中国东海和南海海域可培养烃类降解细菌的筛选及功能

【背景】海洋环境中蕴藏着丰富的微生物资源,其种类繁多而且功能多样,在驱动物质循环及能量流动等方面起着重要的作用。目前,海洋中烷烃化合物降解菌的分离筛选和降解功能研究已有文献报道;但是对海洋中尤其是我国东海和南海海域,具有降解芳香烃类化合物功能的菌株分离筛选及其多样性研究鲜有报道。【目的】分离筛选我国东海和南海海域具有烃类降解能力的可培养菌株,并对其降解功能和多样性进行初步研究。【方法】分别从东海和南海海底沉积物样品中筛选菌株,选择不同的烃类化合物为菌株筛选的唯一碳源,采用梯度稀释和平板划线法分离纯化得到单菌落,并利用相应烃类为唯一碳源进行生长验证获得该化合物降解菌。【结果】以肉桂酸、碱木素、十六烷等12种烃类化合物为唯一碳源,从样品中共分离到63株具有烃类化合物降解能力的菌株,分别属于3个门4个纲8个目10个属,主要为红球菌属(Rhodococcus)、不动杆菌属(Acinetobacter)、弧菌属(Vibrio)、盐单胞菌属(Halomonas)、假单胞菌属(Pseudomonas)。两大海域优势降解菌差别较大,其中东海沉积物降解菌株主要为不动杆菌属(Acinetobacter),而南海沉积物降解菌株主要为红球菌属(Rhodococcus)。【结论】我国东海和南海海域蕴藏着丰富的烃类化合物降解菌株资源,两大海域优势降解菌种类存在明显差异,这将为我国未来可能的海洋环境石油污染的微生物治理储备菌种资源。     

宋内志贺氏菌1173质粒基因组及耐药基因转移机制

【目的】研究质粒介导宋内志贺氏菌1173耐药基因bla_(CTX-M-64)转移的机制。【方法】用双纸片协同扩散法验证1173是否产超广谱β-内酰胺酶(ESBL),用PCR扩增鉴定其携带的耐药基因,接合转移实验检验其耐药质粒是否可通过接合转移给其他细菌,并对接合子是否产ESBL和携带耐药基因进行检验,利用VITEK~?2检测1173和接合子的耐药谱,提取质粒进行高通量基因组测序,并对质粒序列进行生物信息学分析,以研究其耐药基因转移机制。【结果】1173是产ESBL的多药耐药宋内志贺氏菌,携带的耐药基因有bla _(CTX-M-64)和bla _(TEM),其中的bla _(CTX-M-64)可通过接合转移作用传递给受体菌EC600,并使接合子具有相应的耐药谱。经序列测定和生物信息学分析表明,介导bla _(CTX-M-64)水平转移的是ISEcp1-bla_(CTX-M-64)-Δorf477转座单元。【结论】质粒携带的bla_(CTX-M-64)介导1173对多类抗菌药物的耐药,ISEcp1-bla_(CTX-M-64)-Δorf477转座单元介导bla_(CTX-M-64)在细菌间的转移。     

降解强致癌性有机污染物的微生物

多氯联苯(PCB)是强致癌有机污染物之一,是潜在的致癌因子,这类化合物有209种之多,其中某些化合物具有类似二噁英(dioxin)的毒性如六氯联苯等。有些微生物对PCB有降解作用,如G^ 细菌(指革氏阳性菌)中有园红球菌(Rhodococcus globerulus)也称球状红球菌,还有红串红球菌(Rh．erythropolis)、芽孢杆菌(Bacillus sp．)野生株以及该两属其他未定名菌株均表现对PCB等的降解活力,     

子囊霉素产生菌吸水链霉菌FIM260840基因转移系统的建立

目的:建立子囊霉素产生菌吸水链霉菌FIM260840的接合基因转移体系,以便基因敲除和外源基因表达等遗传操作。方法:以整合型质粒p SET152为出发质粒,通过接合转移构建并子囊霉素产生菌FIM260840的基因转移系统。结果:12.5μg/m L安普霉素可有效筛选接合子。经PCR验证,质粒成功整合到菌株FIM260840基因组DNA中,所获接合子的安普霉素抗性高达400μg/m L以上。接合子经多次传代后,导入的质粒p SET152仍稳定整合于接合子基因组DNA上。结论:建立了高效、简便的吸水链霉菌FIM260840的基因转移系统,为该菌的生物合成基因改造奠定了基础。     

污水厂产超广谱β内酰胺酶大肠杆菌通过接合水平传递耐药性

【目的】研究废水中产超广谱β-内酰胺酶大肠杆菌中可移动质粒在耐药基因水平传播机制中的作用。【方法】对污水厂分离所得的50株产ESBLs大肠杆菌进行接合试验,并对所得的接合子采用纸片扩散法测定其对15种常见药物的耐药表型,针对质粒介导的产ESBLs菌株的耐药基因设计7对特异性引物对接合子进行PCR扩增。【结果】研究结果显示,80份水样分离得50株产ESBLs大肠杆菌,共接合成功35株细菌,接合成功率高达70%。接合子与供体菌相比,均发生耐药谱型的改变,且存在丢失一种或几种药物耐药性且产生另一种或几种药物耐药性的现象。PCR扩增结果显示,接合子与供体菌相比,耐药基因型有所减少或不变,bla_(TEM)、bla_(CTX-M)基因全部接合成功,bla_(SHV)基因仅1株未接合成功,耐氟喹诺酮类基因未发生转移。【结论】本研究表明,不同的耐药基因可能位于不同的可移动质粒上,可移动质粒在大肠杆菌耐药性水平传播的过程中起到了十分重要的作用。     

IncFII-FIA-FIB型多重耐药质粒pBTR-CTXM的结构基因组学分析

【背景】IncFII-FIA-FIB型质粒广泛存在于肠杆菌科细菌中,介导了许多耐药基因的水平转移,并导致细菌多重耐药问题日益严重。【目的】分析IncFII-FIA-FIB型多重耐药质粒pBTR-CTXM的基因组结构,并研究其介导大肠杆菌BTR株的耐药基因水平转移机制。【方法】利用PCR进行耐药基因筛查;接合转移和电转化实验验证质粒pBTR-CTXM是否具备自主接合转移的特性;VITEK 2 Compact全自动细菌鉴定及药敏分析仪测定相关菌株对抗生素的药物敏感性;构建MatePair文库并进行细菌全基因组高通量测序和质粒结构基因组学分析。【结果】菌株BTR是携带blaNDM-1、blaCTX-M-15、blaTEM、qnrD、qnrS1、mph(A)、erm(B)和tetA(B)等耐药基因的多重耐药大肠杆菌,其中blaCTX-M-15、mph(A)、erm(B)和tet A(B)等耐药基因均位于大小为144 939 bp的质粒p BTR-CTXM (GenBank登录号MF156697)上,该质粒可与菌株BTR内质粒pNDM-BTR接合共转移到受体菌大肠杆菌EC600中。pBTR-CTXM具备IncFII-FIA-FIB型质粒典型的骨架区结构,其多重耐药(Multidrug-resistant,MDR)区由新的复合型转座子Tn6492、Tn2残余、Tn10残余、ISEcp1-blaCTX-M-15-Δorf477转座单元和一些插入序列组成。【结论】pBTR-CTXM中新复合型转座子Tn6492与Tn10残余和ISEcp1-blaCTX-M-15-Δorf477转座单元共同介导大肠杆菌BTR株的多重耐药与耐药基因的水平传播。     

荧光标记珊瑚组织来源细菌及其与虫黄藻相互作用的显微观察

【背景】研究珊瑚-细菌、虫黄藻-细菌的相互作用是解析珊瑚健康机理的关键。对珊瑚共附生细菌进行稳定荧光标记有助于原位观察细菌与虫黄藻或珊瑚的相互作用。当前,对于野生型珊瑚共附生细菌遗传操作体系的研究有限,限制了对细菌与珊瑚、虫黄藻原位互作模式的揭示。【目的】建立一种适合专性海洋细菌的遗传操作体系,利用其对珊瑚组织来源细菌进行绿色荧光蛋白标记,用于研究标记菌株与虫黄藻的相互作用。【方法】通过电穿孔的方式将构建好的广宿主重组质粒转入供体菌(Escherichia coli WM3064),然后将供体菌与添加海水才可以生长的受体菌SCSIO 12696 (港口球菌科,Porticoccaceae;分离自鹿角杯形珊瑚组织)按供、受体菌细胞数比分别为4:1、2:1、1:1比例混合,在25℃和30℃下于改良LB培养基上接合转移。显微观察标记细菌与虫黄藻相互作用。【结果】改良的LB培养基适用于需海水才可生长的专性海洋细菌的接合转移实验。接合转移的效率与供、受体菌的比例及温度有关。确定优化的接合转移条件为:供、受体菌的比例为1:1,温度为30℃。利用建立的接合转移体系,构建了增强型绿色荧光蛋白标记菌株S...     

根癌土壤杆菌接合转移和生物型特性的遗传学研究

用转座子Tn5-Mob和辅助诱动转移质粒R 68.45将根癌土壤杆菌(Agrobacterium tu-mefaciens)生物型(giotype)II和III接合转移到具三重缺陷的生物型I的菌株中,获得了七组转移接合子。通过对其中六组转移接合子生物型分类的主要生理生化特性(3-酮基乳糖反应、石蕊牛奶反应、赤藓糖醇产酸、乙醇产酸、松三糖产酸、粘酸产碱及在New和Keer的选择性生长培养基上能否生长等)测试,发现这些性状通过接合转移而被转移到受体菌中。     

柴油降解基因工程菌的构建及降解特性

【目的】构建柴油降解基因工程菌,提高柴油降解速率,研究p450基因在柴油降解过程中的作用。【方法】将Alcanivorax borkumensis SK2的p450基因合成后,连接至烷烃响应表达载体p Com8中,构建该基因的表达载体p450-SK2/p Com8,并将其转入大肠杆菌DH5α中,通过SDS-PAGE检测该基因在大肠杆菌DH5α中的表达,并将重组质粒p450-SK2/p Com8转入柴油降解菌Acinetobacter sp.Y9中,构建基因工程菌p450-SK2/Y9,研究工程菌p450-SK2/Y9对柴油的降解特性及p450基因在构建的工程菌p450-SK2/Y9中的表达。【结果】PCR、酶切及测序结果表明重组质粒p450-SK2/p Com8构建正确。当柴油诱导浓度大于1%时,目的基因在大肠杆菌DH5α中的蛋白表达量较大,且随着诱导时间的延长而呈增加趋势。通过PCR检测构建的基因工程菌p450-SK2/Y9中的p450基因表明,工程菌构建正确,利用单菌株降解柴油时,宿主菌Y9与工程菌p450-SK2/Y9的柴油降解效率未见明显差异,但工程菌p450-SK2/Y9在构建的菌群中对柴油降解的促进效果明显。SDS-PAGE结果表明,p450基因在构建的工程菌p450-SK2/Y9中能得到准确表达,在混合菌中的表达量高于单菌株。【结论】柴油降解基因工程菌在混合菌群中对柴油降解具有促进作用,而在单菌株情况下未见促进作用,且p450基因的蛋白表达在混合菌中也高于单菌株,这对于提高柴油的降解速率及研究p450基因在柴油降解过程中的作用机理具有一定意义。     

用双供体接合技术向甲醇利用菌导入外源载体质粒pLA2917和pRK290

以大肠杆菌HB101(pLA2917或pRK290)为供体,甲醇利用菌为受体,借助于HB101(pRK2013),进行三株菌的膜上接合。通过改变接合实验条件,得到了12个能在选择培养基上连续传代的菌株,其中761-2-1、Jc-1、Jc-2、LM等4株菌稳定地获得了来自HB101的粘粒pLA2917或质粒pRK290;而且接合转移频率高达2×10~(-1)(单位:接合子/受体细胞,下同),最低为7×10~(-3),一般为4×10~(-2)左右,远大于抗药性(T~r_c)的自发突变率10~(-9)。经初步比较研究,这4株菌不同于已知的任何一株可用作宿主的甲醇利用菌。本文还讨论了接合时间长短对接合转移频率的巨大影响,以及这4株菌的某些特性与用途。     

Biodegradation of dioxin by a newly isolated Rhodococcus sp. with the involvement of self-transmissible plasmids

A newly isolated Rhodococcus sp. strain p52 could aerobically utilize dibenzofuran as the sole source of carbon and energy, and completely remove dibenzofuran at 500 mg?l^?1 within 48 h. The strain metabolizes dibenzofuran by initial angular dioxygenation to yield 2,2′,3-trihydroxybiphenyl. Strain p52 could also remove 70 % of 100 mg?l^?1 2-chlorodibenzofuran within 96 h and could metabolize a variety of aromatic compounds, namely dibenzo-p-dioxin, 2,8-dichlorodibenzofuran, dibenzothiophene, biphenyl, naphthalene, fluorene, phenanthrene, anthracene, carbazole, indole, xanthene, phenoxathiin, xanthone, and 9-fluorenone. Two distinct gene clusters encoding angular dioxygenases (DbfA and DfdA) were amplified and sequenced. The dbfA and dfdA gene clusters are located on two circular plasmids, pDF01 and pDF02, respectively. Both plasmids are self-transmissible; that is, they can transfer to the Gram-positive bacterium Bacillus cereus by conjugation.     

Characterization of the 450-kb linear plasmid in a polychlorinated biphenyl degrader, Rhodococcus sp. strain RHA1

A strong polychlorinated biphenyl (PCB) degrader, Rhodococcus sp. strain RHA1, has diverse biphenyl/PCB degradative genes and harbors huge linear plasmids, including pRHL1 (1,100 kb), pRHL2 (450 kb), and pRHL3 (330 kb). The diverse degradative genes are distributed mainly on the pRHL1 and pRHL2 plasmids. In this study, the structural and functional characteristics of pRHL2 were determined. We constructed a physical map of pRHL2, and the degradative enzyme genes, including bphB2, etbD2, etbC, bphDEF, bphC2, and bphC4, were localized in three regions. Conjugal transfer of pRHL2 between RHA1 mutant derivatives was observed at a frequency of 7.5 x 10(-5) transconjugant per recipient. These results suggested that the linear plasmid is a possible determinant of propagation of the diverse degradative genes in rhodococci. The termini of pRHL2 were cloned and sequenced. The left and right termini of pRHL2 had 3-bp perfect terminal inverted repeats and were not as similar to each other (64% identity) as the known actinomycete linear replicons are. Southern hybridization analysis with pRHL2 terminal probes suggested that the right terminus of pRHL2 is similar to pRHL1 and pRHL3 termini. Retardation of both terminal fragments in the gel shift assay indicated that each terminus of pRHL2 is linked to a protein. We suggest that pRHL2 has invertron termini, as has been reported previously for Streptomyces linear replicons.     

Horizontal transfer of catabolic plasmids in the process of naphthalene biodegradation in model soil systems

The process of naphthalene degradation by indigenous, introduced, and transconjugant strains was studied in laboratory soil microcosms. Conjugation transfer of catabolic plasmids was demonstrated in naphthalene-contaminated soil. Both indigenous microorganisms and an introduced laboratory strain BS394 (pNF142::TnMod-OTc) served as donors of these plasmids. The indigenous bacterial degraders of naphthalene isolated from soil were identified as Pseudomonas putida and Pseudomonas fluorescens. The frequency of plasmid transfer in soil was 10(-5)-10(-4) per donor cell. The activity of the key enzymes of naphthalene biodegradation in indigenous and transconjugant strains was studied. Transconjugant strains harboring indigenous catabolic plasmids possessed high salicylate hydroxylase and low catechol-2,3-dioxygenase activities, in contrast to indigenous degraders, which had a high level of catechol-2,3-dioxygenase activity and a low level of salicylate hydroxylase. Naphthalene degradation in batch culture in liquid mineral medium was shown to accelerate due to cooperation of the indigenous naphthalene degrader P. fluorescens AP1 and the transconjugant strain P. putida KT2442 harboring the indigenous catabolic plasmid pAP35. The role of conjugative transfer of naphthalene biodegradation plasmids in acceleration of naphthalene degradation was demonstrated in laboratory soil microcosms.     

Gene transfer in magnetic bacteria: transposon mutagenesis and cloning of genomic DNA fragments required for magnetosome synthesis.

Broad-host-range IncP and IncQ plasmids have been transferred to the aerobic magnetic bacterium Aquaspirillum sp. strain AMB-1. Conjugal matings with Escherichia coli S17-1 allowed high-frequency transfer of the RK2 derivative pRK415 (4.5 x 10(-3) transconjugant per recipient cell) and the RSF1010 derivative pKT230 (3.0 x 10(-3) transconjugant per recipient). These plasmids successfully formed autonomous replicons in transconjugants and could be isolated and transformed back into E. coli, illustrating their potential as shuttle vectors. A mobilizable plasmid containing transposon Tn5 was transferred to Aquaspirillum sp. strain AMB-1 and also to the obligately microaerophilic magnetic bacterium Aquaspirillum magnetotacticum MS-1. Five nonmagnetic kanamycin-resistant mutants of Aquaspirillum sp. strain AMB-1 in which Tn5 was shown to be integrated into the chromosome were obtained. Different genomic fragments containing the mutagenized regions were cloned into E. coli. Two genomic fragments were restriction mapped, and the site of Tn5 insertion was determined. They were shown to be identical, although derived from independent transposon insertions. One of these clones was found to hybridize strongly to regions of the A. magnetotacticum MS-1 chromosome. This is the first report of gene transfer in a magnetic bacterium.     

Mobilization transfer of the pUB110 plasmid between gram-positive bacteria]

The three factor crosses between the donor strain Bacillus subtilis 168 harbouring the plasmid pUB102-4, Bacillus thuringiensis strain carrying the mobilizing plasmid pAM beta 1 and recipient strain Lactobacillus fermenti were conducted in order to elaborate the optimal conditions of the plasmid pUB102-4 mobilization for transfer into gram-positive microorganisms and to elucidate the possible expression of endogluconase genes in a lactobacillus strain. The Lactobacillus fermenti transconjugants carrying the pUB102-4 plasmid were obtained in the three factor reciprocal crosses with the streptococcus recipient strain and Bacillus subtilis recipients. The presence of the plasmids in transconjugants was confirmed by colony hybridization with the [32P]-labelled plasmid DNA and KMC-ase activity in transconjugant cells. The proposed system of crosses using the high copy number plasmid derivatives of pUB110 mobilized with high frequency by the pAM beta 1 plasmid demonstrates the possibility to increase the circle of gram-positive host bacteria avoiding time and labour consuming operations.     

Conjugative transfer of a plasmid from Escherichia coli to various strains of the order Actinomycetales

The conjugal transfer of autonomous and integrative plasmids from the donor strain Escherichia coli S17-1 to strains of genera Actinomadura, Arthrobacter, Kitasatoa, Micromonospora, Nocardia, Rhodococcus, Saccharopolyspora, and to 16 strains of the genus Streptomyces was demonstrated. The status of plasmids in recipient strains and the stability of their inheritance were analyzed. Plasmids constructed for strains of the genus Streptomyces were shown to function in a large number of strains belonging to the order Actinomycetales. The well-developed system of Streptomyces vector molecules and cloned genes of antibiotic biosynthesis allows their transfer to those microorganisms for which conventional techniques of plasmid transfer by regenerated protoplast transformation or electroporation have not been developed or are inefficient.     

Three different 2,3-dihydroxybiphenyl-1,2-dioxygenase genes in the gram-positive polychlorobiphenyl-degrading bacterium Rhodococcus globerulus P6.

Rhodococcus globerulus P6 (previously designated Acinetobacter sp. strain P6, Arthrobacter sp. strain M5, and Corynebacterium sp. strain MB1) is able to degrade a wide range of polychlorinated biphenyl (PCB) congeners. The genetic and biochemical analyses of the PCB catabolic pathway reported here have revealed the existence of a PCB gene cluster--bphBC1D--and two further bphC genes--bphC2 and bphC3--that encode three narrow-substrate-specificity enzymes (2,3-dihydroxybiphenyl dioxygenases) that meta cleave the first aromatic ring. None of the bphC genes show by hybridization homology to each other or to bphC genes in other bacteria, and the three bphC gene products have different kinetic parameters and sensitivities to inactivation by 3-chlorocatechol. This suggests that there exists a wide diversity in PCB meta cleavage enzymes.     

Horizontal transfer of catabolic plasmids in the process of naphthalene biodegradation in model soil systems

The process of naphthalene degradation by indigenous, introduced, and transconjugant strains was studied in laboratory soil microcosms. Conjugation transfer of catabolic plasmids was demonstrated in naphthalene-contaminated soil. Both indigenous microorganisms and an introduced laboratory strain BS394 (pNF142::TnMod-OTc) served as donors of these plasmids. The indigenous bacterial degraders of naphthalene isolated from soil were identified as Pseudomonas putida and Pseudomonas fluorescens. The frequency of plasmid transfer in soil was 10^?5–10^?4 per donor cell. The activity of the key enzymes of naphthalene biodegradation in indigenous and transconjugant strains was studied. Transconjugant strains harboring indigenous catabolic plasmids possessed high salicylate hydroxylase and low catechol-2,3-dioxygenase activities, in contrast to indigenous degraders, which had a high level of catechol-2,3-dioxygenase activity and a low level of salicylate hydroxylase. Naphthalene degradation in batch culture in liquid mineral medium was shown to accelerate due to cooperation of the indigenous naphthalene degrader P. fluorescens AP1 and the transconjugant strain P. putida KT2442 harboring the indigenous catabolic plasmid pAP35. The role of conjugative transfer of naphthalene biodegradation plasmids in acceleration of naphthalene degradation was demonstrated in laboratory soil microcosms.     

Variable bacteriocin production in the commercial starter Lactococcus lactis DPC4275 is linked to the formation of the cointegrate plasmid pMRC02

Lactococcus lactis DPC4275 is a bacteriocin-producing transconjugant of the industrial starter strain DPC4268. Strain DPC4275 was generated through conjugal transfer by mating DPC4268 with L. lactis MG1363 containing the 60-kb plasmid pMRC01, which encodes the genetic determinants for the lantibiotic lacticin 3147 and for a phage resistance mechanism of the abortive infection type. The many significant applications of this strain prompted a genetic analysis of its apparently unstable bacteriocin-producing phenotype. Increased levels of lacticin 3147 produced by DPC4275 were associated with the appearance of an 80-kb plasmid, designated pMRC02, which was derived from DNA originating from pMRC01 (60 kb) and a resident DPC4268 proteinase plasmid, pMT60 (60 kb). Indeed, pMRC02 was shown to be derived from the insertion of a 17-kb fragment of pMRC01, encompassing the lacticin 3147 operon, into pMT60. The presence of pMRC02 at a high copy number was found to correlate with increased levels of lacticin 3147 in DPC4275 compared to the wild-type containing pMRC01. Subsequent transfer of pMRC02 into the plasmid-free strain MG1363 by electroporation allowed a direct phenotypic comparison with pMRC01, also studied in the MG1363 background. Plasmid pMRC02 displayed phage resistance similar to that by pMRC01, although it was less potent, as demonstrated by a larger plaque size for phage c2 infection of MG1363(pMRC02). While this locus is flanked by IS946 elements, the sequencing of pMT60-pMRC01 junction sites established that this event was unlikely to be insertion sequence mediated and most probably occurred by homologous recombination followed by deletion of most of pMRC01. This was not a random occurrence, as nine other transconjugants investigated were found to have the same junction sites. Such derivatives of commercial strains producing increased levels of bacteriocin could be exploited as protection cultures for food applications.     

Mobilization and transfer of Azospirillum lipoferum plasmid by the Tn5-Mob transposon into a plasmid-free Agrobacterium tumefaciens strain

Azospirillum lipoferum 4B harbors five cryptic plasmids. Several suicide plasmids were used to transfer Tn5-Mob to A. lipoferum 4B. Tn5-Mob insertion mutations of this strain could be obtained at frequencies of 10(-8)-10(-7) per recipient cell. One hundred Tn5-Mob A. lipoferum 4B mutants were used in bacterial matings with a plasmid-free Agrobacterium tumefaciens recipient strain. This is the first report of mobilization, transfer, and replication of an Azospirillum plasmid in Agrobacterium tumefaciens. One transconjugant was found which had lost an indigenous plasmid.