gene homologue from L. edodes (Le.), and analyzed its expression during development of the fungus. This gene, named Le.ras, has a coding capacity of 217 amino acids (aa) interrupted by six small introns. The deduced Le.Ras protein exhibited the highest homology to the Schizosaccharomyces pombe RAS protein (219 aa): 86% homology in the N-terminal 80-aa sequence and 74% homology in the next 80 aa. The Le.ras gene was transcribed at similar levels during mycelial development in fruiting-body formation, suggesting no direct correlation of Le.ras expression with intracellular cAMP levels in this organism.     

Characterization, molecular cloning, and differential expression analysis of laccase genes from the edible mushroom Lentinula edodes.

The effect of different substrates and various developmental stages (mycelium growth, primordium appearance, and fruiting-body formation) on laccase production in the edible mushroom Lentinula edodes was studied. The cap of the mature mushroom showed the highest laccase activity, and laccase activity was not stimulated by some well-known laccase inducers or sawdust. For our molecular studies, two genomic DNA sequences, representing allelic variants of the L. edodes lac1 gene, were isolated, and DNA sequence analysis demonstrated that lac1 encodes a putative polypeptide of 526 amino acids which is interrupted by 13 introns. The two allelic genes differ at 95 nucleotides, which results in seven amino acid differences in the encoded protein. The copper-binding domains found in other laccase enzymes are conserved in the L. edodes Lac1 proteins. A fragment of a second laccase gene (lac2) was also isolated, and competitive PCR showed that expression of lac1 and lac2 genes was different under various conditions. Our results suggest that laccases may play a role in the morphogenesis of the mushroom. To our knowledge, this is the first report on the cloning of genes involved in lignocellulose degradation in this economically important edible fungus.     

CWI和HOG信号通路基因在斑玉蕈不同发育阶段的表达模式

为了更清楚地了解MAPK信号通路中的细胞壁完整性信号通路（cell wall integrity,CWI）和高渗透压甘油（high-osmolarity glycerol pathway,HOG）信号通路对斑玉蕈菌丝成熟、原基形成和子实体发育过程的影响及调节作用,对MAPK信号通路中的CWI和HOG信号通路基因在斑玉蕈不同菌丝培养时间（40、60、80和100d）和不同生长发育关键时期（24h、菌丝恢复期、菌丝转色期、原基期和子实体期）的表达模式进行分析,以期揭示这两条信号通路基因参与调节斑玉蕈菌丝的生长、子实体的形成和发育的作用。在斑玉蕈的CWI和HOG信号通路中经分析鉴定一共获得了15个关键基因。CWI信号通路基因表达分析表明：在菌丝培养的40-100d的过程中,大部分CWI信号通路基因在第60天时表达量最高,其中rho1、ssk1、ssk2和ste20的基因表达量上调了2-5倍,在第80-100天时出现持续下降。在HOG信号通路中的大部分基因也在菌丝培养的第60天表达量达到最高。其中sho1、ste20、ssk1和ssk2基因的表达量上调最为显著,而hog1基因的表达量在菌丝培养的第40-100天呈持续下降。子实体形成过程中两条通路的大部分基因在原基形成时期表达量最高,而在子实体时期表达量下调。其中HOG信号通路中的ssk2基因表达量上调最为显著。以上结果说明在菌丝生长过程中第60天时菌丝细胞生长增殖最为旺盛,而在第80天开始菌丝细胞基本开始停止生长,菌丝也逐渐达到成熟。同时在菌丝增殖生长过程中,斑玉蕈持续地上调CWI信号通路基因的表达来调控菌丝细胞壁的完整性,从而控制菌丝细胞壁的形成。其中bck1、mkk1和slt2基因可能对斑玉蕈菌丝细胞的分裂增殖和细胞壁的形成以及诱导子实体形成起到关键作用。     

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。