棘孢木霉组合应用对杨树生长和光合特性影响

为研制复方棘孢木霉菌肥制剂,在大田条件下将等浓度（5×10³cfu·cm^-3土）不同组合的棘孢木霉（Trichoderma asperellum）分生孢子T1（Ta536+Ta4）、T2（Ta536+Ta4+Ta492）和T3（Ta536+Ta4+Ta492+Ta650）根施山新杨（Populus davidiana×P.alba var. Pyramidalis）组培移栽苗,研究棘孢木霉组合施用对山新杨生长及光合特性的影响。方差分析结果表明,诱导时间和不同处理对苗高、地径、叶绿素含量、叶绿素a/b值、P_n、Cond、C_i和T_r均有显著影响（P<0.05）：处理组的山新杨苗高、地径及干物质量均在不同程度上高于对照组（CK）,作用效果为T3 >T2 >T1 >CK;60d时,T3、T2和T1组杨树苗生物量分别比CK增加17.99%、14.28%和10.54%;15d时叶绿素含量比CK分别提高7.79%,6.91%和4.17%;叶绿素a/b值分别比CK提高7.79%、5.84%和4.73%。此外,处理组净光合速率（P_n）、胞间CO₂浓度（C_i）、气孔导度（Cond）、蒸腾速率（T_r）均高于CK,并且处理组的最大净光合速率、表观量子效率以及光饱和点均高于CK。同时,诱导时间和不同处理的交互作用对检测的多数指标（除P_n和C_i外）均具有显著影响（P<0.05）。说明4个棘孢木霉菌株组合施用具有协同作用,能提高菌株对环境条件的适应性,增强促生长和改善光合的作用效果。并且T3组对山新杨苗的影响最大、作用速度最快。     

棘孢木霉嗜铁素sidA基因敲除及表型分析

明确棘孢木霉菌Trichoderma asperellum嗜铁素合成的关键基因,能够为进一步探索嗜铁素在生防和促生中的作用奠定基础。本研究在对sidA基因进行定位、结构分析和RT-PCR检测的基础上,利用double-joint PCR技术构建基因敲除载体,经聚乙二醇（PEG）介导原生质体转化、潮霉素初筛、PCR和southern blot验证获得突变株,并对其表型进行分析,获得2株性能稳定的敲除突变体?sidA1和?sidA2。与野生型相比,?sidA1和?sidA2的嗜铁素产量在5d时分别下降了38.67%和36.65%;孢子萌发率在12h时分别下降了45.33%和47.47%;产孢量在10d时分别下降了33.01%和41.02%,且突变株在受NaCl、KCl、SDS等胁迫时的抗性较野生型降低。表明sidA基因的缺失降低了嗜铁素产量,抑制了菌体的生长以及对胁迫因子的抗性,sidA基因是影响棘孢木霉嗜铁素产生的关键基因之一。     

棘孢木霉木聚糖酶Ⅰ基因和启动子克隆与分析

目的:克隆及分析棘孢木霉木聚糖酶Ⅰ结构基因和上游调控区,以获得内源启动子.方法:根据木霉属木聚糖酶Ⅰ结构基因及上游调控区的保守性,以棘孢木霉基因组DNA为模板,进行简并PCR扩增.产物纯化并克隆至T载体,经酶切鉴定后讲行序列分析.结果:扩增获得1.2 kb的片段,酶切鉴定及序列分析表明,该片段长1 265 bp,由753 bp的木聚糖酶Ⅰ结构基因和512 bp的上游调控区组成.结构基因编码230个氨基酸,具有糖基水解酶第11家族的典型保守区域.上游调控区具备核心启动子和转录起始点,有CAAT-Box、TATA-Box等启动子特征元件,分析其还有Cre Ⅰ、XlnR、Acel、AreA等多个转录因子结合位点.结论:克隆的512 bp上游调控区是典型的丝状真菌基因启动子,可作为内源启动子用于构建棘孢木霉高效外源基因表达系统.     

棘孢木霉糖苷水解酶3基因家族的生物信息学及表达模式分析

【背景】糖苷水解酶(glycoside hydrolase, GH) 3基因家族成员主要编码胞外β-葡萄糖苷酶,是纤维素降解中的关键酶。【目的】鉴定棘孢木霉GH3基因家族成员,探究其在纤维素降解过程中转录水平的表达模式。【方法】通过生物信息学方法对棘孢木霉GH3基因家族成员进行鉴定,对其基因结构、系统进化、蛋白理化性质、亚细胞定位及蛋白质三级结构进行分析,并采用荧光定量PCR技术对纤维素诱导下转录水平的表达模式进行综合分析。【结果】棘孢木霉基因组共鉴定到16个GH3基因家族成员,含有1-8个外显子,编码蛋白质长度为533-934个氨基酸,分子量为57.82-101.91 kDa,大多数为胞外蛋白。系统发育表明,该基因家族成员可分为4组,与里氏木霉的相似性较高。基因表达模式分析表明,纤维素诱导下,16个GH3基因均有表达,但不同成员在转录水平的表达存在差异。其中,1个基因呈组成型表达,2个基因表达下调,13个基因表达上调。棘孢木霉的胞外β-葡萄糖苷酶活力在纤维素诱导下明显提升,与GH3基因家族成员在转录水平的整体表达模式相一致。【结论】棘孢木霉基因组共包含16个GH3基因家族成员,而且多...     

非生物胁迫因子对棘孢木霉嗜铁素及钙调磷酸酶基因表达的影响

木霉菌(Trichoderma spp.)嗜铁素具有吸收、贮存和胞内运输铁的功能,对菌体自身的生长发育有重要作用,也是重要的生防促生因子,但嗜铁素的产量会受到环境中多种胁迫因子的影响。真菌的钙调磷酸酶基因能够调控外源离子的胁迫反应,但钙调磷酸酶信号通路与嗜铁素合成之间的关系并不明确。以棘孢木霉菌(Trichoderma asperellum)T6为材料,研究了NaCl、CaCl_2及pH对棘孢木霉菌T6嗜铁素产量以及嗜铁素合成关键基因(SidA)与钙调磷酸酶催化亚基基因(CnA)表达量的影响。结果表明,高浓度NaCl和CaCl_2以及高pH均能抑制嗜铁素的产生。利用半定量PCR分析得知,CnA基因与SidA基因之间存在一定的负调控关系,该结果与钙调磷酸酶专性抑制剂环孢菌素A能够提高嗜铁素产量的结果相一致。     

棘孢木霉丝裂原活化蛋白激酶基因task1的克隆及序列分析

为深入研究丝裂原活化蛋白激酶(Mitogen-activated protein kinase,MAPK)的功能,从棘孢木霉(Tricho-derma asperellum)中克隆了丝裂原活化蛋白激酶(MAPK)基因task1,并对其序列进行分析。该基因编码355个氨基酸,全长1 757 bp,理论分子质量41.1 kD,理论等电点为6.64,与深绿木霉(T.atroviride)MAPK基因tmk1、里氏木霉(T.reesei)MAPK基因tmkA和绿色木霉(T.virens)MAPK基因tmkA在氨基酸和核苷酸水平上同源性都很高,蛋白结构预测为丝氨酸/苏氨酸蛋白激酶。     

高温胁迫对刺芹侧耳菌丝生长及其抗棘孢木霉能力的影响

耐高温性是食用菌抗逆性评价的重要指标。选取5个刺芹侧耳菌株为材料,通过观测常温培养和高温胁迫后恢复培养菌落的生长速率、生长势、恢复生长时间、菌丝显微形态特征以及受棘孢木霉侵染情况,研究高温胁迫对刺芹侧耳菌丝生长及其抗棘孢木霉侵染能力的影响。结果表明,刺芹侧耳不同菌株对高温胁迫的响应存在差异。供试PDA培养的菌丝经高温胁迫(37℃,2d)后,菌丝恢复生长时间2–3d,生长势变壮或无变化,顶端菌丝细胞长度、直径、菌丝体分支频率和菌丝生长速率等均呈现不同程度的降低。菌丝生长速率变化与其抗棘孢木霉能力的下降呈正相关。在此基础上,模拟生产试验发现,长满菌丝的菌棒经高温胁迫(35℃,7d)后,接种棘孢木霉菌丝的侵染率变为100%,接种棘孢木霉孢子的侵染率变为30%;未经高温胁迫的菌棒,接种棘孢木霉孢子/菌丝,未发生侵染。本研究表明,高温胁迫导致刺芹侧耳菌丝抗棘孢木霉侵染能力的下降。本研究将为科学指导食用菌菌种繁育、菌棒生产提供数据支撑,为食用菌育种提供基础数据。     

棘孢木霉菌对钠胁迫的生理响应机制

[背景]棘孢木霉菌制剂被广泛应用于生物防治和次生盐渍化土壤的微生物修复,但是关于棘孢木霉在盐渍化胁迫条件下生长的耐盐机理及其富集盐离子的能力尚缺乏深入研究.[目的]揭示一株耐盐棘孢木霉菌(Trichoderma asperellum)CTCCSJ-W-SBW10264(T264)对钠胁迫的生理响应机制及其对钠离子的吸附...     

棘孢木霉几丁质酶tachi2 基因的原核表达及酶学性质研究

目的:实现棘孢木霉(Trichoderma asperellum)几丁质酶基因tachi2的原核高效表达,研究几丁质酶Tachi2的酶学性质.方法:利用PCR技术扩增得到几丁质酶基因tachi2,将其克隆到原核表达载体pEHISTEV中,测序后,转化大肠杆菌BL21感受态细胞,经异丙基硫代-β-D-半乳糖苷(IPTG)诱导后进行Tachi2蛋白的纯化和复性.用纯化的目的蛋白Tachi2进行几丁质酶酶学性质的研究.结果:tachi2基因在重组大肠杆菌中正确表达,其主要以包涵体形式存在;重组蛋白Tachi2分子量约为44kDa,经过纯化和复性后得到的Tachi2有较高的几丁质酶活性.该酶的最适温度为40℃,最适pH值为7.0,几丁质酶在40℃以下比较稳定、pH 6～9时酶有较高活性,受Cu2和Zn2+的强烈抑制.结论:成功实现了棘孢木霉几丁质酶基因tachi2的原核高效表达,表达纯化了重组蛋白,明确了几丁质酶Tachi2的酶学性质,为该几丁质酶的进一步开发利用和深入研究奠定了基础.     

棘孢木霉挥发性次级代谢产物检测及抑菌活性分析

木霉是一类具有重要生防价值的丝状真菌。文中首先对分离自浙江省绍兴市和广东省佛山市共12株棘孢木霉Trichoderma asperellum进行平板拮抗评价,然后采用顶空固相微萃取气质联用法(HS-SPME-GC-MS)检测拮抗性较好的两株菌的挥发性次级代谢产物。结果表明,棘孢木霉ZJSX5003和GDFS1009菌丝生长迅速,对尖孢镰孢菌Fusariumoxysporum抑制率分别达73%和74%。挥发性次级代谢产物主要是醇类和酮类,其中包含异丁醇、异戊醇、3-甲基-3-丁烯-1-醇、3-羟基-2-丁酮、2,3-丁二醇和6-正戊基-2H-吡喃-2-酮(6-PAP)。进一步通过体外抑菌试验,证实6-PAP具有较好的抑制尖孢镰孢菌的效果,为开发以木霉菌代谢产物如6-PAP为主要成分的生防制剂提供指导。     

Development and evaluation of Trichoderma asperellum preparation for control of sheath blight of rice (Oryza sativa L.)

Sheath blight, which is caused by Rhizoctonia solani, is a disease that majorly impacts rice production. A biocontrol agent used for control rice sheath blight must be sprayed on the stem at specific times during rice growth, a process that is labour-intensive and renders the antagonist vulnerable to environmental factors. In this study, Trichoderma asperellum T12 was used to produce preparation by solid-state fermentation using a surface-response method. Rice hull was selected as a carrier based on its ability to sustain the T12 floating in the water and protect T12 from ultraviolet irradiation. The production of a T12-based preparation required 32% wheat bran, 7% inoculum, 2.3 g kg^?1 (NH₄)₂SO₄ and 65% water content, with fermentation at 27.5°C for 30 days and agitation every six days. The preparation demonstrated 90% biocontrol efficacy and significantly (P > 0.05) increased the seed-set rate and 1000-grain weight as compared with the pathogen treatment. The population of Trichoderma on the surface of rice leaf sheath in the treatment applied with T12 preparation increased from 232 cfu (colony forming units) g^?1 fw (fresh weight) to 436 cfu g^?1 fw during rice growth stage, which was significantly (P > 0.05) higher than pathogen treatment. The population of R. solani on the leaf sheath increased from 41 cfu g^?1 fw to 271 cfu g^?1 fw in the pathogen treatment, while remained stable (P > 0.05) at level of 10–23 cfu g^?1 fw in T12 preparation applied treatment. Biocontrol of sheath blight by the addition of the preparation to the soil is effective and decreases the costs of agro-industrial waste disposal.     

Biological control of rice sheath blight in India: Lack of correlation between chitinase production by bacterial antagonists and sheath blight suppression

Bacterial antagonists of both fluorescent and nonfluorescent groups were screened for in-vitro inhibition of the rice sheath blight (ShB) fungus Rhizoctonai solani Kuhn and chitinase production in the laboratory. Twelve percent of the total 1,757 strains screened inhibited R. solani while 31% of the total 1,366 strains tested were positive for chitinase activity. The efficient strains were then evaluated in the field for ShB suppression. Two strains from each of the three seed-bed experiments were chosen for the field test in a hot-spot location. Additional treatments were a Bacillus and validamycin, the fungicide. There was no correlation between chitinase activity in the antagonists and ShB suppression in the seed-bed or field plots. Two most efficient Pseudomonas putida and P. fluorescens strains afforded 68 and 52% ShB suppression while validamycin afforded 27% disease control.     

Influence of soil factors and cultural practice on biological control of sheath blight of rice with antagonistic bacteria

Fluorescent and nonfluorescent strains of bacteria isolated from rice rhizospheres on the International Rice Research Institute (IRRI) farm were evaluated for in vitro antibiosis towards the sheath blight (ShB) pathogen Rhizoctonia solani, and for suppression of ShB in detached rice leaves. Efficient strains were located on the basis of consistent performance in two laboratory tests. Among nine efficient strains, 3 strains were identified as Pseudomonas fluorescens, 5 strains were tentatively identified as Bacillus spp. and one strain was identified as Enterobacter. In three greenhouse tests lowland rice soils with optimum pH for rice growth (pH 5.5–6.5), acidic pH (pH 5.0) and boron toxicity were found more suitable for biological control of ShB and, less frequently, also yield increases than were alkaline (pH 6.9) and zinc-deficient soils. Bacterial treatments afforded significant ShB reductions in 3 field experiments, but no significant yield increases resulted. In direct-seeded rice best performances by bacterial treatments in terms of ShB suppression were 66 and 98% during DS 1988 and WS 1988, respectively, which were comparable to or better than the performance of validamycin (a fungicide routinely used for ShB control) which afforded 42 and 63% disease suppression, respectively, in the same experiments. Although bacterial treatments caused ShB reductions both in direct-seeded and transplanted rice crops, disease control was more pronounced in direct-seeded than in transplanted crops. These results indicate that carefully selected strains of bacterial antagonists have the potential for ShB suppression in rice at least in areas where direct-seeding is practised.     

Potential of Serratia marcescens strain B2 for biological control of rice sheath blight

Serratia marcescens strain B2 inhibited mycelial growth of the rice sheath blight pathogen Rhizoctonia solani AG-1 IA. Rice plants were treated with bacterial suspension and then challenge inoculated with the pathogen. Application of S. marcescens effectively reduced the incidence of sheath blight. S. marcescens survived in soil under glasshouse conditions at ca. 10⁸ colony forming units g^-1 of soil for 4 weeks after application. These results suggest that S. marcescens has potential as an effective and persistent biological control agent for rice sheath blight.     

Efficacy of combined application of Trichoderma asperellum NG T158, Aloe vera leaf extract and poultry manure for the management of Colletotrichum lindemuthianum causing anthracnose disease on cowpea

Anthracnose disease is a major constraint for the production of cowpea, accounting for significant yield losses in Nigeria. Trials were conducted in 2016 and 2017 to evaluate an integrated approach in the management of anthracnose disease on cowpea. The experiment was conducted in a screenhouse with ten treatments and three replications in a completely randomised design using a susceptible cowpea variety IT07K-298-9. Ten varieties of cowpea were evaluated for seed-to-plant transmission of pathogen with respect to disease incidence, severity, and yield. The highest yield of 12–14 pods per plant was observed in treatment of Trichoderma asperellum and poultry manure combined. Seed treatments using T. asperellum and soil amendment with poultry manure had a significantly (P?=?0.05) lower disease incidence of 8.4–10.5%. This study showed the potential of combining naturally occurring organic products in the ecosystem that compete favourably with synthetic fungicides in the management of anthracnose disease of cowpea.     

Response surface methodology study of the combined effects of temperature, pH, and aw on the growth rate of Trichoderma asperellum

AIMS: To evaluate the influence of environmental parameters (water activity aw, temperature, and pH) on the radial growth rate of Trichoderma asperellum (strains PR10, PR11, PR12, and 659-7), an antagonist of Phytophthora megakarya, the causal agent of cocoa black pod disease. METHODS AND RESULTS: The radial growth of four strains of T. asperellum was monitored for 30 days on modified PDA medium. Six levels of aw (0.995, 0.980, 0.960, 0.930, 0.910, and 0.880) were combined with three values of pH (4.5, 6.5, and 8.5) and three incubation temperatures (20, 25, and 30 degrees C). Whatever the strain, mycelial growth rate was optimal at aw between 0.995 and 0.980, independently of the temperature and pH. Each strain appeared to be very sensitive to aw reduction. In addition, all four strains were able to grow at all temperatures and pH values (4.5-8.5) tested, highest growth rate being observed at 30 degrees C and at pH 4.5-6.5. The use of response surface methodology to model the combined effects of aw, temperature, and pH on the radial growth rate of the T. asperellum strains confirmed the observed results. In our model, growth of the T. asperellum strains showed a greater dependence on aw than on temperature or pH under in vitro conditions. CONCLUSION: aw is a crucial environmental factor. Low aw can prevent growth of T. asperellum strains under some conditions. The observed and predicted radial growth rate of strain PR11 showed its greater capacity to support low aw (0.93) as compared with other tested strains at 20 degrees C. This is in agreement with its better protective level when applied in medium-scale trials on cocoa plantations. SIGNIFICANCE AND IMPACT OF THE STUDY: This study should contribute towards improving the biocontrol efficacy of T. asperellum strains used against P. megakarya. Integrated into a broader study of the impact of environmental factors on the biocontrol agent-pathogen system, this work should help to build a more rational control strategy, possibly involving the use of a compatible adjuvant protecting T. asperellum against desiccation.     

Randomly amplified polymorphic DNA fingerprinting identifies subgroups of Trichoderma viride and other Trichoderma sp. capable of chestnut blight biocontrol

Abstract Eleven strains of Trichoderma viride , 2 strains of the putative teleomorph Hypocrea rufa and 9 of several other Trichoderma sp. were characterized by random polymorphic DNA amplification (RAPD) fingerprinting and screened for their ability to antagonize growth of European strains of the chestnut blight causing fungus Cryphonectria parasitica , using a dual-culture assay. The best strains were found in the species T. harzianum, T. parceramosum , a distinguishable subgroup of T. viride and a not named Trichoderma sp. The successful application of these strains against chestnut blight in vivo is demonstrated.     

湿地稻-鸭复合系统中水稻纹枯病的变化规律

为了探明稻田养鸭对水稻纹枯病的发生、发展的影响 ,为稻 -鸭复合系统中水稻纹枯病的防治提供依据 ,笔者在中稻、晚稻田进行了稻田养鸭试验。试验结果表明 ,在中稻田每 6 6 6 .7m2 放养体重 15 0 g左右鸭子 15～ 2 0只 ,能使纹枯病病蔸率减少5 6 .0 % ,病株率减少 5 7.74 % ,同时比用井岗霉素防治的小区病蔸率下降 9.0 % ,病株率下降 15 .2 5 % ,病情指数比空白对照下降2 6 .4 6 ,比施用井岗霉素的施药区减少 0 .95 ;防治效果显著 ,基本可控制纹枯病的危害     

玉米转录因子WRKY76克隆及抗纹枯病表达模式分析

玉米纹枯病是影响玉米产量和品质的重要病害之一。转录因子WRKY家族部分成员能够调控水杨酸和茉莉酸甲酯信号传递方式来激发防卫反应基因的表达。在NCBI上检索玉米中WRKY家族成员及拟南芥中抗病相关的WRKY家族成员,利用CLUSTAL X和MEGA5.05构建系统进化树,发现转录因子WRKY76可能参与玉米抗纹枯病的调控途径。该研究以玉米抗纹枯病材料R15和感病材料Ye478为对象,在玉米拔节期接种立枯丝核菌AG1-IA,首先分别于接菌前(对照)和接菌后1、2、4、6、12、24 h取叶鞘;然后分别进行水杨酸和茉莉酸甲酯胁迫处理,分别于处理前(对照)和处理后1、2、4、6、12 h取叶鞘,提取RNA,实时荧光定量PCR分析WRKY76转录因子基因在玉米叶鞘组织中不同胁迫条件下的差异表达。结果表明:在立枯丝核菌AG1-IA胁迫下,WRKY76转录因子基因在胁迫后1 h表达量达最大值,抗病材料R15的相对表达量高于感病材料Ye478且差异显著(P≤0.05);经水杨酸(Salicylic Acid,SA)处理,WRKY76在抗感材料中表达趋势相似,在感病材料掖478中,WRKY76被诱导而显著地上调表达,在抗病材料中,相对表达量峰值出现在胁迫后4 h,且相对表达量低于感病材料掖478。经茉莉酸甲酯(Methyl jasmine,Me JA)处理,WRKY76基因在感病材料中呈现下调表达趋势。WRKY76基因在1 h表达量为对照的0.6倍,其他调查时间点基本都在0.1~0.3之间。在抗病材料R15中,WRKY76基因表达呈现上升趋势,变化趋势不明显。这表明WRKY76转录因子基因能够被病原物、SA、Me JA诱导表达,可能参与植物抗纹枯病调控途径。