多噬伯克霍尔德氏菌WS-FJ9对林木病原菌物的拮抗作用及代谢产物的稳定性

【背景】伯克霍尔德氏菌(Burkholderia)是一类重要的植物根际促生细菌,许多菌株具有抑制植物病原菌生长和促进植物生长等功能。【目的】探究高效解磷促生细菌多噬伯克霍尔德氏菌(B. multivorans) WS-FJ9对不同林木病原菌物的抑菌作用。【方法】采用平板对峙法检测菌株WS-FJ9对5株林木病原真菌和卵菌的抑制效果;基于比色法检测经菌株WS-FJ9处理后病原菌菌丝细胞内含物的变化;使用antiSMASH 5.0在线预测网站对其次生代谢物质进行预测;通过菌丝生长抑制速率法对其无菌发酵滤液的抑菌活性和稳定性进行研究。【结果】菌株WS-FJ9对5种林木病原菌均具有不同程度的抑制作用,其中菌悬液对樟疫霉(Phytophthora cinnamomi)的抑制作用最好,抑菌带宽度为14.82±0.20mm,无菌发酵滤液对真菌拟茎点霉(Phomopsismacrospore)和松杉球壳孢(Sphaeropsis sapinea)的抑制效果显著,抑菌率分别为62.22%和62.78%;经无菌发酵滤液处理后的病原菌菌丝内的丙二醛含量增高,还原糖和可溶性蛋白含量显著降低。WS-FJ9菌株的基因组中含27个不同的次级代谢产物编码基因簇,其中包含编码嗜铁素、细菌素和抗生素等抑菌基因簇;该菌株发酵液在高温、紫外照射和强酸强碱环境条件下及经蛋白酶处理后,其抑菌活性均未受到影响。【结论】多噬伯克霍尔德氏菌WS-FJ9对林木病原菌物具有很好的生防潜力。     

附子白绢病菌拮抗菌的鉴定、发酵条件优化及抑菌效果

【背景】附子白绢病是由齐整小核菌(Sclerotiumrolfsii)引起的一种土传细菌性病害,该病原菌严重影响附子的生产。【目的】筛选出对附子白绢病具有生防效果的菌株,并将其用于病害防治。【方法】利用平板涂布法和划线法从黄粉虫蛹体分离菌株,平板对峙法筛选对齐整小核菌具有较强拮抗能力的菌株,通过形态学观察、生理生化试验、16S rRNA基因测序分析确定其分类地位;以单因素试验对发酵条件进行优化,并初步测定拮抗菌的菌悬液、挥发性气体和发酵液对齐整小核菌菌丝的抑制效果。【结果】筛选出的拮抗菌株将其编号为N2,初步鉴定为暹罗芽孢杆菌(Bacillus siamensis);菌株N2最佳培养基配方(g/L)：胰蛋白胨10.0,酵母浸粉5.0,蔗糖20.0;最佳培养条件：初始pH 6.0,温度36℃,转速240 r/min,装液量30 mL,接菌量0.05%;其菌悬液、挥发性气体和发酵液均能有效抑制白绢病菌菌丝的生长;胞外酶测定结果显示该菌株可产生蛋白酶和纤维素酶,不产嗜铁素。【结论】菌株N2对附子白绢病具有较好的抑制效果,在生物防治中具有较好的应用潜力和较高的研究价值。     

茄子青枯病拮抗放线菌XL-6的筛选、鉴定及发酵条件优化

【背景】茄子青枯病是一种毁灭性的土传病害,生产上化学农药无法对其有效防治。拮抗放线菌具有环保、无残留的优点,并已在植物多种病害上成功应用,这为茄子青枯病的生物防治提供了思路。【目的】从健康茄子根际分离获得对茄子青枯菌有显著拮抗作用的放线菌菌株。【方法】采用稀释涂布法分离放线菌;采用双层琼脂法、琼脂扩散法和平板对峙法筛选拮抗菌株;对目标菌株XL-6的形态、培养特征、生理生化特征及16S rRNA基因序列进行综合分析;通过单因素试验和正交设计试验优化目标菌株培养基组分及发酵条件。【结果】筛选得到一株对青枯菌有强抑制作用的放线菌菌株XL-6,它对其他3种病原菌均具有一定的抑制作用。菌株XL-6的形态和培养特征、生理生化特征与娄彻氏链霉菌相符,而且16S rRNA基因序列分析表明该菌株与娄彻氏链霉菌亲缘关系较近。该菌株最优发酵配方和培养条件分别为:玉米粉30.0 g/L、酵母粉5.0 g/L、K_2HPO_4 2.0 g/L、MgCl_2 2.0 g/L和NaCl 1.0 g/L;初始pH 7.0、培养基装瓶量70 mL/250 mL、摇床转速180 r/min、接种量6%,在28°C条件下培养6 d。【结论】菌株XL-6经鉴定为娄彻氏链霉菌,优化其发酵条件后对青枯菌具有更强的拮抗效果。     

一株红景天内生细菌的筛选及初步研究

【目的】从红景天根部筛选并鉴定一株产酪醇的细菌,初步研究其产酪醇特性,为寻找红景天替代资源提供新途径。【方法】用NA培养基从大花红景天根部中分离内生细菌,通过薄层层析(TLC)、高效液相色谱(HPLC)、气相色谱-质谱联用(GC-MS)筛选出产量最大的菌株,经菌落形态分析、革兰氏染色分析及16S rRNA基因序列分析其分类学地位。单因素实验确定初始pH、培养温度、发酵时间及接种量对菌株产酪醇活力的影响。【结果】从大花红景天根部分离出14株内生细菌,其中8株能产酪醇,筛选出酪醇产量最大的菌株B3,经菌落形态分析、革兰氏染色分析及16S rRNA基因序列分析初步鉴定为水生拉恩氏菌(Rahnella aquatilis)。研究其发酵条件,其最适pH为6.0,最适温度为32 °C,最佳发酵时间为42 h,最佳接种量为15%。在最适发酵条件下,用改良NA培养基发酵,B3菌株酪醇的产量为15.68 mg/L。【结论】B3菌株是一株具有产酪醇能力的细菌,在最适发酵条件下酪醇产量达到15.68 mg/L,具有潜在的开发价值。     

一株产嗜铁素耐镉菌的分离及其对黑麦草种子萌发的作用

【背景】产嗜铁素细菌(Siderophore-ProducingBacteria,SPB)是一类耐重金属性能较好的促生微生物,将其应用于土壤重金属污染修复方面的研究已成为该领域的研究热点。【目标】为重金属镉污染土壤修复提供种质资源,并探究产嗜铁素细菌对Cd~(2+)胁迫下黑麦草种子萌发的影响。【方法】采用微生物分离纯化技术,从甘肃省临泽县宏鑫矿业尾矿区采集土壤样品,分离筛选出一株能够产嗜铁素且耐镉胁迫的菌株,采用16SrRNA基因序列鉴定该菌株,并测定其嗜铁素螯合基团结构类型及生长和产嗜铁素曲线,对菌株嗜铁素分离纯化后测定其荧光强度并进行紫外光谱扫描,最后探究嗜铁素及其产生菌对Cd~(2+)胁迫下黑麦草种子萌发的影响。【结果】经鉴定该菌为假单胞菌属(Pseudomonassp.W-STS-8),能产生一种黄绿色嗜铁素——脓菌素(Pyoverdine),该嗜铁素同时具有异羟肟酸型和儿茶酚型2种螯合结构;其嗜铁素产量在菌株生长稳定期的后期达到最大值(68%),而且嗜铁素产量与菌株生物量呈正相关。嗜铁素经分离纯化后,在紫外灯(254 nm)下可见荧光,在400 nm处具有紫外光谱特征吸收峰。该菌及其嗜铁素对Cd~(2+)胁迫下黑麦草种子萌发实验结果表明,与对照相比,经W-STS-8菌悬液和嗜铁素处理后黑麦草种子发芽率显著上升,分别提高了73.14%和150.92%。【结论】对该菌株的深入研究,可为重金属镉污染土壤的微生物-植物联合修复的生态修复工程提供种质资源和科学基础。     

番茄内生菌的分离鉴定及菌株FQ-G3抗病促生特性

由灰葡萄孢(Botrytis cinerea)引起的灰霉病是番茄生产中最重要的病害之一,当前使用的杀菌剂因药物残留、病原菌抗药性及食品安全等原因逐渐受到限制。因此,利用拮抗微生物的生物防治逐渐成为灰霉病防控的有效策略。【目的】从番茄植株体内筛选具有抗病促生特性内生菌株并对其生防潜力进行评估,为开发番茄灰霉病生物防治新策略提供理论依据。【方法】采用组织分离法在番茄植株不同部位分离出内生细菌、真菌,结合16SrRNA和ITS序列分析,对候选菌株进行初步鉴定;通过菌株对峙培养、果实离体接种筛选对灰葡萄孢具有拮抗活性的内生菌;进一步测定菌株分泌生长素、嗜铁素的能力及其对拟南芥和番茄幼苗生长的促生特性。【结果】从番茄植株不同部位共分离出72株内生细菌和31株内生真菌,通过平板对峙法筛选出1株对多种病原菌具有较好抑菌活性的内生细菌FQ-G3,分子鉴定为Bacillus velezensis。FQ-G3对灰葡萄孢抑菌率达80.93%,并显著抑制灰葡萄孢在番茄果实上的扩展。该菌株能够分泌生长素、蛋白酶和嗜铁素,且对拟南芥、番茄幼苗具有明显的促生效果。【结论】本研究表明分离自番茄植株的内生菌FQ-G3具...     

植物根际促生菌的筛选及鉴定

【目的】植物根际促生菌(PGPR)和植物的互作关系往往不稳定,PGPR菌群有可能提高菌株对野外环境的适应性。为此,本文根据PGPR促生机制的多样性,从不同植物根际土壤进行了PGPR的筛选及鉴定。【方法】首先,按照固氮、解磷、解钾、拮抗6种常见病原真菌,同时能在植物根际定殖为基本初筛标准,然后在实验室条件下测定初筛菌株的多项促生能力(PGP),最后通过生理生化试验和16SrRNA基因序列分析对所筛菌株进行鉴定。【结果】从江苏扬州、盐城等地土壤样品筛选出14株PGPR,具有体外抑菌、产NH3、产IAA、产HCN、产嗜铁素、解磷、溶钾、固氮以及产抗生素等促生能力。分类鉴定结果显示:7株属于假单胞菌属(Pseudomonas)、3株属于类芽孢杆菌属(Paenibacillus)、2株为芽孢杆菌属(Bacillus)、1株为布克霍尔德氏菌属(Burkholderia)、1株为欧文氏菌属(Erwinia)。【结论】所筛细菌具有多种促生能力,且能在根际定殖,为进一步构建多功能PGPR广适菌群提供菌株资源。     

两株生菜根际芽孢杆菌(Bacillus spp.)的分离与特性研究

【目的】从生菜根际土中筛选出2株具有多种生物学特性、促生和生防效果的芽孢杆菌。【方法】土样经过80°C高温处理,得到2株细菌。通过形态学、生理生化、16S rRNA和gyr B基因鉴定菌株。对其溶磷、合成IAA和嗜铁素能力及对植物病原真菌的拮抗作用进行测定。用2株细菌处理生菜种子,评价其促生效果。用菌株WXD 3-2处理小麦,评价其生防效果。【结果】经过鉴定,确定菌株WXD 3-1为巨大芽孢杆菌(Bacillus megaterium),WXD 3-2为枯草芽孢杆菌(Bacillus subtilis)。2株菌均有溶磷、合成嗜铁素、IAA能力和促生能力,菌株WXD 3-2能够对多种病原菌产生拮抗作用,抑制其生长。经过WXD 3-1和WXD 3-2处理,生菜植株高、叶片宽、植株鲜重及植株干重与对照相比分别增加21.51%和8.88%、31.93%和14.51%、41.30%和13.58%、42.76%和26.35%。菌株WXD 3-2能够减轻小麦根腐病病症,小麦根部病斑减少。【结论】分离出的2株芽孢杆菌均具有溶磷、合成IAA和嗜铁素能力,能够促进生菜的生长,且菌株WXD 3-2还具有生防效果。     

短芽胞杆菌对香蕉采后炭疽病的防治

【背景】香蕉炭疽病是香蕉贮运过程中常见的病害,危害严重。【目的】评价短芽胞杆菌菌株FJAT-17214和FJAT-10657的抗菌活性,并进行菌株鉴定。【方法】采用抑菌圈法和菌丝生长速率法对菌株FJAT-17214和FJAT-10657的拮抗活性进行测定,采用香蕉果实回接法测定这2株菌对香蕉采后炭疽病病原菌的抗菌活性;根据菌株FJAT-17214和FJAT-10657的形态观察、特异性鉴定和16SrRNA基因序列进行种属鉴定。【结果】菌株FJAT-17214和FJAT-10657发酵上清液对香蕉炭疽病病原菌菌丝生长具有抑制作用,抑菌圈直径分别达到15.30 mm和15.35 mm。随着菌株培养时间的延长,菌株FJAT-17214和FJAT-10657发酵上清液抑菌效果也逐渐增强,培养72 h时,抑菌圈直径分别增大至17.37 mm和20.96 mm。不同添加量发酵上清液对香蕉炭疽病病原菌生长均具有一定的抑制作用。当培养基中添加50 m L菌株FJAT-17214和FJAT-10657的发酵上清液时,其抑菌率可分别达到83.90%和85.84%。接种炭疽病病原菌4 d后,防治效果分别为67.88%和54.55%,处理后香蕉果皮β-1,3-葡聚糖酶活性均明显高于对照。对菌株FJAT-17214和FJAT-10657进行形态学观察、特异性鉴定和16SrRNA基因种属鉴定的结果表明,这2株菌分别被鉴定为短短芽胞杆菌(Brevibacillus brevis)和人参土壤短芽胞杆菌(Brevibacillus panacihumi)。【结论】菌株FJAT-17214和FJAT-10657对香蕉采后炭疽病具有较好的防治效果,可作为采后病害防治微生物的材料。     

甲基营养型芽孢杆菌拮抗玉蜀黍尾孢菌、链格菌和灰葡萄孢菌及环脂肽分析

【目的】探究甲基营养型芽孢杆菌(Bacillus methylotrophicus)对植物病原菌玉蜀黍尾孢菌(Cercospora zeae-maydis Tehon et Daniels)、链格菌(Alternaria alternate)和灰葡萄孢菌(Botrytis cinerea)的拮抗作用并鉴定抗菌物质,为其病害防治提供优良生防菌。【方法】平板对峙法初筛和杯碟法筛选拮抗菌株;微生物形态学和16S rRNA基因鉴定拮抗菌株;薄层色谱(TLC)和编码基因分析鉴定抗菌物质;玉米田间生防试验评估拮抗菌对3种病原菌的防治效果。【结果】筛选到一株能够明显拮抗玉蜀黍尾孢菌、链格菌和灰葡萄孢菌的甲基营养型芽孢杆菌B-1841,抑制率分别为65.95%、71.04%和46.69%,抑菌物质为伊枯草菌素类脂肽。玉米田间生防试验表明,菌株B-1841对玉蜀黍尾孢菌、链格菌和灰葡萄孢菌感染的玉米病害均有防治效果,相对防效分别为60.25%、69.89%和45.21%。【结论】甲基营养型芽孢杆菌B-1841对玉蜀黍尾孢菌、链格菌和灰葡萄孢菌引起的病害有防治作用,在农作物真菌病害防治方面具有潜在应用价值。     

解淀粉芽胞杆菌PC2产抑菌物质培养基及发酵条件优化

【目的】优化解淀粉芽胞杆菌PC2产抑菌活性物质发酵培养基及发酵条件。【方法】以马铃薯葡萄糖液体培养基为基础,依据发酵液对金黄色葡萄球菌抑菌圈的单因素试验结果,采用Box-Behnken响应面法优化发酵培养基,二次通用旋转组合设计,频率分析法优化发酵条件。【结果】影响发酵液抑菌活性的培养基主要组分为马铃薯、蔗糖和L-谷氨酸钠,最优发酵培养基配方为:马铃薯188.0 g/L,蔗糖22.0 g/L,L-谷氨酸钠1.80 g/L,培养基成本为0.81元/L;最佳发酵条件为:接种量6%、发酵温度30°C、装液量40 mL/250 mL、摇床转速185 r/min、发酵时间24 h、初始pH 7.0。优化后发酵液对金黄色葡萄球菌抑菌圈直径为30.82 mm,较优化前的18.22 mm增加了12.60 mm。【结论】优化后的培养基和发酵条件提高了解淀粉芽胞杆菌PC2发酵液的抑菌活性,为该菌株的工业化生产应用提供了依据。     

Isolation and identification of phytate-degrading rhizobacteria with activity of improving growth of poplar and Masson pine

A number of soil microorganisms can convert insoluble forms of phosphorus (P) to an accessible form to increase plant yields. Phytate is such a large kind of insoluble organic phosphorus that plants cannot absorb directly in soil, so the objectives of this study were to isolate, screen phytate-degrading rhizobacteria (PDRB), and to select potential microbial inocula that could increase the P uptake by plants. In this study, a total of 24 soil samples were collected from natural habitats of eight poplar and pine planting areas from the eastern to southern China. 17 PDRB strains were preliminarily screened from the rhizosphere soil of poplars and pines by the visible decolorization in the phytate selective medium. The highest ratio of the total diameter (colony + halo zone) to the colony diameter of the isolates was JZ-GX1, 3.85. Afterward, 17 PDRB strains were further determined for their abilities to degrade sodium phytate based on the amount of liberated inorganic P in liquid phytate specific medium. The results showed that the phytase ability of the three highest PDRB strains: JZ-GX1, JZ-DZ1 and JZ-ZJ1 were up to 2.58, 2.36 and 2.24 U/mL, respectively, much better than most of the bacteria reported in previous studies. In the soil–plant experiment, compared to CK, the best three strains of PDRB all could significantly promote growth of poplar and Masson pine under container growing. The three efficient PDRB strains were identified as follow: JZ-GX1, Rahnella aquatilis, both JZ-DZ1 and JZ-ZJ1 being autofluorescent, Pseudomonas fluorescens, by 16S rDNA gene sequencing technology, Biolog Identification System and biological characterization. The present study suggests that the three screened PDRB strains would have great potential application as biological fertilizers in the future.     

出芽短梗霉产聚苹果酸发酵条件的优化

【背景】出芽短梗霉可发酵葡萄糖生成聚苹果酸,但存在转化率和转化效率低等瓶颈,阻碍其实现商业化生产。【目的】通过优化发酵培养条件,提高出芽短梗霉的聚苹果酸产量、糖酸转化率和生产强度。【方法】采用单因素试验优化适宜出芽短梗霉BK-10菌株产生聚苹果酸的培养条件,通过Plackett-Burman法对培养基组分筛选显著性影响因素,并对其培养基中无机盐进行正交试验优化,最后进行5 L发酵罐验证。【结果】最优培养基配方和培养条件:100 g/L葡萄糖,1.5 g/L尿素,0.20 g/L KH_2PO_4,0.20 g/L ZnSO_4,0.05 g/L MgSO_4,0.75 g/L KCl,30 g/L CaCO_3,0.01%吐温-80,发酵温度26°C,250 mL摇瓶装液量50 mL。【结论】通过优化,聚苹果酸的糖酸转化率达到0.71 g/g,生产强度达到0.89 g/(L·h),较优化前分别提高了18.33%和71.15%,为发酵葡萄糖合成聚苹果酸进而生产L-苹果酸工艺的工业化生产奠定经济性基础。     

Characterization of the lipopolysaccharide from Rahnella aquatilis 1-95

The lipopolysaccharide from the freshwater bacterium Rahnella aquatilis 1-95 has been isolated and investigated for the first time. The structural components of the lipopolysaccharide molecule: lipid A, core oligosaccharide, and O-specific polysaccharide were isolated by mild acidic hydrolysis. In lipid A, 3-hydroxytetradecanoic and tetradecanoic acids were found to be the predominant fatty acids. In the core oligosaccharide, galactose, arabinose, fucose, and an unidentified component were shown to be the major monosaccharides. The O-specific polysaccharide consists of a regularly repeating trisaccharide unit with the acyl and phosphate following structure: [structure: see text] groups have been shown to be responsible for the toxic and pyrogenic properties of the lipopolysaccharide of R. aquatilis.     

Enterobacteriaceae facilitate the anaerobic degradation of glucose by a forest soil

Anoxic micro zones that occur in soil aggregates of oxic soils may be temporarily extended after rainfall and thus facilitate the anaerobic degradation of organic compounds in soils. The microbial degradation of glucose by anoxic slurries of a forest soil yielded acetate, CO₂, H₂, succinate, and ethanol, products indicative of mixed acid fermentation. Prokaryotes involved in this process were identified by time-resolved 16S rRNA gene-targeted stable isotope probing with [¹³C-U]-glucose. All labeled phylotypes from the ¹³C-enriched 16S rRNA gene were most closely related to Rahnella and Ewingella , enterobacterial genera known to catalyze mixed acid fermentation. These results indicate that facultative aerobes, in particular Enterobacteriaceae , (1) can outcompete obligate anaerobes when conditions become anoxic in forest soils and (2) may be involved in the initial decomposition of monosaccharides in anoxic micro zones of aerated forest soils.     

Potential of bulb-associated bacteria for biocontrol of hyacinth soft rot caused by Dickeya zeae

Aims:  Dickeya zeae is a pectinolytic bacterium responsible for soft rot disease in flower bulb crops. In this study, the possibility of controlling soft rot disease in hyacinth by using antagonistic bacteria isolated from hyacinth bulbs was explored.
Methods and Results:  Bacterial isolates with potential for biocontrol were selected on the basis of antibiosis against D. zeae , siderophore production, and the N -acyl homoserine lactones (AHLs)-inactivation. In in vitro assays, 35 out of 565 hyacinth-associated bacterial isolates produced antimicrobial substances against D. zeae, whereas 20 degraded AHLs, and 35 produced siderophores. Isolates of interest were identified by 16S rDNA sequence analysis and reaction in BIOLOG™ tests. Twenty-six isolates that differed in characteristics were selected for pathogenicity testing on hyacinth cultivars, Pink Pearl and Carnegie. Two strains identified as Rahnella aquatilis and one as Erwinia persicinus significantly reduced tissue maceration caused by D. zeae 2019 on hyacinth bulbs, but not on leaves.
Conclusions:  Hyacinth bulbs harbour bacteria belonging to different taxonomic groups that are antagonistic to D. zeae , and some can attenuate decay of bulb tissue.
Significance and Impact of the Study:  Selected hyacinth-associated bacterial isolates have potential for control of soft rot disease caused by D. zeae in hyacinth bulb production.     

Levan and fructosyl derivatives formation by a recombinant levansucrase from Rahnella aquatilis

Levan, fructo-oligosaccharides and fructosyl derivatives were formed from sucrose using recombinant levansucrase from Rahnella aquatilis. Levan formation was optimal at 30 °C resulting 57 % of the theoretical yield. The more suitable substrate concentration for levan formation was 200 g sucrose/L. Oligosaccharides was accumulated selectively at high substrate concentration. The increase of levan and oligosaccharides formation was not achieved by adding water-miscible organic solvents. Alkyl fructosides were synthesized from various alcohols as fructosyl acceptors by R. aquatilis levansucrase. © Rapid Science Ltd. 1998     

海洋来源链霉菌MY0504产纤溶酶的发酵条件优化

【目的】以发酵液纤溶酶活力为指标,优化海洋来源的链霉菌菌株MY0504的发酵条件。【方法】在菌株生长曲线及单因素试验基础上,采用Plackett-Burman设计筛选影响纤溶酶活性的主要因素,进一步用最陡爬坡试验及Box-Behnken中心组合设计法优化发酵条件。【结果】纤溶酶活性最高的发酵条件为:葡萄糖21.68 g/L,酵母粉25.31 g/L,NaCl5.0 g/L,K_2HPO_4·3H_2O3.0 g/L,MgSO_4·7H_2O 0.5 g/L,FeSO_4·7H_2O 0.02 g/L,装液量50 mL(250 mL摇瓶),接种量10%(体积比),初始pH 7.5,温度24°C,转速200 r/min,培养时间4.5 d。发酵液纤溶酶活性可达2 190.6 U/mL。【结论】确定了MY0504菌株产纤溶酶的最优发酵条件,为该酶的进一步分离纯化及性质研究奠定基础。