玫烟色棒束孢几丁质酶的转基因球孢白僵菌菌株的获得及其对马尾松毛虫的毒力增效作用

本文根据GenBank中已登录的蜡蚧蚧霉Lecanicillium lecanii,粉棒束孢Isaria farinosa,球孢白僵菌Beauveria bassiana和金龟子绿僵菌Metarhizium anisopliae的几丁质酶基因序列的同源性比较, 以它们高度保守的核苷酸序列设计一对引物,采用RT-PCR和3′/5′-RACE相结合的方法,首次从玫烟色棒束孢Isaria fumosorosea中克隆出几丁质酶Ifuchi1全长cDNA基因。其全序列长为1 542 bp,编码阅读框由1 275个核苷酸组成, 5′非翻译区（5′-UTR）与3′非翻译区（3′-UTR）分别为33个核苷酸和234个核苷酸。基因编码424个氨基酸, 信号肽长度为24个氨基酸, 成熟蛋白理论分子量为47.6 kDa,理论等电点为4.89。该蛋白可归于几丁质酶18族V类。运用制备芽生孢子转化法将Ifuchi1基因导入球孢白僵菌。最适产酶时间36 h条件下, 挑选的转基因菌株的几丁质酶活性相对于野生型菌株提高了86.2%;在对马尾松毛虫的生物测定中,在孢子浓度为1×10⁷个孢子/mL时,与野生型菌株Bb13相比,转基因菌株的致死中时间LT₅₀平均缩短了29%,同时死亡率提高了52.9%;野生型菌株和转基因菌株致死中浓度LC₅₀分别为4.71×10⁶ 个孢子/ mL和1.74×10⁶ 个孢子/ mL,降低了约1.7倍的剂量,故通过基因工程方法获得的转基因工程菌株显著地提高了球孢白僵菌的杀虫效率。     

球孢白僵菌Bb_bm01菌株PacC基因突变体的构建及其毒力和孢子萌发率的测定

通过敲除球孢白僵菌(Beauveria bassiana)菌株bm01的PacC基因,研究了PacC基因敲除对球孢白僵菌毒力和分生孢子萌发速率的影响。利用农杆菌(Agrobacterium tumefaciens)介导的转化方法转化Bb_bm01,通过同源重组敲除Bb_bm01的PacC基因,筛选ΔPacC基因敲除菌株,获得了遗传稳定的ΔPacC基因敲除菌株。通过毒力测定,对比了野生菌株和ΔPacC基因敲除菌株对家蚕和大蜡螟毒力的差异,发现ΔPacC基因敲除菌株对家蚕和大蜡螟毒力都减弱,差异具有统计学意义(p0.01),表明在Bb_bm01菌株中的PacC基因与它的致病性相关;另外,比较ΔPacC基因敲除菌株与野生型菌株Bb_bm01在SDB液体培养基中的孢子萌发率,发现ΔPacC基因敲除菌株孢子萌发明显减慢,表明PacC基因参与调控孢子萌发。     

腺苷酸核糖基化因子BbarfA介导白僵菌孢子萌发和毒力

【目的】探究腺苷酸糖基化因子ARF在球孢白僵菌(Beauveria bassiana)中存在种类及生物学功能。【方法】利用BLASTp搜索球孢白僵菌非冗余蛋白数据库,鉴定ARF并进行聚类分析,结合表达分析、反义抑制、超量表达野生型基因和GTP解离位点与结合位点突变的基因,解析其中1个ARF与白僵菌发育分化、逆境胁迫反应和毒力的关系。【结果】球孢白僵菌中存在至少6个ARF或类似蛋白,分别聚类于酵母、人类ARF及其类似蛋白的不同类群。其中BBA_01574与人类的ARF3、ARF4和ARF5聚为一类,命名为BbarfA。BbarfA在成熟的分生孢子和球形膨大时期表达明显高于芽管伸长期。反义抑制BbarfA加速了孢子萌发,提高了菌株毒力,而超量表达BbarfA和点突变GTP解离区域的BbarfA则延迟了孢子萌发速度,降低了菌株毒力。尽管BbarfA转录受高盐、髙渗、氧化和高温胁迫的诱导,但遗传修饰的转化子与野生菌株对上述胁迫反应的敏感性无明显差异。【结论】BbarfA介导分生孢子萌发和毒力。     

变温干燥固体发酵产物对球孢白僵菌分生孢子性能的影响

[目的]评价球孢白僵菌固体发酵产物的干燥温度对产后分生孢子性能的影响.[方法]采用28℃2和35℃组合的7种恒温或变温处理干燥发酵产物,分析收获的分生孢子质量.[结果]变温干燥可显著降低产后孢子粉的杂菌污染.干燥温度对活孢率和孢子萌发速度影响不一致.35℃恒温干燥5 h后活孢率与新鲜孢子无明显差异,但萌发中时缩短了9.3%.干燥处理提高了孢子对高温和紫外辐射的耐受性.适当的变温干燥比恒温干燥有利于增强孢子抗逆性.干燥温度影响分生孢子胞内海藻糖积累,但其含量与抗逆性无直接相关性.优化干燥温度可提高产后分生孢子毒力.在370～450孢子/mm2剂量下,经28℃ 24 h后升至35℃干燥2 h或35℃恒温干燥5 h的分生孢子对桃蚜的致死中时分别比新鲜孢子缩短了10.6 h和7.5 h.[结论]球孢白僵菌固体发酵产物的干燥温度是影响产后孢子粉杂菌污染、孢子活力、抗逆性和毒力的重要因素.     

球孢白僵菌不同碳氮源的研究及对烟粉虱的时间-剂量-死亡率模型分析

【目的】明确不同碳、氮源对球孢白僵菌Beauveria bassiana生长的影响,确定适合该菌株生长的碳、氮源;通过研究球孢白僵菌对烟粉虱Bemisia tabaci的致病力,评价球孢白僵菌防治烟粉虱的潜力。【方法】在培养基中添加不同碳、氮源,研究其对球孢白僵菌生长速率和产孢量的影响,用浸叶法研究不同孢子浓度(1×10~4、1×10~5、1×10~6、1×10~7、1×10~8个/mL)的球孢白僵菌对烟粉虱的致病力并利用时间-剂量-死亡率模型对数据进行拟合,分析该模型的时间效应和剂量效应。【结果】蔗糖作为碳源、酵母作为氮源时球孢白僵菌的生长速率快和产孢量高;利用时间-剂量-死亡率模型对测定的数据进行拟合分析得出,随着接种天数的增加,球孢白僵菌的LC_(50)、LC_(90)逐渐降低,剂量效应增强;随着孢子浓度的增加,LT50逐渐降低,时间效应增强。【结论】球孢白僵菌的合适碳源为蔗糖,最适氮源为酵母。该菌株对烟粉虱有较强致病力,1×10~8个/mL的孢子浓度可作为防治烟粉虱的理想浓度,本试验为球孢白僵菌对烟粉虱的生物防治提供有力依据。     

球孢白僵菌不同分离株对西花蓟马的毒力测定

【背景】西花蓟马是我国重要的一种入侵性害虫,已对多种化学农药产生了抗性。【方法】采用孢子悬浮液喷雾处理生测法,研究了8个球孢白僵菌菌株BbKM030716、BbCG051229、BbJS080625、BbQJ031121、BbXW060615、BbSM090521、BbYY090613和BbMZ051230对西花蓟马成虫的毒力,并用＂时间—剂量—死亡率＂模型进行了分析。【结果】供试球孢白僵菌各菌株对西花蓟马成虫侵染致病的剂量效应参数值分别为1.43、0.87、0.93、0.98、1.23、0.92、1.07和0.86。用1.25×104～1.25×108个·mL-1孢子悬浮液接种后,连续10d内西花蓟马的校正死亡率分别为44.13%～98.49%、12.63%～78.90%、30.36%～96.92%、51.36%～98.74%、26.14%～98.59%、7.27%～78.71%、49.06%～98.74%和27.67%～87.36%。球孢白僵菌对西花蓟马成虫的致死剂量是时间的函数,各菌株对西花蓟马成虫的致死中时随孢子浓度的增大而逐渐减小。【结论与意义】球孢白僵菌菌株BbKM030716、BbJS080625、BbQJ031121和BbXW060615对西花蓟马成虫具有较强毒力,可作为西花蓟马生防制剂开发的潜力菌株。     

罹病棕尾别麻蝇体上白僵菌的分离、离体培养与毒力

为了有效地防治棕尾别麻蝇Boettcherisca peregrine,从罹病棕尾别麻蝇成虫上新分离出病原菌球孢白僵菌Beauveria bassiarift BBKMZW-1菌株,研究了该菌株菌落生长最适培养基为马铃薯葡萄糖琼胶培养基(PDA),最适温度范围是为20-30℃,最适pH值为7.该菌株对棕尾别麻蝇成虫的毒力测定表明:LC50值随侵染时间的延长呈下降趋势,由第4 d的1.41×1014孢子/mL降低到第9 d的4.00×105孢子/mL.不同浓度的LT50值随浓度增加而逐渐缩短,由1.07×104孢子/mL的13.70 d缩短到1.07×108孢子/mL的5.73 d.球孢白僵菌BBKMZW-1菌株是一种对棕尾别麻蝇成虫具有潜在防治作用的病原菌.     

球孢白僵菌九个菌株对赤拟谷盗成虫的毒效

球孢白僵菌Beauveria bassiana (Balsamo) Vuillemin是最重要的昆虫病原真菌,广泛用于防治世界各地的多种害虫.本研究评价了球孢白僵菌9个菌株对赤拟谷盗Tribolium castaneum (Herbst)成虫的致病性.将15头赤拟谷盗成虫浸入到4个浓度(1×106,l×107,l×lo8和l×109个分生孢子/mL)的白僵菌菌株中20 s,14 d内每日记录成虫的死亡率.结果表明:IRAN 440C菌株对赤拟谷盗成虫的LC50最低(5.04 ×l07个分生孢子/mL),IRAN187C菌株的最高(5.05 ×lo8个分生孢子/mL);DEBI 005菌株对赤拟谷盗成虫的LT5o最短(2.88 d),DEBI 014菌株的最长(4.96 d).根据LC50,LT50和死亡率结果得出IRAN 440C是防治这一害虫的理想菌株.     

发酵过程中球孢白僵菌As69的生长特征与甾体11a羟化活性的关系

本文报直球孢白僵菌在摇瓶、发酵罐的不同培养条件过程中,通过分生孢子、芽生孢子、节生孢子、内生孢子和菌丝体断裂等方式进行无性繁殖。它的生活史属多孢类型,在不同的培养条件下,孢子生殖的类型也不同。在斜面上是产分生孢子,在液体发酵中是以芽生孢子为主,还有部份类似分生孢子的内生孢子。根据白僵菌在发酵过程中细胞的分化规律我们设计出球孢白僵菌对甾体化合物Reichstein’s转化发酵规律,获得转化的最佳效果。     

昆虫病原真菌长孢蜡蚧菌TF-2菌株对豌豆蚜的侵染过程和致病力

【目的】豌豆蚜Acyrthosiphon pisum是世界性的重要农业害虫,给豆类作物造成巨大的经济损失。本研究在前期筛选已获得豌豆蚜致病菌长孢蜡蚧菌Lecanicillium longisporum TF-2菌株的基础上,检测了该致病菌分生孢子对豌豆蚜的毒力效用及侵染方式,以期为利用昆虫病原真菌防治豌豆蚜提供理论基础。【方法】采用离体叶片饲养法检测在不同浓度长孢蜡蚧菌TF-2菌株孢子悬浮液(1.0×10~3～1.0×10~7孢子/mL)中浸渍后对豌豆蚜成虫的致病力;应用扫描电镜和体视显微镜观察豌豆蚜成虫接种TF-2菌株(1.0×10~7孢子/mL)后长孢蜡蚧菌TF-2菌株侵染症状和侵染过程。【结果】不同浓度长孢蜡蚧菌TF-2菌株分生孢子浸染豌豆蚜成虫致病力随分生孢子浓度升高而逐渐增强,侵染后6 d对豌豆蚜成虫的半致死浓度(LC_(50))为3.26×10~4孢子/mL,最高浓度分生孢子(1.0×10~7孢子/mL)对豌豆蚜成虫的半致死时间(LT_(50))为2.92 d。扫描电镜观察结果表明,接种后24 h,TF-2菌株分生孢子在豌豆蚜成虫体表皮萌发形成芽管和附着胞;接种后48 h,芽管伸长在复眼、触角基部、足基节、腹末生殖节等部位形成网络结构;接种后96 h,菌丝布满整个虫体,新的分生孢子产生。【结论】长孢蜡蚧菌TF-2菌株对豌豆蚜成虫具有较强的致病力,扫描电镜观察揭示了其分生孢子在其虫体上的侵染过程,结果为进一步应用昆虫病原真菌进行生物防治提供理论基础和参考依据。     

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。     

Cloning of a cuticle-degrading protease from the entomopathogenic fungus, Beauveria bassiana

Abstract A Beauveria bassiana extracellular subtilisin-like serine endoprotease is a potential virulence factor by virtue of its activity against insect cuticles. A cDNA clone of the protease was isolated from mycelia of B. bassiana grown on cuticle/chitin cultures. The amino acid sequence of this gene was compared to that of Metarhizium anisopliae Pr1, the only pathogenicity determinant so far described from an entomopathogenic fungus, and proteinase K, isolated from Tritirachium album , a saprophytic fungus. The cDNA sequence revealed that B. bassiana Prl is synthesized as a large precursor ( M _r 37 460) containing a signal peptide, a propeptide and the mature protein predicted to have an M _r of 26 832.     

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.     

Molecular investigation on strain genetic relatedness and population structure of Beauveria bassiana

Triplicate molecular methods, i.e. polymerase chain reaction-restriction fragment length polymorphism of the pr1 gene, microsatellite markers and 28S rDNA haplotyping by detecting the presence or absence of group I introns, were used for population study of the entomopathogenic fungus, Beauveria bassiana. The findings showed that the average genetic diversity index of geographical populations was significantly smaller than that of populations derived from insect host orders, indicating that the genetic relatedness of B. bassiana strains was highly associated with geographical locality rather than insect host species. The reproductive style of all the B. bassiana populations was found to be non-clonal. Population structure analysis revealed that the average divergent coefficient among populations of B. bassiana was far below 1 (0.1112), which indicated that there was no significant genetic differentiation between populations, and that the overall genetic diversity mainly resulted from the genetic variations within geographical populations. Statistically, genetic distances between populations were positively correlated with geographical distances, suggesting that geographical separation poses an obstacle to the possibility and frequency of genetic exchanges between populations. On the other hand, gene flow was indirectly established to occur between B. bassiana populations.     

Up-regulation of lysozyme gene expression during metamorphosis and immune challenge of the cotton bollworm, Helicoverpa armigera

Lysozymes act as crucial bacteriolytic enzymes in insect immune system by hydrolyzing the beta (1-->4) bonds between N-acetylglucosamine and N-acetylmuramic acid in the peptidoglycan of prokaryotic cell walls. We have isolated and characterized a Helicoverpa armigera cDNA encoding an insect lysozyme named HaLyz. We amplified a fragment by PCR, using degenerate primers derived from the conservative amino acid sequences for performing 5' and 3' RACE. The full-length cDNA was 661 base pairs. The theoretical pI and molecular weight of the protein were computed to be 9.08 and 15.6 kDa, respectively. Prokaryotic expression of the HaLyz ORF by Escherichia coli confirmed the calculated molecular weight of the protein. The deduced 135 amino acids showed high homology with known lysozymes from other insects, ranging from 47% to 89% by BLASTp search in NCBI. Analyses revealed that this protein has a typical lysozyme C signature among amino acids 93-111, CNVTCAEMLLDDITKASTC. An interesting relation between immunity and larva to pupa metamorphosis in insects was discovered. Real time-PCR showed that HaLyz gene expression was transiently enhanced at the onset of metamorphosis of the cotton bollworm, Helicoverpa armigera. The gene expression was up-regulated after the injection of E. coli or entomopathogenic fungi, Beauveria bassiana, but showed different expression patterns.     

CYP52X1, representing new cytochrome P450 subfamily, displays fatty acid hydroxylase activity and contributes to virulence and growth on insect cuticular substrates in entomopathogenic fungus Beauveria bassiana

Infection of insects by the entomopathogenic fungus Beauveria bassiana proceeds via attachment and penetration of the host cuticle. The outermost epicuticular layer or waxy layer of the insect represents a structure rich in lipids including abundant amounts of hydrocarbons and fatty acids. A member of a novel cytochrome P450 subfamily, CYP52X1, implicated in fatty acid assimilation by B. bassiana was characterized. B. bassiana targeted gene knockouts lacking Bbcyp52x1 displayed reduced virulence when topically applied to Galleria mellonella, but no reduction in virulence was noted when the insect cuticle was bypassed using an intrahemoceol injection assay. No significant growth defects were noted in the mutant as compared with the wild-type parent on any lipids substrates tested including alkanes and fatty acids. Insect epicuticle germination assays, however, showed reduced germination of ΔBbcyp52x1 conidia on grasshopper wings as compared with the wild-type parent. Complementation of the gene-knock with the full-length gene restored virulence and insect epicuticle germination to wild-type levels. Heterologous expression of CYP52X1 in yeast was used to characterize the substrate specificity of the enzyme. CYP52X1 displayed the highest activity against midrange fatty acids (C12:0 and C14:0) and epoxy stearic acid, 4-8-fold lower activity against C16:0, C18:1, and C18:2, and little to no activity against C9:0 and C18:0. Analyses of the products of the C12:0 and C18:1 reactions confirmed NADPH-dependent regioselective addition of a terminal hydroxyl to the substrates (ω-hydroxylase). These data implicate CYP52X1 as contributing to the penetration of the host cuticle via facilitating the assimilation of insect epicuticle lipids.     

Increased insect virulence in Beauveria bassiana strains overexpressing an engineered chitinase

Entomopathogenic fungi are currently being used for the control of several insect pests as alternatives or supplements to chemical insecticides. Improvements in virulence and speed of kill can be achieved by understanding the mechanisms of fungal pathogenesis and genetically modifying targeted genes, thus improving the commercial efficacy of these biocontrol agents. Entomopathogenic fungi, such as Beauveria bassiana, penetrate the insect cuticle utilizing a plethora of hydrolytic enzymes, including chitinases, which are important virulence factors. Two chitinases (Bbchit1 and Bbchit2) have previously been characterized in B. bassiana, neither of which possesses chitin-binding domains. Here we report the construction and characterization of several B. bassiana hybrid chitinases where the chitinase Bbchit1 was fused to chitin-binding domains derived from plant, bacterial, or insect sources. A hybrid chitinase containing the chitin-binding domain (BmChBD) from the silkworm Bombyx mori chitinase fused to Bbchit1 showed the greatest ability to bind to chitin compared to other hybrid chitinases. This hybrid chitinase gene (Bbchit1-BmChBD) was then placed under the control of a fungal constitutive promoter (gpd-Bbchit1-BmChBD) and transformed into B. bassiana. Insect bioassays showed a 23% reduction in time to death in the transformant compared to the wild-type fungus. This transformant also showed greater virulence than another construct (gpd-Bbchit1) with the same constitutive promoter but lacking the chitin-binding domain. We utilized a strategy where genetic components of the host insect can be incorporated into the fungal pathogen in order to increase host cuticle penetration ability.