Cu(Ⅱ)促进海洋真菌Fusarium sp．ZZF51产生代谢产物二(5-丁基-2-吡啶甲酸-N1，O2)合铜(Ⅱ)的研究

从南海红树林内源真菌Fusarium sp. ZZF51的培养液中分离得到一金属络合物(1),通过波谱数据和单晶衍射数据解析其结构为二(5-丁基-2-吡啶甲酸-N1,O2)合铜(Ⅱ)。为提高其产量,研究了Cu(Ⅱ)对络合物(1)产量和菌株生长的影响,结果表明:在参与真菌Fusarium sp. ZZF51代谢活动的过程中,Cu(Ⅱ)能显著促使络合物(1)的产生,但对真菌的生长影响甚微。

交流电场与Fusarium sp.A-2耦合对博落回修复铀污染土壤的强化作用

通过盆栽试验研究了交流电场(AC)与Fusarium sp.A-2(A-2)真菌耦合对博落回(P)的生物量、富集铀(U)性能、酶活性以及根际土壤中有机酸含量、生物可利用态铀、根际微生物群落结构的影响.结果表明,在铀(U)污染土壤中,与AC+P+U、A-2+P+U和P+U相比,AC+A-2+P+U组博落回的鲜重、株高、总干重分别升高了10.67%~45.76%、26.87%~92.02%和61.99%~159.98%;总超氧化物歧化酶(T-SOD)和过氧化氢酶(CAT)含量分别提高了41.24%~133%和15.35%~63.63%;根际土壤中草酸显著增加了13.03%~157.09%;与A-2+P+U和P+U组相比,AC+A-2+P+U组土壤中生物可利用态铀分别提高了12.5%和28.57%.在AC+A-2+P+U组,植物根际土壤中存在大量的镰刀型菌(Fusarium)真菌属和酸杆菌属(Acidobacteria)等细菌菌属,且镰刀型菌属(Fusarium)占比最高,与AC+P+U、A-2+P+U、P+U和A-2+U组相比,Fusarium分别提高了16.67%、81.03%、299.23%和374.47%.AC和A-2耦合强化博落回修复铀污染土壤的可能机理包括AC提高了铀在土壤中的流动性,增加了植物根部与铀的接触,促进了铀的富集;AC刺激了博落回的生理活性,增大了博落回的生物量,提高了抗氧化酶活性,使博落回对铀的耐受性增强;AC刺激了A-2真菌和酸杆菌属(Acidobacteria)的生长,使其比例增大,从而产生大量的有机酸,与铀形成螯合物,降低了铀对植物的胁迫作用,提高了生物可利用态铀的占比,促进了博落回对铀的富集.AC与A-2真菌耦合对P修复铀污染土壤有显著的强化作用,是一种有潜在应用前景的强化方法.

海洋真菌Fusarium sp. #ZZF51的次级代谢产物二(5-丁基-2-吡啶甲酸-N1,O2)合铜(II)的抑菌抗癌活性研究

从南海红树林内源真菌Fusarium sp. #ZZF51的培养液中分离得到一金属铜络合物(1),通过波谱数据和单晶衍射数据解析其结构为:二(5-丁基-2-吡啶甲酸-N1,O2)合铜(II),它是首次从自然界中被发现.体外活性实验初步表明:络合物(1)对四种细菌(金黄色葡萄球菌、枯草芽孢杆菌、大肠埃希氏菌和肠炎沙门氏菌)和三种癌细胞(KB、KBv200、HepG2)具有较强抑制活性,前者最低抑菌浓度(M IC值)分别为12.5、25、12.5和50μg/mL,后者IC50值分别为3.54、3.68和25.12μg/mL.

除虫菊内生真菌Fusarium sp.Y2的生物学特性

从除虫菊叶中分离到1株内生镰孢菌Y2,环境和营养因子对该菌的生长繁殖和抑菌活性影响较4大.0:～在9.54～时40,菌℃丝时生,菌长丝、孢能子生形长成并和形萌成发孢均子良,最好适,最生适长繁pH殖为温5度.5。为氮30源℃以,有孢机子态的氮致为死佳温。度分为别60以℃D。-木在糖pH,山梨糖,甘露醇为碳源,以硝酸钠、甘氨酸、硫酸铵、牛肉膏和蛋白胨为氮源培养时,该菌株发酵液抑菌活性较高。

红树林内源真菌Fusarium sp.#ZZF51吸附Cu^(2+)的研究

采用生物吸附法去除废水中Cu2+,研究了南海红树林内源真菌Fusarium sp.#ZZF51吸附Cu2+的行为特性、吸附模型及吸附机理。结果表明:受试菌吸附Cu2+的吸附平衡时间为90 min,常温常压下吸附最佳pH值为6.5,Cu2+初始浓度50 mg/L,吸附时间90 min,此时受试菌对Cu2+的吸附率和吸附容量分别为82.14%和20.53 mg/g。Langmuir方程比Freundlich方程能更好地描述该受试菌对Cu2+的平衡吸附行为。通过比较受试菌吸附Cu2+前后红外光谱图得知,在吸附过程中,羟基和羰基都起着十分重要的作用。

Comparative study of <i>Fusarium oxysporum</i>f sp. <i>lycopersici</i>and <i>Meloidogyne incognita</i>race-2 on plant growth parameters of tomato

Many species of soil-inhabiting fungus Fusarium, cause severe yield loss in many crops. Experiments were conducted in net house condition with complete randomized block design to determine the individual effect of different in-oculum levels of root-knot nematode, Meloidogyne incognita, Race-2 and Fusarium oxysporum f sp. lycopersici on plant growth parameters viz., Plant length, fresh and dry weight and number of fruits of tomato var. P21. The experimental results showed that both the pathogens cause significant reduction in plant growth parameters. However, the fungus was not much effective on plant growth parameters in comparison to root-knot nematode. Greatest reduction in plant growth parameters was recorded in plants inoculated with 8000 J2/Kg soil of Meloidogyne in-cognita race 2. The threshold level of root-knot nematode was 1000 J2/kg soil while threshold level of Fusarium was @ 1 g/Kg soil. Inoculum level of Fusarium oxysporum f sp. lycopersici and Meloidogyne in-cognita race-2 was pathogenic and caused significant reduction at and above 1 g/kg soil and 1000 J2/Kg soil respectively.

利用Fusarium poae制备T-2毒素的培养条件和提取方法

比较2种不同优化方法对分离纯化梨孢镰孢菌(Fusarium poae)产生的T-2毒素的效果,并得到高纯度的T-2毒素,解决国内T-2毒素产业化问题。在优化Fusarium poae产毒培养条件的基础上,对Burmeister的提取方法和Gregory培养基进一步优化以最大限度地提高T-2毒素的产率,从而得到高纯度并且高产率的T-2毒素。目标菌株最适产毒培养基成分:NH4H2PO4 1 g,KCl 0.2 g,MgSO4.7H2O 0.2 g,葡萄糖10 g,酵母膏5g,CuSO4.5H2 O 0.005 g,ZnSO4.7H2 O 0.01 g,H2 O 1 000 mL。最佳产毒培养条件为8～25℃间隔12 h变温、前期光照后期黑暗、前期振荡后期静止的培养条件下培养28 d。在这种条件下可提高T-2毒素的产率达5倍。用丙酮氯仿进行分离,免疫亲和柱进行纯化得到高纯的T-2毒素。优化后的Burmeister提取方法提高了T-2毒素的产率。

Genetic Diversity of Fusarium solani f. sp. cucurbitae, the Causal Root and Crown Rot of Cucurbits (Melon) by Using Molecular Markers and Control

Detection of F. solani f. sp. cucurbitae causal agent of the crown and root rot disease of melon race 1, race 2 is difficult. It is based only on morphological characteristic. In this study, forty isolates identified as Fusarium solani based on morphological characterization, F. solani was one of the most frequently isolated species. Molecular identification of these isolates by PCR technique using species-specific primer, indicated that thirty-two isolates, amplified product 580 bp (race 1) and two isolate amplified product 580 bp (race 2), while six isolates were not amplified with primer of both races. Production of Trichothecenes (T2-toxen, DON.) by Fusarium solani was conducted on isolates confirmed as belonging in the F. solani by PCR. The results indicated that the presence of Tri5, Tri13 genes is coding the ability of synthesis mycotoxin. In vitro, the results indicated that NPs (AgNPs, MgNPs) and chemical (Phylex) possess the antifungal properties against at various level. Treatment with (AgNPs 150 ppm, MgNPs 2%, 3% ppm) and 3% Phylex resulted in maximum inhabitation of F. solani . In vivo, five characters (height plant, hoot ant root fresh and dry weight) were measured based on the greenhouse, field experimental results. Treatment with (AgNPs, MgNPs) and Phylex had higher measured parameters than positive control.

利用原生质体融合技术提高杂草生防菌对野燕麦的防效

选用对野燕麦有强致病力的候选优势菌株燕麦镰孢GD-2和多孢木霉HZ-31作为亲本,采用原生质体融合技术进行菌株改良,通过野燕麦种子萌发的抑制效果及温室抑草活性作用筛选出性状优异的融合子。结果表明,获得的3个性状各异的融合子进行离体生测后,融合子R2对野燕麦种子萌发的抑制效果显著高于燕麦镰孢GD-2,而与多孢木霉HZ-31的效果相当,盆栽致病力测定时融合子R1对野燕麦的鲜质量防效值高于双亲菌株,达68.03%。选用两种不同作用机制的生防菌株作为亲本进行融合,筛选获得防效优于亲本的微生物融合菌株R1。

棉花抗枯萎病相关转录因子基因的克隆与表达

以枯萎病菌诱导棉花基因表达谱中获得的差异表达bZIP作为探针,采用电子克隆结合RT-PCR方法从棉花抗枯萎病品种‘中棉所12’中克隆了1个TGA转录因子基因,命名为GhTGA2.2。序列分析表明,该基因的cDNA全长1 356bp,编码451个氨基酸,预测分子量为50.04kD,等电点为5.85,含有保守的bZIP结构域。系统进化树分析表明,GhTGA2.2属于bZIP亚家族的TGA转录因子,与拟南芥AtTGA2、烟草NtTGA2.2亲缘关系最近。qRT-PCR分析表明,经枯萎病菌诱导后,GhTGA2.2基因在抗病品种中呈上调表达,随处理后时间的推移,其相对表达量呈先升高后降低的趋势,并于处理后24h表达量达到最大;水杨酸诱导后1h,GhTGA2.2基因相对表达量迅速增加;茉莉酸和乙烯诱导后GhTGA2.2基因的相对表达量明显降低,呈下调表达。研究推测,GhTGA2.2基因可能通过水杨酸信号传导途径参与对枯萎病菌的防御反应。

一株耐铀镉真菌菌株的筛选及其耐铀镉特性的研究

从生长在铀尾矿库区的博落回的根系中,分离出了一株耐铀镉真菌菌株A-2。在固体培养基上,铀和镉对该菌株的最低抑菌浓度(MIC)为160 mg/L和160mg/L,而在液体培养基中,铀和镉对该菌株的MIC为80 mg/L和80 mg/L。经形态学观察和分子鉴定,该菌株属于镰刀菌属,其GenBank登录号为MH978624,可命名为Fusarium sp. A-2。进一步的试验研究结果表明,该菌株在铀镉胁迫下会分泌大量草酸、苹果酸和丁二酸,与铀镉络合,降低了铀镉对菌株的毒性,这可能是该菌株具有高耐铀镉性及能减轻铀镉毒害的机理之一。该菌株在土壤铀镉复合污染治理中具有潜在应用前景。

甘蓝枯萎病菌1号和2号生理小种的快速检测与鉴定

甘蓝枯萎病菌生理小种传统鉴定方法费时费力,不能满足生产的要求,因此需要建立一种快速、可靠的分子检测技术。本研究在甘蓝枯萎病菌1号和2号生理小种基因组测序的基础上,通过比较基因组学方法筛选1、2号生理小种各自的特异基因片段并设计引物,并分别以10个甘蓝枯萎病菌1号生理小种菌株、2个2号生理小种菌株、7个尖孢镰刀菌其他专化型菌株及4个外围菌株DNA为模板进行常规PCR扩增,筛选出甘蓝枯萎病菌1号和2号生理小种特异性引物,同时引入尖孢镰刀菌通用引物W106R/W106S,建立起一步三重PCR检测甘蓝枯萎病菌1、2号生理小种的分子检测技术。结果表明,该分子检测技术实现了在一次PCR反应中快速、准确地同步检测出甘蓝枯萎病菌DNA、罹病甘蓝组织和土壤中的甘蓝枯萎病菌1号和2号生理小种,对检测甘蓝植株是否感染枯萎菌及甘蓝种植区土壤是否受到枯萎菌的污染有实用价值。