黄土高原地区大豆根瘤菌的遗传多样性和系统发育

【目的】研究黄土高原地区大豆根瘤菌的遗传多样性和系统发育。【方法】采用BOX-PCR、16S rDNAPCR-RFLP、16S-23S IGS PCR-RFLP和16S rRNA基因序列分析方法对分离自我国黄土高原地区4个省的15个地区的130株大豆根瘤菌及部分参比菌株进行了遗传多样性和系统发育分析。【结果】BOX-PCR反映的菌株多样性最丰富,形成的遗传群最多,16S rDNA PCR-RFLP方法在属、种水平上聚群较好,16S-23S IGSPCR RFLP反映的多样性介于BOX-PCR和16S rDNA PCR-RFLP之间,能够较好地反映出属、种和亲缘关系很近的菌株间的差异,3种方法聚类分析结果基本一致,可将所有供试菌株分为两大类群,中华根瘤菌属(Sinorhizobium)和慢生根瘤菌属(Bradyrhizobium)。从系统发育来看,供试的快生大豆根瘤菌为费氏中华根瘤菌(Sinorhizobium fredii),慢生大豆根瘤菌为日本慢生大豆根瘤菌(Bradyrhizobium japonicum)和辽宁慢生根瘤菌(Bradyrhizobium liaoningense)。【结论】我国黄土高原地区大豆根瘤菌具有较丰富的遗传多样性,S.fredii优势种,慢生大豆根瘤菌仅占10%,同时,分离到2株B.liaoningense。     

凉山州新银合欢根瘤菌的共生有效性及遗传多样性

【目的】研究分离自四川凉山州新银合欢根瘤菌的遗传多样性和共生有效性。【方法】采用16S rRNA RFLP、BOX-PCR、AFLP、多位点持家基因序列的联合分析及无氮水培法对33株供试新银合欢根瘤菌的遗传多样性和共生有效性进行研究。【结果】分析表明,3种方法在属水平的分群结果具有较好的一致性,有1个Mesorhizobium属的菌株、3个Bradyrhizobium属的菌株、3个Rhizobium属的菌株,26个相似度较高的菌株属Sinorhizobium。16S rRNA-recA-atpD-glnII序列联合构建的新银合欢根瘤菌系统发育树表明,SCAU203、SCAU211可能分别是Rhizobium和Bradyrhizobium的新类群,另外3个代表菌株分别位于Sinorhizobium、Mesorhizobium、Bradyrhizobium分支,分别与S.americanum、M.Plurifarium、R.huautlense亲缘关系最近。无氮水培接种试验筛选出2个共生固氮效果好、与不接种对照处理差异达显著水平的菌株SCAU229和SCAU307,有3个菌株不仅不具共生有效性,甚至不利于宿主的生长,其余84%的供试菌为低效或无效菌株。【结论】凉山州新银合欢根瘤菌具有丰富的遗传多样性,分布于4个属:Rhizobium、Bradyrhizobium、Mesorhizobium、Bradyrhizobium,79%为Sinorhizobium属的菌株,优势菌群为Sinorhizobium。该区的新银合欢根瘤菌大多数的共生有效性差。     

黑木相思根瘤菌的系统发育分析及其结瘤效果研究

【目的】针对采集自福建、广东的34株黑木相思根瘤菌进行分类研究,进一步确定其分类地位,丰富我国黑木相思根瘤菌种质资源。【方法】对选取的34株菌株测定了16S rRNA基因、持家基因atpD和glnII序列,以14株菌为代表菌株分析其系统发育情况。而且选取了部分菌株进行结瘤实验。【结果】16S rRNA基因以及持家基因atpD和glnII的系统发育分析结果与16S rRNA PCR-RFLP分型结果基本一致,14株代表菌株被分为10个不同的类群,其中有2个群组属于中慢生根瘤菌属(Mesorhizobium),其余群组属于慢生根瘤菌属(Bradyrhizobium)。结瘤试验证明,相关的供试根瘤菌能与黑木相思、银合欢、南洋楹和网脉相思结瘤共生,显示出较广的宿主范围,且对黑木相思和银合欢的促生效果较明显。【结论】研究发现黑木相思根瘤菌具有丰富的遗传多样性和共生多样性。     

川中丘陵地区大豆根瘤菌遗传多样性与系统发育关系

【目的】研究分离自川中丘陵地区大豆根瘤菌的遗传多样性和系统发育。【方法】采用16S rDNA PCR-RFLP和16S rRNA基因、glnII、共生基因(nodC)系统发育分析的方法进行研究。【结果】供试未知菌的16S rDNA用4种限制性内切酶(HaeⅢ、HinfⅠ、MspⅠ及TaqⅠ)酶切后获得5种16S遗传图谱类型。16S rDNA PCR-RFLP结果表明,所有供试菌株在83%水平分为慢生根瘤菌属(Bradyrhizobium)和中华根瘤菌属(Sinonrhizobium)两大类群,而75%的菌株为中华根瘤菌。6个代表菌株的16S rDNA、glnII和nodC三个位点基因的系统发育结果基本一致,4株与S.fredii USDA205T相似度最高;有2株分别与B.yuanmingense CCBAU10071T、B.diazoefficiens USDA110T相似度最高。4个Sinonrhizobium代表菌株16S rDNA、glnII序列相似度分别为98.3%-99.9%、98.2%-100%,但它们的nodC基因序列完全相同。【结论】川中丘陵地区大豆根瘤菌具有较丰富的遗传多样性,S.fredii为优势种。     

黑木相思根瘤菌遗传多样性

[目的]研究分离自广东、福建、江西等15个地点的174株黑木相思(Acacia melanoxylon)根瘤菌的遗传多样性.[方法]采用16S rDNA限制性片段长度多态性分析(Restriction fragment length polymorphism,RFLP)和16S rDNA基因、持家基因(recA、atpD、glnⅡ)系统发育分析的方进行研究.[结果]16S rDNAPCR-RFLP分析中,在70％的相似性水平上,所有供试菌株分成9个类群 ;16S rDNA基因和持家基因系统发育分析结果基本一致,34株代表菌株主要分布在α-变形菌纲(Alpha-Proteobacteria)的慢生根瘤菌属(Bradyrhizobium)、根瘤菌属(Rizobium)、中慢生根瘤菌属(Mesorhizobium),并与Bradyrhizobium liaoningense、Bradyrhizobium betae、Bradyrhizobium cytisi、Rizobium multihospitium、Mesorhizobium plurifarium亲缘关系较近.[结论]供试菌株被鉴定到属的水平,Bradyrhizobium、Rhizobium或Mesorhizobium为优势菌群,证明了黑木相思根瘤菌具有丰富的遗传多样性.     

长期施肥对黑土大豆根瘤菌群体结构和多样性的影响

为揭示长期施肥对黑土大豆根瘤菌群体结构和多样性的影响,采用BOX-PCR、IGS-PCR-RFLP和16S r DNA基因序列分析法,对分离自黑龙江省7种长期不同施肥处理的254株大豆根瘤菌进行了遗传多样性和系统发育分析,结合土壤理化性质分析了大豆根瘤菌群体结构和多样性与土壤因子间的关系。7种处理分别为不施肥(CK)、有机肥(OM)、单施氮肥(N1)、单施2倍氮肥(N2)、氮肥+有机肥(N1+OM)、氮肥磷肥混施(N1P1)和2倍氮肥磷肥混施(N2P2)。系统发育分析结果表明,所有供试菌株均为慢生根瘤菌属(Bradyrhizobium),其中大部分菌株与日本慢生大豆根瘤菌(Bradyrhizobium japonicum)相似性最高,少部分菌株与辽宁慢生大豆根瘤菌(Bradyrhizobium liaoningense)相似性最高。BOX-PCR聚类分析结果表明,供试菌株在70%相似性水平上分为15个群,在与施肥处理相关性分析中分为3个群体,分别对应于不施化肥处理(CK和OM)、化学氮肥处理(N1、N2、N1+OM)、氮肥磷肥处理(N1P1和N2P2)。典范对应分析结果表明,土壤p H、速效氮和速效磷与根瘤菌群体结构相关性极显著(P=0.002,0.004,0.002)。不同施肥措施下大豆根瘤菌的多样性有明显差异:N2P2处理的丰富度指数和Shannon-Wiener指数显著高于其他处理;OM处理的Simpson指数最高;N1和N2处理的3种多样性指数都显著低于其他处理。通径分析结果表明,p H、速效磷对多样性指数有较高的直接正效应;速效氮通过p H的间接负效应影响多样性指数。本研究表明,长期施用化肥改变了根瘤菌群体结构,单施氮肥减少大豆根瘤菌多样性,而氮肥磷肥混施则有助于提高大豆根瘤菌多样性。     

如东田菁根瘤菌遗传多样性及高效促生菌株筛选

摘要:【目的】研究江苏如东沿海滩涂田菁根瘤菌的遗传多样性和系统发育,筛选高效促生田菁根瘤菌。【方法】采用16S rRNA基因、持家基因(recA、atpD、glnⅡ)、共生基因(nodA、nifH)的系统发育分析,并进行温室盆栽接种试验筛选高效菌株。【结果】分离到的32株田菁根瘤菌分布于Ensifer、Neorhizobium、Rhizobium,并与E. meliloti、N. huautlense、E. sesbaniae、R. pusense 亲缘关系最近。共生基因nodA、nifH的系统进化分析结果基本一致,均与E. saheli 最为相近。7株代表菌株均能耐受5%的NaCl(W/V)浓度,其中YIC5082耐盐性最强,能够耐受6%的NaCl。温室盆栽试验表明7 株代表菌株均能与田菁有效结瘤固氮,其中6株菌显著提高了植株的株高和鲜重。【结论】江苏如东沿海滩涂田菁根瘤菌具有较丰富的遗传多样性,其中N．huautlense、E．meliloti为优势种。该地区的田菁根瘤菌多数具有较好的共生有效性及耐盐性,YIC5077促生效果最为突出,并表现出较强的固氮及结瘤能力,具有良好的应用前景。     

基于非培养和培养的方法比较花生根瘤菌遗传多样性

摘要:【目的】比较非培养和培养方法揭示的花生根瘤菌遗传多样性差异,以期建立慢生根瘤菌快速检测占瘤率技术。【方法】采用经典分离培养技术获得花生根瘤菌和非培养方法直接从根瘤中收获类菌体分别提取DNA后,比较分析BOX-PCR指纹图谱,根据多样性指数评价基于非培养和培养方法的BOX-PCR指纹图谱技术揭示花生根瘤菌遗传多样性的差异。【结果】基于非培养方法检测的花生根瘤类菌体为81.8%,获得85种遗传群;基于培养方法分离花生根瘤菌菌株为72.7%,获得71种遗传群;两种方法共同检测到17种 BOX-PCR遗传图谱相一致。根据多样性指数基于非培养方法反映不同地区花生根瘤菌遗传多样性结果较一致,基于培养方法反映各地区的花生根瘤菌遗传多样性结果存在明显差异。【结论】基于非培养方法检测根瘤类菌体的遗传多样性,能够更快速、真实反映不同土壤花生根瘤中的优势遗传群,快速地统计根瘤菌菌株占瘤率;与培养方法相结合有利于获得花生根瘤菌竞争结瘤能力强的土著菌株,从而为筛选高效根瘤菌菌株奠定基础。     

安徽地区花生根瘤菌遗传多样性的研究

采用RAPD技术对分离自安徽地区的花生根瘤菌和部分参比菌株进行了遗传多样性和系统发育研究。结果表明来自凤阳和山东青岛地区花生根瘤菌的遗传距离比快生型和慢生型根瘤菌之间的遗传距离更远;安徽地区花生根瘤菌具有复杂的遗传基础,其遗传多样性丰富,其中来自宿州、合肥、贵池三地区的花生根瘤菌归为慢生型根瘤菌;而来自巢湖、宿州、淮北、芜湖地区的花生根瘤菌与快生型苜蓿根瘤菌的遗传地位更为接近,为快生型根瘤菌。     

攀枝花地区烤烟可培养内生固氮菌的多样性

【目的】认识烤烟(Flue-cured tobaccos)内生固氮菌多样性,挖掘内生固氮菌资源,丰富内生固氮菌基因库。【方法】运用纯培养法、重复因子扩增(BOX-PCR)分析技术、16S r RNA基因测序和系统发育分析对内生固氮菌多样性和系统发育进行研究,并测定分离菌株的固氮酶活性、溶磷溶钾特性、吲哚乙酸(IAA)含量等指标。【结果】通过Ashby培养基共分离得到62株固氮菌。基于BOX-PCR图谱选取16株代表菌株进行16S r RNA基因序列测定。16S r RNA基因序列系统发育分析显示,62株菌株分属于芽孢杆菌属(Bacillus)、泛菌属(Pantoea)、短小杆菌属(Curtobacterium)等3个属,其中芽孢杆菌属(Bacillus)为优势菌属。62株菌株中有20株菌株(占总分离菌株的32.3%)具有固氮酶活性,8株菌株(占总分离菌株的12.9%)能产IAA,有4株(占总分离菌株的6.5%)表现溶磷活性,有3株(占总分离菌株的4.8%)表现溶钾活性。【结论】攀枝花烤烟有较为丰富的内生固氮菌,具有潜在应用价值。     

Genetic relationships of Bacillus anthracis and closely related species based on variable-number tandem repeat analysis and BOX-PCR genomic fingerprinting

Variable-number tandem repeats (VNTR) analysis and BOX-repeat-based PCR (BOX-PCR) genomic fingerprinting were performed on 25 Bacillus strains to investigate the genetic relatedness of Bacillus anthracis to the closely related species. Based on VNTR analysis, all B. anthracis strains could be assigned to (VNTR)(4), which is the most commonly found type in the world. Interestingly, a (VNTR)(2) was also observed in Bacillus cereus KCTC 1661 and with an exact match to the tandem repeats found in B. anthracis. This finding has never been reported before in the closely related species. According to the BOX-PCR, B. anthracis strains clustered together and separated reliably from the closely related species. However, B. cereus KCTC 1661 was linked to the B. anthracis cluster and showed close relationships with B. anthracis strains. These results indicated that there was a strong correlation between VNTR analysis and BOX-PCR genomic fingerprinting.     

Biogeography and degree of endemicity of fluorescent Pseudomonas strains in soil

Fluorescent Pseudomonas strains were isolated from 38 undisturbed pristine soil samples from 10 sites on four continents. A total of 248 isolates were confirmed as Pseudomonas sensu stricto by fluorescent pigment production and group-specific 16S ribosomal DNA (rDNA) primers. These isolates were analyzed by three molecular typing methods with different levels of resolution: 16S rDNA restriction analysis (ARDRA), 16S-23S rDNA intergenic spacer-restriction fragment length polymorphism (ITS-RFLP) analysis, and repetitive extragenic palindromic PCR genomic fingerprinting with a BOX primer set (BOX-PCR). All isolates showed very similar ARDRA patterns, as expected. Some ITS-RFLP types were also found at every geographic scale, although some ITS-RFLP types were unique to the site of origin, indicating weak endemicity at this level of resolution. Using a similarity value of 0.8 or more after cluster analysis of BOX-PCR fingerprinting patterns to define the same genotypes, we identified 85 unique fluorescent Pseudomonas genotypes in our collection. There were no overlapping genotypes between sites as well as continental regions, indicating strict site endemism. The genetic distance between isolates as determined by degree of dissimilarity in BOX-PCR patterns was meaningfully correlated to the geographic distance between the isolates' sites of origin. Also, a significant positive spatial autocorrelation of the distribution of the genotypes was observed among distances of <197 km, and significant negative autocorrelation was observed between regions. Hence, strong endemicity of fluorescent Pseudomonas genotypes was observed, suggesting that these heterotrophic soil bacteria are not globally mixed.     

Biogeography and Degree of Endemicity of Fluorescent Pseudomonas Strains in Soil

Fluorescent Pseudomonas strains were isolated from 38 undisturbed pristine soil samples from 10 sites on four continents. A total of 248 isolates were confirmed as Pseudomonas sensu stricto by fluorescent pigment production and group-specific 16S ribosomal DNA (rDNA) primers. These isolates were analyzed by three molecular typing methods with different levels of resolution: 16S rDNA restriction analysis (ARDRA), 16S-23S rDNA intergenic spacer-restriction fragment length polymorphism (ITS-RFLP) analysis, and repetitive extragenic palindromic PCR genomic fingerprinting with a BOX primer set (BOX-PCR). All isolates showed very similar ARDRA patterns, as expected. Some ITS-RFLP types were also found at every geographic scale, although some ITS-RFLP types were unique to the site of origin, indicating weak endemicity at this level of resolution. Using a similarity value of 0.8 or more after cluster analysis of BOX-PCR fingerprinting patterns to define the same genotypes, we identified 85 unique fluorescent Pseudomonas genotypes in our collection. There were no overlapping genotypes between sites as well as continental regions, indicating strict site endemism. The genetic distance between isolates as determined by degree of dissimilarity in BOX-PCR patterns was meaningfully correlated to the geographic distance between the isolates' sites of origin. Also, a significant positive spatial autocorrelation of the distribution of the genotypes was observed among distances of <197 km, and significant negative autocorrelation was observed between regions. Hence, strong endemicity of fluorescent Pseudomonas genotypes was observed, suggesting that these heterotrophic soil bacteria are not globally mixed.     

BOX-PCR is an Adequate Tool for Typing <Emphasis Type="Italic">Aeromonas</Emphasis> spp.

PCR-based methods of fingerprinting take advantage of the presence of repetitive sequences that are interspersed throughout the genome of diverse bacterial species. They include the repetitive extragenic palindromic (REP) sequence, the enterobacterial repetitive intergenic consensus sequence (ERIC) and the 154-bp BOX element. The combination of the three methods is used for fine discrimination of strains and is designated as rep-polymerase chain reaction (PCR). REP-PCR and ERIC-PCR have been shown to be useful for typing Aeromonas strains. To our knowledge, rep-PCR fingerprinting method using the BOXA1R primer has never been tested on aeromonads. In this study, the BOX-PCR fingerprinting technique was evaluated for the discrimination of strains of some Aeromonas species. All strains were typeable and the majority showed unique banding patterns. Four strains from culture collections were used to investigate the reproducibility of the method. According to our results, BOX-PCR fingerprinting is applicable for typing of Aeromonas strains and can be considered as a useful complementary tool for epidemiological studies of members of this genus.     

Diversity of antifungal and plant-associated Serratia plymuthica strains

A total of 21 plant-associated Serratia plymuthica strains were characterized phenotypically by their nutritional patterns, susceptibility to antibiotics, antifungal and haemolytic properties, and genotypically by denaturing gradient gel electrophoresis (DGGE) of PCR-amplified 16S rDNA, PCR fingerprints using BOX primers (BOX-PCR) and pulsed-field gel electrophoresis (PFGE) after digestion with SpeI. All of the investigated strains demonstrated antifungal activity in vitro against fungal pathogens while only six strains produced the antifungal antibiotic prodigiosin. Haemolytic activity and antibiotic resistance patterns were investigated to assess the risk associated with the use of isolates in plant protection. The strains were haemolytic at human-relevant temperatures. The level of resistance to antibiotics was low. This work shows that BOX-PCR and PFGE are useful fingerprinting methods to characterize Ser. plymuthica strains, although the discriminatory effect between the two methods differed. Computer-assisted analysis of phenotypic and genotypic features demonstrated relationships between the origin of isolation, the production of prodigiosin and the molecular fingerprint.     

Use of <Emphasis Type="Italic">rpoB</Emphasis> sequences and rep-PCR for phylogenetic study of <Emphasis Type="Italic">Anoxybacillus</Emphasis> species

This study was conducted to investigate the applicability of rpoB, which encodes the β subunit of RNA polymerase, to be used as an alternative to 16S rRNA gene sequence similarity analysis in the thermophilic genus Anoxybacillus. Partial rpoB sequences were generated for the 14 type strains of Anoxybacillus species and 6 other strains of four Anoxybacillus species. The sequences and the phylogenetic tree of rpoB were compared with those obtained from 16S rRNA gene analysis. The rpoB gene was found to provide a better resolution for Anoxybacillus species, with lower interspecies sequence similarities. The rpoB sequence similarity analysis permitted a more accurate discrimination of the species within the Anoxybacillus genus than the more commonly used 16S rRNA gene. Furthermore, rapid and reproducible repetitive extragenic palindromic fingerprinting techniques (REP-, ERIC-, and BOX-PCR) were employed for the specimens of genus Anoxybacillus. Through comparison of the three methods, it was found that the BOX-PCR method generated more informative results than REP-PCR for the studied strains; BOX-PCR profiles were more distinct for the different strains, including a higher number of bands. Rapid and reproducible repetitive extragenic palindromic fingerprinting techniques (rep-PCR) constitute a suitable molecular approach for the validation and maintenance of taxonomy within the Anoxybacillus genus. The results of this study show that rpoB and rep-PCR provide rapid and reliable methods for molecular typing of Anoxybacillus species.     

BOX-PCR技术在微生物多样性研究中的应用

近年来在微生物多样性研究中,利用微生物基因组中广泛分布的短重复序列设计引物,选择性地扩增重复序列之间的不同基因区域,以得到大小不等的DNA扩增片段的方法日渐增多.以BOX插入因子(细菌基因组重复序列)为基础的PCR技术,具有操作简单快捷,可重复性强,容易获得较为丰富的扩增条带等特点,最初主要应用于细菌的多样性研究.目前研究发现用BoxA1R引物对微生物中的真菌、放线菌进行选择性的扩增,也能够达到很好的遗传及多样性分析的目的.本文综述了BOX-PCR指纹图谱分析技术的特点和一般步骤;结合作者对植物内生细菌的BOX-PCR指纹图谱分析体系的优化,对BOX-PCR技术的改进进行了总结:并对该技术在微生物菌株多样性研究领域的应用现状和前景进行了阐述.     

Genotypic characterization of Enterobacter sakazakii isolates by PFGE, BOX-PCR and sequencing of the fliC gene

Aims:  Enterobacter sakazakii is an emerging food-borne pathogen that can cause rare but severe forms of neonatal meningitis, bacteraemia and necrotizing enterocolitis. A rapid typing method at the strain level is needed to determine the monoclonality or polyclonality of the isolates during outbreaks.
Methods and Results:  The BOX-PCR fingerprinting technique, which targets the repetitive BOX sequences, and sequencing of the flagellin gene, fliC , were evaluated against a panel of 27 Ent. sakazakii strains from clinical and environmental sources. The typeability and discriminatory power of the techniques were compared with those of pulsed-field gel electrophoresis (PFGE), the reference genotyping method. BOX-PCR results yielded 92% agreement with PFGE results, whereas fliC gene sequencing was poorly discriminative.
Conclusions:  In our study, BOX-PCR and PFGE were similarly discriminatory to type Ent. sakazakii strains. The weak variability of the Ent. sakazakii fliC gene was related to the absence of the variable central domain present in most fliC genes of Enterobacteriaceae.
Significance and Impact of the Study:  The BOX-PCR typing provides an accurate discrimination and a rapid answer to identify clonal isolates of Ent. sakazakii .     

BOX-PCR is an adequate tool for typing of clinical Pseudomonas aeruginosa isolates

In this study, the BOX-PCR fingerprinting technique was evaluated for the discrimination of clinical Pseudomonas aeruginosa isolates. All isolates were typeable and nearly half showed unique banding patterns. According to our results, BOX-PCR fingerprinting is applicable for typing of Pseudomonas aeruginosa isolates and can be considered a useful complementary tool for epidemiological studies of members of this genus.