球孢白僵菌Hog1 MAPK同源基因BbHog1的克隆及特征分析

根据几种丝状真菌Hog1 MAPK的保守氨基酸序列设计简并引物,从昆虫病原真菌球孢白僵菌中扩增出MAPK同源基因的部分片段,然后利用YADE法延伸该片段的上、下游邻接序列,获得MAPK编码基因的全长序列,命名为BbHog1。序列分析表明,该基因编码358个氨基酸的多肽,推测分子量为40.99kDa,等电点为5.49。BbHog1含有MAPK保守的蛋白激酶激活域(TGY),序列与粗糙脉孢霉os-2(AF297032)、烟曲霉OSM1(XM_747571)、隐球酵母HOG1(AF243531)和酿酒酵母Hog1(Z73285)等Hog1 MAPK高度同源,相似性分别为94%、89%、83%和80%。系统聚类结果表明,BbHog1与酵母Hog1 MAPK同源。Southern杂交表明,BbHog1在球孢白僵菌基因组中以单拷贝形式存在。Northern分析表明,BbHog1在高渗、亚高温和营养胁迫等条件下的表达明显升高。由此推测,BbHog1基因可能与球孢白僵菌对逆境胁迫的适应性调节密切相关。     

球孢白僵菌Hog1 MAPK同源基因BbHog1的克隆及特征分析

根据几种丝状真菌Hog1 MAPK的保守氨基酸序列设计简并引物,从昆虫病原真菌球孢白僵菌中扩增出MAPK同源基因的部分片段,然后利用YADE法延伸该片段的上、下游邻接序列,获得MAPK编码基因的全长序列,命名为BbHog1。序列分析表明,该基因编码358个氨基酸的多肽,推测分子量为40.99kDa,等电点为5.49。BbHog1含有MAPK保守的蛋白激酶激活域(TGY),序列与粗糙脉孢霉os-2(AF297032)、烟曲霉OSM1(XM_747571)、隐球酵母HOG1(AF243531)和酿酒酵母Hog1(Z73285)等Hog1 MAPK高度同源,相似性分别为94%、89%、83%和80%。系统聚类结果表明,BbHog1与酵母Hog1 MAPK同源。Southern杂交表明,BbHog1在球孢白僵菌基因组中以单拷贝形式存在。Northern分析表明,BbHog1在高渗、亚高温和营养胁迫等条件下的表达明显升高。由此推测,BbHog1基因可能与球孢白僵菌对逆境胁迫的适应性调节密切相关。     

球孢白僵菌FUS3/KSS1类MAPK同源基因(BbMPK1)的克隆及特征分析

根据几种丝状真菌FUS3/KSS1类MAPK的保守序列设计简并引物,从昆虫病原真菌球孢白僵菌中扩增出MAPK基因的部分片段,进而利用YADE法延伸该片段的上、下游邻接序列,获得MAPK基因的全长序列,命名为BbMPK1。用3′RACE扩增出BbMPK1的全长cDNA序列,该序列含有一个1071bp的ORF,编码356个氨基酸的多肽,推测分子量为41.2kDa,等电点为6.61。BbMPK1含有11个MAPK共有的蛋白激酶区域和1个MAPK激酶作用的磷酸化位点区域(TEY),其氨基酸序列与丝状真菌的TMKA、PMK1、CMK1、FMK1和BMP1等MAPK高度同源。系统聚类结果表明,BbMPK1属于酵母FUS3/KSS1类MAPK。Southern杂交表明,BbMPK1在球孢白僵菌基因组中以单拷贝形式存在。RT-PCR分析表明BbMPK1在分生孢子休眠阶段、萌发阶段和菌丝生长时期均表达。研究结果为阐明酵母FUS3/KSS1类MAPK同源基因在球孢白僵菌中的作用奠定了基础。     

球孢白僵菌FUS3／KSS1类MAPK同源基（BbMPK1）的克隆及特征分析

根据几种丝状真菌FUS3／KSS1类MAPK的保守序列设计简并引物,从昆虫病原真菌球孢白僵菌中扩增出MAPK基因的部分片段,进而利用YADE法延伸该片段的上、下游邻接序列,获得MAPK基因的全长序列,命名为BbMPK1。用3’RACE扩增出BbMPK1的全长cDNA序列,该序列含有一个1071bp的ORF,编码356个氨基酸的多肽,推测分子量为41．2kDa,等电点为6．61。BbMPK1含有11个MAPK共有的蛋白激酶区域和1个MAPK激酶作用的磷酸化位点区域(TEY),其氨基酸序列与丝状真菌的TMKA、PMK1、CMK1、FMK1和BMP1等MAPK高度同源。系统聚类结果表明,BbMPK1属于酵母FUS3／KSS1类MAPK。Southern杂交表明,BbMPK1在球孢白僵菌基因组中以单拷贝形式存在。RT-PCR分析表明BbMPK1在分生孢子休眠阶段、萌发阶段和菌丝生长时期均表达。研究结果为阐明酵母FUS3／KSS1类MAPK同源基因在球孢白僵菌中的作用奠定了基础。     

球孢白僵菌羧基转运蛋白基因BbJEN1及其上游序列的克隆与分析

在分析一株球孢白僵菌TDNA插入突变体T12的Tagging序列的基础上,根据与其具有高度同源性的一条金龟子绿僵菌EST序列（编号为AJ273226）设计简并引物,用YADE法从球孢白僵菌中扩增出该EST的同源序列及其延伸序列。序列分析表明,该片段与粗糙脉孢霉的羧基转运蛋白JEN1具有高度同源性,由此确定该序列为球孢白僵菌羧基转运蛋白JEN1基因的部分序列。然后利用YADE法延伸扩增该序列的上、下游序列,获得球孢白僵菌羧基转运蛋白JEN1的全长DNA序列,命名为GBbJEN1。利用3′RACE扩增出球孢白僵菌羧基转运蛋白JEN1的cDNA序列,命名为BbJEN1。BbJEN1全长1656bp,编码514个氨基酸的蛋白。推测蛋白分子量为55975.37Da,等电点9.32。氨基酸序列与金龟子绿僵菌、粗糙脉孢霉和酿酒酵母羧基转运蛋白JEN1的同源性分别为77%、66%和30%。序列分析表明,GBbJEN1含有2个内含子。Southern杂交表明,GBbJEN1基因在球孢白僵菌基因组中为单拷贝。利用RTPCR法对BbJEN1的表达特性进行了分析,结果发现BbJEN1基因的转录受蟑螂壳、蝉蜕等昆虫体壁的诱导,受葡萄糖的抑制。进一步利用YADE法获得了长为977bp的GBbJEN1上游序列,其中含有可能的葡萄糖抑制调控序列和压力反应元件。     

球孢白僵菌降解昆虫体壁蛋白酶基因 CDEP-1的克隆与序列分析

构建了球孢白僵菌不同诱导时间的混合cDNA文库。根据丝氨酸类蛋白酶的保守区域设计引物,以构建cDNA文库同样的mRNA为模板,采用RT-PCR法得到长度为594bp的片段BbP。序列测定表明BbP是球孢白僵菌类枯草杆菌蛋白酶Prl的一部分,以BbP为探针,从上述cDNA文库筛选得到长度为1557bp的克隆CDEP-1。CDEP-1含有一个1134bp的开放阅读框（ORF）,编码377个氨基酸,分子量为38616、PI=8.302的蛋白酶前体。CEDP-1的核苷酸序列与蛋白酶K、金龟子绿僵菌Prl、球孢白僵菌Prl的同源性分别为：57.9%、54.7%、83.3%。根据cDNA序列扩增到CDEP-1的基因组序列,分析表明其中含有3个内含子。Southern杂交表明CDEP-1在球孢白僵菌是单拷贝。     

杧果LEAFY同源基因的分离及序列分析

分析在植物开花过程中起重要作用的LEAFY(LFY)基因的保守区序列,设计1对长度均为23bp的PCR引物,以杧果基因组DNA为模板,采用PCR方法扩增出长为822bp的DNA片段,克隆入pGEM-T Easy载体。测序和序列分析表明,获得了杧果LFY同源基因(miLFY)3’端的1个片段,该片段有1个415bp的内含子,编码区共编码135个氨基酸,其序列已经在GenBank中登记(登录号AY189684)。在GenBank中进行同源性检索,发现其氨基酸序列与其它植物LFY同源基因的氨基酸序列同源性高达74%~97%,推测它们具有相似的功能。     

球孢白僵菌高渗适应性相关基因Bbmpd的克隆与表达分析

【目的】克隆与球孢白僵菌(Beauveria bassiana)的高渗适应性相关基因,并对其功能进行分析,以揭示球孢白僵菌对高渗等逆境适应的分子机理。【方法】利用YADE法克隆T-DNA的侧翼序列并进行基因组步行,获得突变基因的全长及上游序列;利用RT-PCR技术分析突变基因的表达特性以及与Bbhog1的关系;采用同源重组技术敲除Bbmpd基因。【结果】克隆得到插入突变基因及其上、下游序列全长3037bp。该基因与编码球孢白僵菌的1-磷酸甘露醇脱氢酶基因相似性为98%。Bbmpd的表达受高渗环境(0.8mol/L NaCl)的诱导,受Bbhog1信号途径的激活调节,Bbhog1缺失导致Bbmpd表达下调。Bbmpd缺失突变体在高渗胁迫下的生长受到明显抑制。Bbmpd缺失不影响球孢白僵菌在查氏培养基上的生长和产孢。【结论】由T-DNA突变体克隆了编码球孢白僵菌1-磷酸甘露醇脱氢酶基因Bbmpd,该基因的表达受高渗环境的诱导和Bbhog1的调控,与球孢白僵菌高渗适应性相关。     

多主棒孢菌调控致病性相关基因CCK1的克隆及生物信息学分析

采用同源克隆、SEFA-PCR和RT-PCR技术克隆获得了多主棒孢菌(Corynespora cassiicola)CCK1基因的DNA和cDNA.生物信息学分析表明,该基因DNA和cDNA全长分别为2 710 bp和1 065 bp,编码区含4个内含子(长53、54、50和56bp),推测编码354个氨基酸,其分子量约40.98 kD,等电点(pI) 6.43.从GenBank搜索相似蛋白和构建进化树发现,CCK1与多个丝状真菌调控致病性相关的PMK1类MAPK蛋白聚为一类,且含1个参与双重磷酸化作用的MAPK蛋白激活域TEY和1个Ser/Thr蛋白激酶保守结构域.推测CCK1基因可能参与调控C.cassiicola菌丝生长、产孢和致病性等.     

草菇MAPKKK同源基因的克隆及序列分析

根据担子菌丝裂原活化蛋白质激酶激酶激酶(MAPKKK)蛋白的保守序列设计两对简并引物,通过巢式简并PCR方法获得草菇VV-MAPKKK基因中的保守片段,然后通过和草菇基因组信息比对,获得了VV-MAPKKK基因全长序列。VV-MAPKKK基因长度为4434bp,包含4个内含子,编码1405个氨基酸残基,推定的氨基酸序列与新型隐球菌(Cryptococcus neoformans)、巴西芽生菌(Paracoccidioides brasiliensis)和异旋孢腔菌(Cochliobolus heterostrophus)的MAPKKK同源蛋白相似性分别为58%、57%和56%。对VV-MAPKKK蛋白的系统发生学分析的结果表明,VV-MAPKKK与担子菌中的Hog信号传导途径的MAPKKK同源蛋白聚在同一进化支上,这些数据都支持所获得的VV-MAPKKK为Hog-MAPKKK蛋白在草菇中的同源物的推定。     

Isolation of cDNA sequences encoding the MAP kinase HOG1 and the MAP kinase kinase PBS2 genes of the fungus Alternaria tenuissima through a genetic approach

Alternaria tenuissima is a fungus widely present in the environment and causes diseases in plants and humans in the world. In this study, we constructed an A. tenuissima cDNA expression library in a centromeric yeast vector that allows the isolation of functional cDNA sequences from this environmental and pathogenic fungus. Through a genetic approach we have isolated and functionally characterized the cDNA sequences encoding the MAP kinase (MAPK) Hog1p and the MAPK kinase Pbs2p of A. tenuissima. AtHOG1 cDNA encodes a protein of 355 amino acids, while AtPBS2 cDNA encodes a protein of 683 amino acids.     

Osmostress Induces Autophosphorylation of Hog1 via a C-Terminal Regulatory Region That Is Conserved in p38��

Many protein kinases require phosphorylation at their activation loop for induction of catalysis. Mitogen-activated protein kinases (MAPKs) are activated by a unique mode of phosphorylation, on neighboring Tyrosine and Threonine residues. Whereas many kinases obtain their activation via autophosphorylation, MAPKs are usually phosphorylated by specific, dedicated, MAPK kinases (MAP2Ks). Here we show however, that the yeast MAPK Hog1, known to be activated by the MAP2K Pbs2, is activated in pbs2Δ cells via an autophosphorylation activity that is induced by osmotic pressure. We mapped a novel domain at the Hog1 C-terminal region that inhibits this activity. Removal of this domain provides a Hog1 protein that is partially independent of MAP2K, namely, partially rescues osmostress sensitivity of pbs2Δ cells. We further mapped a short domain (7 amino acid residues long) that is critical for induction of autophosphorylation. Its removal abolishes autophosphorylation, but maintains Pbs2-mediated phosphorylation. This 7 amino acids stretch is conserved in the human p38α. Similar to the case of Hog1, it’s removal from p38α abolishes p38α’s autophosphorylation capability, but maintains, although reduces, its activation by MKK6. This study joins a few recent reports to suggest that, like many protein kinases, MAPKs are also regulated via induced autoactivation.     

Cloning of Beauveria bassiana chitinase gene Bbchit1 and its application to improve fungal strain virulence

Entomopathogenic fungi can produce a series of chitinases, some of which act synergistically with proteases to degrade insect cuticle. However, chitinase involvement in insect fungus pathogenesis has not been fully characterized. In this paper, an endochitinase, Bbchit1, was purified to homogeneity from liquid cultures of Beauveria bassiana grown in a medium containing colloidal chitin. Bbchit1 had a molecular mass of about 33 kDa and pI of 5.4. Based on the N-terminal amino acid sequence, the chitinase gene, Bbchit1, and its upstream regulatory sequence were cloned. Bbchit1 was intronless, and there was a single copy in B. bassiana. Its regulatory sequence contained putative CreA/Crel carbon catabolic repressor binding domains, which was consistent with glucose suppression of Bbchit1. At the amino acid level, Bbchit1 showed significant similarity to a Streptomyces avermitilis putative endochitinase, a Streptomyces coelicolor putative chitinase, and Trichoderma harzianum endochitinase Chit36Y. However, Bbchit1 had very low levels of identity to other chitinase genes previously isolated from entomopathogenic fungi, indicating that Bbchit1 was a novel chitinase gene from an insect-pathogenic fungus. A gpd-Bbchit1 construct, in which Bbchit1 was driven by the Aspergiullus nidulans constitutive promoter, was transformed into the genome of B. bassiana, and three transformants that overproduced Bbchit1 were obtained. Insect bioassays revealed that overproduction of Bbchit1 enhanced the virulence of B. bassiana for aphids, as indicated by significantly lower 50% lethal concentrations and 50% lethal times of the transformants compared to the values for the wild-type strain.     

金龟子绿僵菌羧基转运蛋白基因MaJEN1及其启动子的克隆与分析

用YADE法扩增了球孢白僵菌T—DNA插入突变体T12中与T—DNA左边界相连的基因组序列。在此基础上得到了金龟子绿僵菌的羧基转运蛋白的全长cDNA,MaJEN1。MaJEN1全长1695bp,其中含有长为1524bp的开放阅读框(0RF),编码508个氨基酸的蛋白。氨基酸序列与粗糙脉孢霉和啤酒酵母菌的羧基转运蛋白JEN1相似性分别为69％和31％。采用PCR扩增得到了MaJEN1的基因组序列GMaJEN1,序列分析发现,GMaJEN1含有两个内含子。Southern杂交发现GMaJEN1在金龟子绿僵菌基因组上为单拷贝。利用RT—PCR法对MaJEN1的表达特性进行了分析,结果表明MaJEN1在蟑螂壳诱导培养基中表达,在该培养基中的表达受葡糖糖抑制。进一步采用YADE法得到了长为1626bp的GMaJEN1上游序列,其中含有可能的葡萄糖抑制调控序列。     

Genetic diversity, reproductive biology, and speciation in the entomopathogenic fungus Beauveria bassiana (Balsamo) Vuillemin.

Beauveria bassiana, a mitosporic fungus used for the biological control of many insect species, is recognized as a "species complex" comprising genetically diverse lineages. Being predominantly asexual, mating tests cannot be applied to delimit species in this species complex. Genetic tests offer an indirect means of identifying species among isolates. To this end, molecular genetic analysis of a sample of B. bassiana isolates with 2 subsamples, 1 representing a worldwide collection and another from a localized epizootic population was carried out. DNA markers generated through AFLPs (amplified fragment length polymorphisms) and SSCPs (single-strand conformation poly morphisms) and nucleotide sequence data of different allelic forms of 3 genes (large and small subunits of rRNA and beta-tubulin) were evaluated. The B. bassiana isolates from the worldwide sample showed 11% overall similarity and no closely clustered groups. Phylogenetic trees generated from the AFLP and SSCP data of this sample resolved the different isolates into distinct phylogenetic lineages. In the epizootic B. bassiana population, prevalence of recombination was evident from random association of alleles in multilocus tests and lack of phylogenetic concordance among 3 gene genealogies. Thus, the worldwide sample of B. bassiana exhibits a predominantly clonal structure, hinting at species divergence leading to cryptic speciation with recombination being customary among isolates sharing a close ecological niche.     

Glycosylation defects activate filamentous growth Kss1 MAPK and inhibit osmoregulatory Hog1 MAPK

The yeast filamentous growth (FG) MAP kinase (MAPK) pathway is activated under poor nutritional conditions. We found that the FG‐specific Kss1 MAPK is activated by a combination of an O‐glycosylation defect caused by disruption of the gene encoding the protein O‐mannosyltransferase Pmt4, and an N‐glycosylation defect induced by tunicamycin. The O‐glycosylated membrane proteins Msb2 and Opy2 are both essential for activating the FG MAPK pathway, but only defective glycosylation of Msb2 activates the FG MAPK pathway. Although the osmoregulatory HOG (high osmolarity glycerol) MAPK pathway and the FG MAPK pathway share almost the entire upstream signalling machinery, osmostress activates only the HOG‐specific Hog1 MAPK. Conversely, we now show that glycosylation defects activate only Kss1, while activated Kss1 and the Ptp2 tyrosine phosphatase inhibit Hog1. In the absence of Kss1 or Ptp2, however, glycosylation defects activate Hog1. When Hog1 is activated by glycosylation defects in ptp2 mutant, Kss1 activation is suppressed by Hog1. Thus, the reciprocal inhibitory loop between Kss1 and Hog1 allows only one or the other of these MAPKs to be stably activated under various stress conditions.