松材线虫生防细菌的筛选、鉴定及其毒性因子的初步研究

从河南南阳不同农田的植物根部采取土壤样本,共分离获得了198株细菌。通过毒性测试和平板生测从中筛选出松材线虫生防细菌6株,其中NS-3菌株对松材线虫的杀灭活性最高。结合该菌株的形态学、生理学特征及16S rDNA序列分析等结果将该菌株归为芽孢杆菌属,命名为Bacillus sp.strain NS-3。将该细菌液体培养的上清液和上清蛋白粗提物分别处理松材线虫48h后线虫的死亡率分别达到50%和100%;线虫死亡后虫体消解。然而,细菌的上清蛋白粗提物经煮沸变性后,基本丧失了对松材线虫的侵染活性,结果显示细菌Bacillus sp.strain NS-3的杀线虫活性物质主要要存在于细菌培养上清液中,并且为热不稳定性物质。     

具有杀线虫活性的郭霍氏芽孢杆菌发酵条件优化及稳定性评价

【背景】芽孢杆菌是一类常见的生防菌,在植物病害防治中展现出巨大潜力。【目的】对一株具有杀线虫活性的郭霍氏芽孢杆菌(Bacillus kochii) DDWB进行发酵条件优化和稳定性评价,为菌株的开发提供理论支持。【方法】以发酵液上清杀线虫率及细菌发酵液OD600值为指标,通过单因素法与正交试验设计,对菌株的培养基与发酵参数进行优化;同时对菌株发酵液酸碱、温度、紫外、遗传及储存稳定性进行评价。【结果】DDWB菌株培养基优化后为:蔗糖2%,酵母提取物1%,氯化钾2%;优化后初始pH值为8.0,装液量为150 mL/250 mL锥形瓶,发酵时间为48h,接种量为8%,转速为160r/min,发酵温度为31℃;稳定性测定结果显示发酵液对酸碱敏感,紫外光照射4 h后活性物质发生降解,但发酵液对温度不敏感且杀线虫活性相关基因可稳定遗传。【结论】本研究优化了DDWB菌株的发酵条件,并对发酵液中活性物质的稳定性进行了多因素评价,使得菌株可以快速扩繁并长期稳定保持对根结线虫的抑制活性,为进一步评价菌株田间防效和研究生防机制奠定了基础。     

松材线虫拮抗细菌的杀线活性及其发酵培养特性

旨为筛选具有高效杀松材线虫活性的拮抗细菌。采用浸测法对3株芽孢杆菌进行杀线活性测定,并对高效杀线菌株发酵滤液处理线虫后的虫体进行形态观察及该菌株培养条件和杀线物质稳定性测定。结果表明3株细菌发酵滤液处理松材线虫(Bursaphelenchus xylophilus)48 h后,线虫校正死亡率均达100%,且松材线虫在蜡样芽孢杆菌(Bacillus cereus)JK-XZ3发酵滤液4倍和8倍稀释液中处理48 h后,其校正死亡率分别达99.55%和88.32%,明显高于短小芽孢杆菌(B. pumilus)HR10和瓦雷兹芽孢杆菌(B. velezensis)YH-20;该JK-XZ3菌株发酵滤液处理过的线虫虫体断裂,内含物外溢,体壁消解;该菌株在30℃培养4 d的发酵滤液杀线活性最高,且松材线虫在发酵滤液4倍和8倍稀释液中处理48 h后,其校正死亡率均达100%;松材线虫在40℃、60℃、80℃和100℃处理后的发酵滤液8倍稀释液中处理48 h后,其校正死亡率均在84%以上;在pH为8-10的发酵滤液8倍稀释液处理48 h后,其校正死亡率均在88%以上;说明该菌株发酵滤液具有耐高温和耐碱特性。蜡样芽孢杆菌JK-XZ3是一株具有开发和应用潜力的高毒力杀线菌株。     

微杆菌Sneb159杀线虫活性物质的分离与鉴定

【目的】有关Microbacterium maritypicum在植物线虫生物防治方面的研究较少,探究菌株M. maritypicum Sneb159的杀线虫活性,明确菌株发酵液中具有杀线虫活性的物质,为生物农药的开发提供理论依据。【方法】本研究检测了菌株Sneb159发酵液对大豆胞囊线虫二龄幼虫的触杀活性;并以触杀活性为追踪,采用有机溶剂萃取、硅胶柱层析及半制备高效液相色谱等技术对菌株Sneb159发酵滤液中的活性物质进行分离纯化;采用核磁共振波谱对纯化物进行结构鉴定。【结果】菌株Sneb159具有杀线虫活性,在24 h和48 h处理组中线虫的死亡率均显著高于对照组。从菌株Sneb159发酵滤液中分离得到杀线虫活性物质A6,经结构鉴定确定该物质为苯乙酰胺。【结论】首次发现M. maritypicum对大豆胞囊线虫的触杀作用,并且明确活性物质为苯乙酰胺。结果表明菌株M. maritypicum Sneb159和苯乙酰胺在大豆胞囊线虫的生物防治方面具有较好的应用潜力。     

蜘蛛抱蛋属植物内生细菌的多样性及其抗菌活性筛选

【背景】药用植物中蕴含多样性丰富的内生菌资源,这些微生物产生的多种新型物质在制药领域表现出较好的应用前景。【目的】研究蜘蛛抱蛋属(Aspidistra Ker-Gawl.)植物内生细菌的多样性,探索药用植物内生细菌在药用活性产物方面的开发潜力,以期发现具有抗菌活性的次级代谢产物。【方法】对9种13株新鲜的蜘蛛抱蛋植物进行表面消毒,采用5种分离培养基分离内生细菌;根据菌落形态特征排除重复菌株,并测定其16S rRNA基因序列,构建系统进化树分析内生细菌多样性;将菌株分别用2种培养基发酵,使用耻垢分枝杆菌(Mycobacterium smegmatis ATCC 700044)、水稻白叶枯菌(Xanthomonas oryzae PXO99A)、白色念珠菌(Candidaalbicans ATCC 10231)、肺炎雷伯菌(Klebsiella pneumoniae ATCC 700603)和耐药粪肠球菌HH22(Enterococcus faecalis HH22)5种检定菌对分离菌株的发酵液进行抑菌活性筛选。【结果】从植物组织中分离得到了234株内生细菌,根据形态初步排重得到156株植物内生细菌;基于16S rRNA基因序列构建的系统进化树显示它们分属于3门10目22科29属,其中链霉菌属(Streptomyces)、芽孢杆菌属(Bacillus)、微杆菌属(Microbacterium)、类芽孢杆菌属(Paenibacillus)和根瘤菌属(Rhizobium)的菌株广泛地分布在不同种的蜘蛛抱蛋植株中,且占据一定优势;发现可能的潜在新分类单元6个;156株内生细菌中38株菌的发酵液具有抑菌活性,初筛阳性率为23.7%。【结论】蜘蛛抱蛋植物组织中含有种类多样的内生细菌,它们可能是抗菌生物活性次级代谢产物的有效来源。     

一株北里孢菌株的分离鉴定及其对松材线虫的致病性

【目的】筛选、鉴定出对松材线虫杀灭活性较高的放线菌菌株,并确定生防菌株的毒力因子。【方法】采用平板活性测试及代谢杀虫活性检测方法进行筛选,采用形态学及16S rDNA序列分析等进行鉴定。对发酵液中的活性物质稳定性分析后,利用醇沉、萃取、层析、气相色谱/质谱分析等方法分离纯化出杀虫毒力因子。【结果】从河南南阳宝天曼的腐木及枯枝落叶样品中共分离获得了79株放线菌,从中筛选出对松材线虫有灭活作用的放线菌6株,其中分离株C620菌株对松材线虫的灭活性最高:该菌株的发酵液处理松材线虫48、60 h后线虫的死亡率分别达到60.0%、81.5%。结合该菌株的形态学、生理学特征及16S rDNA序列分析等结果将其归为北里孢菌属中的一个种,菌株编号Kitasatospora sp.strain C620。该菌株的发酵液中杀线虫活性物质的热稳定性、光稳定性及耐储藏性均较强,在中性偏碱性环境较稳定;经pH纸电泳层析初步确定该物质属于碱性水溶性物质。对菌株C620发酵液分离纯化,得到活性化合物为1-苯基-3-(2-吡啶)-5-吡唑啉酮。【结论】获得一株松材线虫高效生防菌Kitasatospora sp.strain C620,其活性物质为1-苯基-3-(2-吡啶)-5-吡唑啉酮。     

沙棘根瘤内生细菌中抑菌促生菌株的筛选和鉴定

【背景】植物内生细菌可产生具有抑菌和促生活性的物质,既能抑制植物病原菌对寄主植物的侵染,也能促进植物的生长。沙棘根瘤内生细菌是根瘤内除共生固氮的弗兰克氏菌外,与沙棘共生的一大类微生物。研究具有抑菌和促生活性的植物内生菌,可为微生物菌肥的研究提供理论基础。【目的】筛选具有优良抑菌和促生活性的沙棘根瘤内生细菌,初步研究其抑菌和促生活性,并对菌株进行鉴定。【方法】采用双层琼脂法、琼脂扩散法、双层平板对峙法、牛津杯法进行沙棘根瘤拮抗性内生细菌的筛选。选取抑菌活性较高的内生细菌,分别采用Salkowski比色法、ChromeAzurolS(CAS)平板检测法和钼锑抗比色法进行产吲哚乙酸、铁载体及溶磷能力的测定。采用发酵液灌根法测定沙棘根瘤内生细菌SR308对黄瓜促生作用的盆栽效果。通过形态和培养特征、生理生化试验及16S rRNA基因序列分析法对菌株TT201和SR308进行鉴定。【结果】从131株沙棘根瘤内生细菌中筛选出9株具有较强抑菌活性的内生细菌,其中菌株TT201抑菌性最佳、抑菌谱广;菌株SR308的促生活性最好,其发酵液对黄瓜的生长具有较强的促进作用。对具有较强抑菌和促生活性的菌株TT201和SR308进行鉴定的结果表明,菌株TT201为侧孢短芽孢杆菌(Brevibacilluslaterosporus),菌株SR308为蕈状芽孢杆菌(Bacillusmycoides)。【结论】获得2株具有优良抑菌和促生活性的沙棘根瘤内生细菌,为进一步开发微生物农药及菌肥提供了资源。     

北部湾徐闻海域红树内生细菌物种多样性及其杀线虫活性研究

为发掘红树植物内生细菌资源和寻找新型微生物杀虫剂,该研究从北部湾徐闻海域采集7种红树植物共16份样品,设计10种分离培养基,使用稀释涂布法分析红树植物内生细菌的分布特征,通过16S rRNA分子生物学方法对内生细菌进行多样性分析,并利用秀丽隐杆线虫模型,通过杀线虫活性实验测试内生细菌乙酸乙酯提取物的杀线虫活性。结果表明:(1)从16份红树植物各组织器官中获得33株内生细菌,分布于19个科23个属。其中,芽孢杆菌属(Bacillus)为优势菌属,并发现了10株潜在的新种或新属。(2)筛选到具有显著杀线虫活性的菌株IMDGX 4725和IMDGX 4744,半数致死浓度(LC_(50))分别为61.58、100.89mg·mL~(-1)。研究结果证实了徐闻海域红树具有多样性丰富的内生细菌,同时部分细菌具有较强的杀线虫活性,具有发现新型微生物杀虫剂的潜力。     

线虫生防细菌W3对线虫侵染活性的测定

目的:筛选以体壁穿透方式进入线虫体内而引起宿主致病的杀线虫细菌,为开发新的植物寄生线虫生防战略奠定基础.方法:通过毒性测试和平板法筛选杀线虫细菌,利用显微镜和扫描电镜研究观察细菌对线虫的作用方式和侵染过程.结果:筛选获得的杀线虫细菌菌株W3具有明显的侵染活性.生测结果表明,细菌培养上清液和上清蛋白粗提物对腐生线虫致死率分别达到95%和100%.在平板测试中,测试线虫体壁被严重破坏,在48h内超过80%的线虫被杀死和降解.扫描电镜观察可以明显的看到细菌穿透线虫体壁后在线虫体壁上留下的孔.结论:细菌W3具有显著的杀线虫活性和线虫体壁降解活性,其杀线虫活性物质主要存在于细菌培养上清液中.     

产高活性抗凝溶栓双活性蛋白的短小芽孢杆菌的筛选及鉴定

【目的】筛选可产生抗血栓活性物质的细菌。【方法】利用VY/4平板、酪蛋白平板从水样、土样、兔粪、羊粪、朽木等20多个样品中筛选目的菌株;利用纤维蛋白平板和纤维蛋白试管检测抗血栓活性;利用形态学特征、理化性质、16S rRNA序列同源性鉴定目的菌株。【结果】得到5株可产生抗血栓活性物质的细菌,重点研究了菌株LDS33,发现其分泌的胞外蛋白在纤维蛋白平板上和纤维蛋白试管中均显示出强烈的溶栓活性,通过试管法发现此蛋白质同时具有较强的抗凝活性。结合形态学、理化性质、16S rDNA序列及进化树分析,发现该菌株属于硬壁菌门芽孢杆菌目芽孢杆菌科芽孢杆菌属的短小芽孢杆菌,将其命名为Bacillus pumilus LDS.33。【结论】短小芽孢杆菌LDS33可产生高活性的抗凝溶栓双活性蛋白。     

一株高效降解芘的细菌分离、鉴定及其降解效果

摘要：【目的】获得高效降解高分子量多环芳烃的细菌,并研究其对多环芳烃的降解能力。【方法】利用富集培养和芘升华平板方法,从焦化厂污染土壤中分离多环芳烃降解细菌,对分离菌株通过形态特征、16S rRNA基因和gyrb基因序列相似性分析进行鉴定,并研究该菌对高分子量多环芳烃（HMW-PAHs）的降解效果。【结果】筛选到一株能以芘、苯并蒽、屈、苯并芘、茚并芘、苯并苝、荧恩为碳源和能源生长并降解这些底物的菌株HBS1,该菌株的16S rRNA基因和gyrb基因序列与Gordonia amicalis的相应基因的相似     

Degradation of straight-chain aliphatic and high-molecular-weight polycyclic aromatic hydrocarbons by a strain of Mycobacterium austroafricanum

AIMS: Our goal was to characterize a newly isolated strain of Mycobacterium austroafricanum, obtained from manufactured gas plant (MGP) site soil and designated GTI-23, with respect to its ability to degrade polycyclic aromatic hydrocarbons (PAHs). METHODS AND RESULTS: GTI-23 is capable of growth on phenanthrene, fluoranthene, or pyrene as a sole source of carbon and energy; it also extensively mineralizes the latter two in liquid culture and is capable of extensive degradation of fluorene and benzo[a]pyrene, although this does not lead in either of these cases to mineralization. Supplementation of benzo[a]pyrene-containing cultures with phenanthrene had no significant effect on benzo[a]pyrene degradation; however, this process was substantially inhibited by the addition of pyrene. Extensive and rapid mineralization of pyrene by GTI-23 was also observed in pyrene-amended soil. CONCLUSIONS: Strain GTI-23 shows considerable ability to mineralize a range of polycyclic aromatic hydrocarbons, both in liquid and soil environments. In this regard, GTI-23 differs markedly from the type strain of Myco. austroafricanum (ATCC 33464); the latter isolate displayed no (or very limited) mineralization of any tested PAH (phenanthrene, fluoranthene or pyrene). When grown in liquid culture, GTI-23 was also found to be capable of growing on and mineralizing two aliphatic hydrocarbons (dodecane and hexadecane). SIGNIFICANCE AND IMPACT OF THE STUDY: These findings indicate that this isolate of Myco. austroafricanum may be useful for bioremediation of soils contaminated with complex mixtures of aromatic and aliphatic hydrocarbons.     

高分子量多环芳烃降解菌筛选及在土壤电动-生物修复中应用

采用富集培养和多环芳烃双加氧酶基因检测方法,从焦化场地多环芳烃污染土壤分离筛选出9株PAHs降解菌。以高分子量多环芳烃芘为唯一碳源进行摇瓶降解实验,结果表明,J6、S5、S4、S2和B4对芘具有较好的降解能力,21 d时芘降解率均达55%以上,其中B4处理芘的降解率最高,达到70.2%。进一步研究了该5株菌及其混合菌对土壤中芘的降解效果,发现混合菌的降解效果高于单菌的降解效果,其中混合菌H4和单菌B4的降解效果较好,49 d时混合菌H4和单菌B4处理土壤中芘的降解率达29.3%和18.3%。经过16S rRNA基因序列比对,鉴定J6菌株为赤红球菌(Rhodococcus ruber),S5为芽孢杆菌属(Bacillus sp.),S4和S2是鞘脂单胞菌属(Sphingopyxis sp.),B4为假单胞菌属(Pseudomonas sp.)。在电场条件下,混合菌H4和单菌B4处理微生物数量及活性均显著提高,芘的降解率较单独H4和B4处理提高33.0%和20.1%,说明筛选出的5株高分子量多环芳烃降解菌具有较强的电场适应能力,可在高分子量多环芳烃污染土壤电动-微生物修复中应用。     

Initial characterization of new bacteria degrading high-molecular weight polycyclic aromatic hydrocarbons isolated from a 2-year enrichment in a two-liquid-phase culture system

AIMS: To characterize some polycyclic aromatic hydrocarbons (PAH)-degrading microorganisms isolated from an enriched consortium degrading high molecular weight (HMW) PAHs in a two-liquid-phase (TLP) soil slurry bioreactor, and to determine the effect of low molecular weight (LMW) PAH on their growth and HMW PAH-degrading activity. METHODS AND RESULTS: Several microorganisms were isolated from a HMW-PAH (pyrene, chrysene, benzo[a]pyrene and perylene) degrading consortium enriched in TLP cultures using silicone oil as the organic phase. From 16S rRNA analysis, four isolates were identified as Mycobacterium gilvum B1 (99% identity),Bacillus pumilus B44 (99% identity), Microbacterium esteraromaticum B21 (98% identity), and to the genus Porphyrobacter B51 (96% identity). The two latter isolates have not previously been associated with PAH degradation. Isolate B51 grew strongly in the interfacial fraction in the presence of naphthalene vapours and phenanthrene compared with cultures without LMW PAHs. Benzo[a]pyrene was degraded in cultures containing a HMW PAH mixture but pyrene had no effect on its degradation. The growth of isolates B1 and B21 was improved in the aqueous phase than in the interfacial fraction for cultures with naphthalene vapours. Pyrene was required for benzo[a]pyrene degradation by isolate B1. For isolate B21, pyrene and chrysene were degraded only in cultures without naphthalene vapours. CONCLUSION: Consortium enriched in a TLP culture is composed of microorganisms with different abilities to grow at the interface or in the aqueous phase according to the culture conditions and the PAH that are present. Naphthalene vapours increased the growth of the microorganisms in TLP cultures but did not stimulate the HMW PAH degradation. SIGNIFICANCE AND IMPACT OF THE STUDY: New HMW PAH-degrading microorganisms and a better understanding of the mechanisms involved in HMW PAH degradation in TLP cultures.     

Removal of Benzo[a]pyrene by a fungus Aspergillus sp. BAP14

A fungal strain BAP14 isolated from marine sediments of coast in Xiamen city, was found to have the ability to degrade benzo[a]pyrene (BaP), and identified as Aspergillus sp. based on 18S rRNA gene sequence. Aspergillus sp. BAP14 was able to remove about 30 and 60% of BaP with initial concentration of 10 mg l⁻¹ in 3 and 12 days of incubation, respectively. Addition of saccharides and low molecular weight polycyclic aromatic hydrocarbons appeared to have effect on the degradation ability, in particularly the addition of lactose and naphthalene. Furthermore, we demonstrated that lipidic particles could be observed in the presence of benzo[a]pyrene based on the morphologic performance of Aspergillus sp. BAP14 through scanning electronic microscopy (SEM) and atomic force microscopy (AFM), respectively.     

一株高效DEHP降解菌的分离、鉴定及其降解特性

【目的】分离得到高效的邻苯二甲酸二乙基己基酯(DEHP)降解菌。【方法】采用富集培养法筛选分离菌株,并对菌株进行驯化;通过PCR扩增得到其16S rRNA和gyrB基因序列,进行同源序列分析及分子系统发育树的构建,同时结合形态学观察和生理生化实验对菌株进行初步鉴定;采用高效液相色谱(HPLC)分析菌株对DEHP的降解特性。【结果】分离得到一株能以DEHP为唯一碳源和能源生长的菌株,命名为HS-NH1,初步鉴定其为戈登氏菌(Gordoniasp.)。菌株HS-NH1最适的生长和降解条件为30°C、pH 7.0,在此条件下,该菌株60 h内能够将浓度为500 mg/L的DEHP降解90%以上。高效液相色谱(HPLC)分析表明,菌株HS-NH1在降解DEHP过程中产生了一种重要的中间代谢产物——邻苯二甲酸。底物广谱性试验证明,菌株HS-NH1能够有效地利用多种常见的邻苯二甲酸酯(PAEs)与芳香族衍生物。【结论】筛选得到了一株DEHP降解菌Gordonia sp.HS-NH1,该菌降解效率高,具有良好的底物广谱性,在邻苯二甲酸酯类化合物的污染治理中将会有一定的应用潜力。     

Degradation of pyrene, benz[a]anthracene, and benzo[a]pyrene by Mycobacterium sp. strain RJGII-135, isolated from a former coal gasification site.

The degradation of three polycyclic aromatic hydrocarbons (PAH), pyrene (PYR), benz[a]anthracene (BAA), and benzo[a]pyrene (BaP), by Mycobacterium sp. strain RJGII-135 was studied. The bacterium was isolated from an abandoned coal gasification site soil by analog enrichment techniques and found to mineralize [14C]PYR. Further degradation studies with PYR showed three metabolites formed by Mycobacterium sp. strain RJGII-135, including 4,5-phenanthrene-dicarboxylic acid not previously isolated, 4-phenanthrene-carboxylic acid, and 4,5-pyrene-dihydrodiol. At least two dihydrodiols, 5,6-BAA-dihydrodiol and 10,11-BAA-dihydrodiol, were confirmed by high-resolution mass spectral and fluorescence analyses as products of the biodegradation of BAA by Mycobacterium sp. strain RJGII-135. Additionally, a cleavage product of BAA was also isolated. Mass spectra and fluorescence data support two different routes for the degradation of BaP by Mycobacterium sp. strain RJGII-135. The 7,8-BaP-dihydrodiol and three cleavage products of BaP, including 4,5-chrysene-dicarboxylic acid and a dihydro-pyrene-carboxylic acid metabolite, have been isolated and identified as degradation products formed by Mycobacterium sp. strain RJGII-135. These latter results represent the first example of the isolation of BaP ring fission products formed by a bacterial isolate. We propose that while this bacterium appears to attack only one site of the PYR molecule, it is capable of degrading different sites of the BAA and BaP molecules, and although the sites of attack may be different, the ability of this bacterium to degrade these PAH is well supported. The proposed pathways for biodegradation of these compounds by this Mycobacterium sp. strain RJGII-135 support the dioxygenase enzymatic processes reported previously for other bacteria. Microorganisms like Mycobacterium sp. strain RJGII-135 will be invaluable in attaining the goal of remediation of sites containing mixtures of these PAH.     

废烟叶提取液源尼古丁降解菌分离鉴定和特性

【目的】目前造纸法再造烟叶工艺已经成为我国重要的废烟叶处理和利用方式,该工艺中尼古丁的调控是很重要的待解决问题。从废烟叶提取液(Tobacco waste extract,TWE)中筛选高耐受高活性降解尼古丁微生物用来直接处理烟梗或烟末提取液中的尼古丁,可实现对尼古丁指标的调控。【方法】以尼古丁为唯一碳氮源的基本培养基为筛选平板,从废烟叶提取液中筛选降解尼古丁菌株;对分离获得的菌株进行形态、生理生化和16S r RNA基因序列分析比对,鉴定其种属;获得的菌株分别在基本培养基和废烟叶提取液中考察其生长和尼古丁降解效果。【结果】从废烟叶提取液中获得了一株尼古丁降解活性和耐受力较好的降解菌株Pseudomonas sp.JY-Q,且在TWE中也有较强的降解能力。【结论】Pseudomonas sp.JY-Q可用于水体和TWE环境尼古丁的降解,但共存的葡萄糖对其有抑制作用,有待深入研究。     

Optimization of high-molecular-weight polycyclic aromatic hydrocarbons' degradation in a two-liquid-phase bioreactor

A microbial consortium degrading the high-molecular-weight polycyclic aromatic hydrocarbons (HMW PAHs) pyrene, chrysene, benzo[a]pyrene and perylene in a two-liquid-phase reactor was studied. The highest PAH-degrading activity was observed with silicone oil as the water-immiscible phase; 2,2,4,4,6,8, 8-heptamethylnonane, paraffin oil, hexadecane and corn oil were much less, or not efficient in improving PAH degradation by the consortium. Addition of surfactants (Triton X-100, Witconol SN70, Brij 35 and rhamnolipids) or Inipol EAP22 did not promote PAH biodegradation. Rhamnolipids had an inhibitory effect. Addition of salicylate, benzoate, 1-hydroxy-2-naphtoic acid or catechol did not increase the PAH-degrading activity of the consortium, but the addition of low-molecular-weight (LMW) PAHs such as naphthalene and phenanthrene did. In these conditions, the degradation rates were 27 mg l-1 d-1 for pyrene, 8.9 mg l-1 d-1 for chrysene, 1.8 mg l-1 d-1 for benzo[a]pyrene and 0.37 mg l-1 d-1 for perylene. Micro-organisms from the interface were slightly more effective in degrading PAHs than those from the aqueous phase.     

一株乙腈降解菌的鉴定及其生物学特性

【目的】明确乙腈降解菌BX2的分类地位及生物学特性,评价其处理含乙腈废水的可行性。【方法】通过形态特征、生理生化特性以及系统发育分析对菌株BX2进行鉴定。考察温度、初始pH及接种量等因素对菌株生长的影响,确定菌株的最佳生长条件及在该条件下的乙腈降解能力。测定菌株BX2对NaCl的耐受能力。【结果】乙腈降解菌BX2的形态特征及生理生化特性与紫红红球菌(Rhodococcus rhodochrous)最相近。其16S rRNA、gyrB、secA1基因序列与紫红红球菌的相似性分别为99.37%、99.29%、97.87%。最佳生长条件为35℃,初始pH 7.5,接种量1%。此条件下,菌株BX2在16 h内对浓度为800 mg/L乙腈的降解率为95.87%。菌株BX2在NaCl含量高于6%的培养基中无法生长。【结论】菌株BX2被鉴定为紫红红球菌。该菌株有较强的环境适应能力,可降解高浓度乙腈,在含氰废水的生物修复中有很好的应用前景。