基于比较基因组学方法的丝状子囊菌同源序列分析

为探讨丝状子囊菌基因组的同源保守序列作为标记基因,利用Standalone BLASTN方法将构巢曲霉全基因组基因分别与30种丝状子囊菌基因组比较.构巢曲霉与每个丝状子囊菌基因组之间的同源匹配基因数量似乎可反映子囊菌之间的进化关系,构巢曲霉（10,560个基因）与15种散囊菌纲其他真菌间的匹配基因数量为5,179-7,747个,其中与另外7个同属的种匹配的基因数量为7,434-7,747个,而与亲缘关系较远的2种锤舌菌纲真菌灰葡萄孢和核盘菌的匹配基因数量分别仅有4,318个和4,242个.构巢曲霉的10,560个基因与20余种子囊菌基因组同时匹配的基因数为3,509个,占33.2％,构巢曲霉基因与30种子囊菌共同匹配的基因仅924个.此外,E值大小在10-30_0.1范围的同源序列变异性大,而在0-10-100范围的同源序列高度保守.随着基因组序列数据的增加,比较基因组方法将会在真菌系统学研究领域发挥更大的作用.     

从真菌全基因组中筛选丛赤壳科的DNA条形码

将粗糙脉孢菌(Neurospora crassa)的注释基因分别与30 种丝状子囊菌基因组比较, 根据E值大小预测同源序列, 从中选择Hsp90, AAC, CDC48和EF3作为候选基因, 以丛赤壳科(Nectriaceae)13 个属34 个概念清晰的种为材料, 对215个序列片段采用不同方法进行分析, 筛选适合于该科的DNA 条形码. 将种内与种间序列差异以及序列获得的难易程度作为评价指标. 结果表明,Hsp90 和AAC基因虽然具有较高的 PCR 扩增与测序成功率, 但种内、种间距离频率分布存在重叠, 可能导致部分种的鉴定错误;CDC48基因可以恰当地区分种内与种间差异, 但扩增与测序成功率相对较低; EF3基因不存在种内、种间遗传距离重叠, 序列容易获得, 适合作为该科真菌的DNA 条形码.     

基因工程

961610 合成蒽醌类物质的岛青霉和常现青霉的转化[英]/Huang,K.…//Curr,Genet.-1995,28(6).-580～584[译自DBA,1996,15(1),96-00016] 分别用pSV50质粒和pBT6质粒(带有抗苯菌灵的β-微管蛋白基因)及pAN7-1质粒和pDH25质粒(带有由构巢曲霉(Aspergillus nidulans)序列控制的细菌潮霉素磷酸转移酶基因)转化岛青霉(Penicil-     

过量表达OsUgp2基因提高紫芝多糖含量

尿苷二磷酸葡萄糖焦磷酸化酶（UDP-glucose pyrophosphorylase,UGPase）是多糖生物合成过程中重要的酶,水稻基因组中存在两个UGPase同源基因分别命名为OsUgp1和OsUgp2。构建了由构巢曲霉3-磷酸甘油醛脱氢酶基因启动子驱动OsUgp2表达的真菌过量表达载体,并通过农杆菌介导法将OsUgp2基因转入紫芝中,获得了潮霉素抗性的转化菌株。PCR和Southern杂交结果显示OsUgp2基因成功整合到受体紫芝基因组中。半定量RT-PCR检测结果显示外源基因OsUgp2在紫芝转     

紫色红曲霉Mp-21 MpMcrA基因的克隆与生物信息学分析

McrA为最近在构巢曲霉(Aspergillus nidulans)中发现的全局调控因子，具有调控丝状真菌生长发育和次级代谢的作用，利用生物信息学分析方法找到并克隆紫色红曲霉（Monascus purpureus）中mcrA基因，将其命名为MpMcrA。分析MpMcrA蛋白质理化性质、亲疏水性、亚细胞定位、信号肽、跨膜区域及磷酸化位点、转录因子结合位点以及蛋白质二级结构。利用ProtParam、ProtScale、PSORTII、SignalP4.1等生物信息学软件对MpMcrA进行系统分析。 结果表明，MpMcrA基因长1 356 bp，其中含有3个外显子，2个内含子，编码410个氨基酸，与构巢曲霉序列比对蛋白相似性高达64％。预测结果显示，MpMcrA属于亲水蛋白，位于细胞核可能性大，不存在跨膜区域，不属于膜蛋白；不存在剪切位点，不属于分泌蛋白；基因含有54个潜在的磷酸化位点；可能存在5个转录因子结合位点；蛋白结构大部分为无规则卷曲，整体结构较松散。对MpMcrA基因进行了生物信息学分析，得到了基因特征和分析结果。初步确定MpMcrA基因为构巢曲霉同源mcrA基因，在红曲霉中未见有报道。     

瑞氏木霉表达黑曲霉葡萄糖氧化酶

利用高表达分泌纤维素酶的真菌瑞氏木霉表达重组的黑曲霉葡萄糖氧化酶。在大肠杆菌DH5α中构建瑞氏木霉纤维素酶CBHI启动子和CBHI信号肽基因黑曲霉葡萄糖氧化酶基因瑞氏木霉纤维素酶CBHI终止子构巢曲霉的甘油醛3磷酸脱氢酶启动子大肠杆菌抗潮霉素B磷酸转移酶基因构巢曲霉色氨酸C终止子pUC19(命名为pCBHGOD)质粒,线性化后用瑞氏木霉纤维素酶CBHI启动子和CBHI信号肽基因黑曲霉葡萄糖氧化酶基因瑞氏木霉纤维素酶CBHI终止子构巢曲霉的甘油醛3磷酸脱氢酶启动子大肠杆菌抗潮霉素B磷酸转移酶基因构巢曲霉色氨酸C终止子(命名为CBHGOD)核酸片段转化瑞氏木霉QM9414原生质体。用PCR扩增方法筛选出同源重组葡萄糖氧化酶基因的瑞士木霉突变株。用麦杆诱导瑞氏木霉突变株,生产黑曲霉葡萄糖氧化酶,Westernblot分析重组的葡萄糖氧化酶分子量与Sigma公司的天然黑曲霉葡萄糖氧化酶一致,生产的重组酶活性25umL,相当于Sigma公司葡萄糖氧化酶标准品的产量为0.5gL。瑞氏木霉可用于生产黑曲霉葡萄糖氧化酶。     

烟曲霉rRNA基因ITS区的克隆测序分析

对烟曲霉rRNA基因内转录间区(ITS区)进行了克隆测序,并将之与其他几种常见曲霉的相应序列进行了比较.发现3株烟曲霉的ITSⅠ区完全相同,而其中1株烟曲霉的ITSⅡ区与一条已知相应序列仅有2个碱基的变异.提示烟曲霉rRNA基因的两个ITS区序列均十分保守,而且与黄曲霉、黑曲霉、土曲霉及构巢曲霉的相应序列相比较,均有一定程度的变异.     

产毒真菌基因组研究进展

真菌毒素是产毒真菌产生的次生代谢产物,以木霉、曲霉、毛霉、青霉和根霉为主的丝状真菌是农产品中常见的产毒真菌。阐明农产品中产毒致病微生物的基因组序列信息是揭示真菌特殊遗传性状的基础。截至2013年12月,共有子囊菌门中204个种和担子菌门中62个种的基因组序列已经测序或公布,它们的基因组大小大部分在30-40 Mb。整理了部分已完成基因组测序的具有产毒能力或致病力的真菌基因组信息,并对真菌测序方案、主要产毒真菌及其比较基因组学的研究进展进行了综述。     

烟曲霉rRNA基因ITS区的克隆测序分析*

对烟曲霉rRNA基因内转录间区（ITS区）进行了克隆测序,并将之与其他几种常见曲霉的相应序列进行了比较。发现3株烟曲霉的ITSⅠ区完全相同,而其中1株烟曲霉的ITSⅡ区与一条已知相应序列仅有2个碱基的变异。提示烟曲霉rRNA基因的两个ITS区序列均十分保守,而且与黄曲霉、黑曲霉、土曲霉及构巢曲霉的相应序列相比较,均有一定程度的变异。     

水稻基因组测序完成

在 2 0 0 2年 4月 5日出版的《Ｓｃｉｅｎｃｅ》上发表了由中国 12家科研单位共同完成的水稻 (ＯｒｙｚａＳａｔｉｖａＬ .ＳＳＰ .ｉｎｄｉｃａ)亚型的基因组序列。该水稻基因组全长是 4 6 6× 10 7个碱基对 ,含有 4 6 0 2 2到 5 5 6 15个基因 ,功能基因占基因组的 92 .0 %。 80 .6 %的拟兰芥基因与该水稻的基因同源 ,但该水稻只有 4 9.4 %的基因与拟兰芥的基因同源。在同期的《Ｓｃｉｅｎｃｅ》上 ,还发表了由美国 6家科研机构共同完成的水稻 (ＯｒｙｚａＳａｔｉｖａＬ .ＳＳＰ .ｊａｐｏｎｉｃａ)亚型的基因组序列。该亚型的基因组全长 …     

Development of primer sets designed for use with the PCR to amplify conserved genes from filamentous ascomycetes.

We constructed nine sets of oligonucleotide primers on the basis of the results of DNA hybridization of cloned genes from Neurospora crassa and Aspergillus nidulans to the genomes of select filamentous ascomycetes and deuteromycetes (with filamentous ascomycete affiliations). Nine sets of primers were designed to amplify segments of DNA that span one or more introns in conserved genes. PCR DNA amplification with the nine primer sets with genomic DNA from ascomycetes, deuteromycetes, basidiomycetes, and plants revealed that five of the primer sets amplified a product only from DNA of the filamentous ascomycetes and deuteromycetes. The five primer sets were constructed from the N. crassa genes for histone 3, histone 4, beta-tubulin, and the plasma membrane ATPase. With these five primer sets, polymorphisms were observed in both the size of and restriction enzyme sites in the amplified products from the filamentous ascomycetes. The primer sets described here may provide useful tools for phylogenetic studies and genome analyses in filamentous ascomycetes and deuteromycetes (with ascomycete affiliations), as well as for the rapid differentiation of fungal species by PCR.     

Unique regulatory mechanism for D-galactose utilization in Aspergillus nidulans

This study describes two novel regulators, GalX and GalR, that control d-galactose utilization in Aspergillus nidulans. This system is unique for A. nidulans since no GalR homologs were found in other ascomycetes. GalR shares significant sequence identity with the arabinanolytic and xylanolytic regulators AraR and XlnR, but GalX is more distantly related.     

Analysis of the pdx-1 (snz-1/sno-1) region of the Neurospora crassa genome: correlation of pyridoxine-requiring phenotypes with mutations in two structural genes

We report the analysis of a 36-kbp region of the Neurospora crassa genome, which contains homologs of two closely linked stationary phase genes, SNZ1 and SNO1, from Saccharomyces cerevisiae. Homologs of SNZ1 encode extremely highly conserved proteins that have been implicated in pyridoxine (vitamin B6) metabolism in the filamentous fungi Cercospora nicotianae and in Aspergillus nidulans. In N. crassa, SNZ and SNO homologs map to the region occupied by pdx-1 (pyridoxine requiring), a gene that has been known for several decades, but which was not sequenced previously. In this study, pyridoxine-requiring mutants of N. crassa were found to possess mutations that disrupt conserved regions in either the SNZ or SNO homolog. Previously, nearly all of these mutants were classified as pdx-1. However, one mutant with a disrupted SNO homolog was at one time designated pdx-2. It now appears appropriate to reserve the pdx-1 designation for the N. crassa SNZ homolog and pdx-2 for the SNO homolog. We further report annotation of the entire 36,030-bp region, which contains at least 12 protein coding genes, supporting a previous conclusion of high gene densities (12,000-13,000 total genes) for N. crassa. Among genes in this region other than SNZ and SNO homologs, there was no evidence of shared function. Four of the genes in this region appear to have been lost from the S. cerevisiae lineage.     

Development of a high-frequency transforming vector for Aspergillus nidulans

The pyr4 gene of Neurospora crassa, which codes for orotidine-5'-phosphate decarboxylase, is capable of transforming an Aspergillus nidulans pyrG mutant by chromosomal integration, despite low homology between the transforming DNA and the recipient genome. Integration of pFB6, a plasmid carrying pyr4 and capable of replication in Escherichia coli, was not observed at the pyrG locus. The efficiency of transformation was considerably enhanced (50-100 fold) by inclusion in the transforming vector of a 3.5-kb A.nidulans chromosomal sequence, ans1. Although this sequence was isolated on the basis of replicating activity in Saccharomyces cerevisiae, there was no evidence for such activity in A.nidulans. Part of the ans1 fragment appears to be reiterated in the A.nidulans genome, though it is not yet clear whether this is directly responsible for the high transformation frequency. The efficiency of transformation of A.nidulans by plasmids bearing ans1, using an improved protocol, was approx. 5 X 10(3) stable transformants per microgram of plasmid DNA.     

Discovery of a novel superfamily of type III polyketide synthases in Aspergillus oryzae

Identification of genes encoding type III polyketide synthase (PKS) superfamily members in the industrially useful filamentous fungus, Aspergillus oryzae, revealed that their distribution is not specific to plants or bacteria. Among other Aspergilli (Aspergillus nidulans and Aspergillus fumigatus), A. oryzae was unique in possessing four chalcone synthase (CHS)-like genes (csyA, csyB, csyC, and csyD). Expression of csyA, csyB, and csyD genes was confirmed by RT-PCR. Comparative genome analyses revealed single putative type III PKS in Neurospora crassa and Fusarium graminearum, two each in Magnaporthe grisea and Podospora anserina, and three in Phenarocheate chrysosporium, with a phylogenic distinction from bacteria and plants. Conservation of catalytic residues in the CHSs across species implicated enzymatically active nature of these newly discovered homologs.     

Regulatory genes controlling fatty acid catabolism and peroxisomal functions in the filamentous fungus Aspergillus nidulans

The catabolism of fatty acids is important in the lifestyle of many fungi, including plant and animal pathogens. This has been investigated in Aspergillus nidulans, which can grow on acetate and fatty acids as sources of carbon, resulting in the production of acetyl coenzyme A (CoA). Acetyl-CoA is metabolized via the glyoxalate bypass, located in peroxisomes, enabling gluconeogenesis. Acetate induction of enzymes specific for acetate utilization as well as glyoxalate bypass enzymes is via the Zn2-Cys6 binuclear cluster activator FacB. However, enzymes of the glyoxalate bypass as well as fatty acid beta-oxidation and peroxisomal proteins are also inducible by fatty acids. We have isolated mutants that cannot grow on fatty acids. Two of the corresponding genes, farA and farB, encode two highly conserved families of related Zn2-Cys6 binuclear proteins present in filamentous ascomycetes, including plant pathogens. A single ortholog is found in the yeasts Candida albicans, Debaryomyces hansenii, and Yarrowia lipolytica, but not in the Ashbya, Kluyveromyces, Saccharomyces lineage. Northern blot analysis has shown that deletion of the farA gene eliminates induction of a number of genes by both short- and long-chain fatty acids, while deletion of the farB gene eliminates short-chain induction. An identical core 6-bp in vitro binding site for each protein has been identified in genes encoding glyoxalate bypass, beta-oxidation, and peroxisomal functions. This sequence is overrepresented in the 5' region of genes predicted to be fatty acid induced in other filamentous ascomycetes, C. albicans, D. hansenii, and Y. lipolytica, but not in the corresponding genes in Saccharomyces cerevisiae.     

G-protein and cAMP-mediated signaling in aspergilli: a genomic perspective

We have carried out an in silico exploration of the genomes of Aspergillus nidulans, Aspergillus fumigatus, and Aspergillus oryzae, and identified components of G-protein/cAMP-mediated signaling. Putative G-protein coupled receptors (GPCRs) were distributed over nine classes. The GPCRs within classes were well conserved among aspergilli but varied in other ascomycetes. As previously observed in A. nidulans and other fungi, three Galpha, one Gbeta, and one Ggamma subunits of G proteins were identified in A. fumigatus, whereas an additional likely non-functional Galpha subunit was present in A. oryzae. While most fungal species had five proteins containing the regulator of G-protein signaling (RGS) domain predicted to participate in attenuation of G-protein signaling, A. fumigatus and A. oryzae had an additional RGS protein (RgsD) related to RgsA of A. nidulans. Genes encoding adenylate cyclase, a regulatory subunit and two catalytic subunits of the cAMP-dependent protein kinase, were also identified in the three aspergilli. Finally, regulators of cAMP signaling including low- and high-affinity phosphodiesterases were identified. Taken together, our data indicate a striking diversity at the GPCR level, but little diversity of components at the G-protein and cAMP-signaling level. This may reflect the abilities of these fungi to adapt to various ecological niches and to integrate diverse environmental cues into highly conserved cellular processes.