Restriction fragment length polymorphisms of 16S rDNA and of whole rRNA genes (ribotyping) of Streptococcus iniae strains from the United States and Israel

Streptococcus iniae (junior synonym S. shiloi) isolated from tilapia and trout in Israel and in the United States were subtyped by restriction length polymorphism (RFLP) based on PCR amplified 16S rDNA and by ribotyping. 16S rDNA RFLP discriminated between S. iniae and other fish pathogens but not between S. iniae strains. HindIII and EcoRI ribotypes of S. iniae discriminated American from Israeli strains rejecting the possibility of an epidemiological link between S. iniae infections in the two countries. Israeli strains isolated from tilapia and trout could not be completely differentiated. The S. iniae ATCC 29178^T (T=Type strain) strain, isolated from a freshwater dolphin belonged to a ribotype different from those of all the fish isolates.     

Characterization of nitrogen-fixing Paenibacillus species by polymerase chain reaction-restriction fragment length polymorphism analysis of part of genes encoding 16S rRNA and 23S rRNA and by multilocus enzyme electrophoresis

Forty-two strains representing the eight recognized nitrogen-fixing Paenibacillus species and 12 non-identified strains were examined by restriction fragment length polymorphism (RFLP) analysis of part of 16S and 23S rRNA genes amplified by polymerase chain reaction (PCR). Eleven different 16S rDNA genotypes were obtained from the combined data of RFLP analysis with four endonucleases and they were in agreement with the established taxonomic classification. Only one group of unclassified strains (Group I) was assigned in a separate genotype, suggesting they belong to a new species. Using the 23S PCR-RFLP method only six genotypes were detected, showing that this method is less discriminative than the 16S PCR-RFLP. Using the multilocus enzyme electrophoresis (MLEE) assay, the 48 strains tested could be classified into 35 zymovars. The seven enzymatic loci tested were polymorphic and the different profiles obtained among strains allowed the grouping of strains into 10 clusters. The PCR-RFLP methods together with the MLEE assay provide a rapid tool for the characterization and the establishment of the taxonomic position of isolates belonging to this nitrogen-fixing group, which shows a great potentiality in promoting plant growth.     

Restriction fragment length polymorphisms in mitochondrial DNA and ribosomal RNA gene complexes as an aid to the characterization of species and sub-species populations in the genus Verticillium

Abstract Genomic DNA was extracted from seven species of Verticillium and digested with the restriction endonucleases Eco RI or Hae III. Hybridization with an homologous V. albo-atrum ribosomal RNA gene probe revealed restriction fragment length polymorphisms (RFLPs) which could differentiate V. lateritium, V. lecanii, V. nigrescens, V. nubilum and V. tricorpus . Digestion with Eco RI did not provide RFLPs which could distinguish between V. albo-atrum and V. dahliae . Digestion of genomic and mitochondrial DNA with Hae III showed distinctive patterns on ethidium bromide gels which allowed each species to be distinguished. Some intra-species variation in patterns occurred and a combination of mitochondrial and ribosomal RNA gene complex RFLPs has potential as an aid for the characterization of species and sub-species populations in the genes Verticillium .     

Identification of Azospirillum strains by restriction fragment length polymorphism of the 16S rDNA and of the histidine operon

Abstract DNA fingerprints of several Azospirillum strains, belonging to the five known species A. amazonense, A. brasilense, A. halopraeferens, A. irakense and A. lipoferum , were obtained by restriction analysis of the amplified 16S rDNA and by restriction fragment length polymorphism of the histidine biosynthetic genes. Data obtained showed that amplified rDNA restriction analysis is an easy, fast, reproducible and reliable tool for identification of Azospirillum strains, mainly at the species level, whereas restriction fragment length polymorphism could, in some cases, differentiate strains belonging to the same species. Moreover, both analyses gave congruent results in grouping strains and in the assignment of new strains to a given species.     

Species identification of clinically important Aeromonas spp. by restriction fragment length polymorphism of 16S rDNA

AIMS: The aim of the study was to characterize 16S rDNA of Aeromonas spp. to rapidly identify clinically important species of these bacteria. METHODS AND RESULTS: Sequence analysis of published 16S rDNA for unique restriction sites revealed prospect of species identification. Extraction of genomic DNA followed by amplification and step-by-step restriction endonuclease digestion of 16S rDNA was able to identify Aeromonas spp. of medical significance. Validation of the method was performed by subjecting 53 Aeromonas strains of multiple origin to similar treatment. Results of the study were in agreement with corresponding species of the isolates. CONCLUSIONS: The method developed offers an easily interpretable tool for the identification of Aeromonas spp. of clinical relevance. SIGNIFICANCE AND IMPACT OF THE STUDY: The developed methodology should facilitate routine laboratory diagnosis of Aeromonas spp. from clinical cases to species level.     

Differentiation of Bartonella species using restriction endonuclease analysis of PCR-amplified 16S rRNA genes

Abstract Differentiation of the four Bartonella species which were formerly classified as Rochalimaea using restriction endonuclease analysis of PCR-amplified citrate synthase gene fragments has previously been described. However, attempts to extend this method to include all members of Bartonella were confounded when amplification of the gene fragment from strains of B. bacilliformis each yielded two products of differing sizes. An alternative differentiation scheme for Bartonella species was developed based on restriction endonuclease analysis of their 16S rRNA genes. As the complete 16S rRNA gene sequences of all extant Bartonella species are available, the usefulness of specific endonucleases could be theoretically predetermined rather than discovered empirically. The potential usefulness of the restriction enzymes Ddel and Mnll was established using this approach, and this potential was confirmed in practice as all eight species could be distinguished from each other.     

Restriction fragment length polymorphisms as genetic markers in soybean,Glycine max (L.) merrill

Summary Restriction Fragment Length Polymorphisms (RFLP) have been identified between widely distant cultivars (Minsoy and Noir 1 ) of soybean Glycine max (L.) Merrill. Using as probes randomly chosen clones of DNA, one in five probes revealed a polymorphism. More than half of these polymorphisms appear to result from rearrangements of the genomic DNA. Twenty seven markers were analyzed for linkage in F₂ plants. Eleven of these markers were contained in four linkage groups. Five cultivars were compared in a search for new alleles. When RFLP markers corresponding to low copy DNA were used to analyze three other cultivars — Sooty, Forrest and Mandarin (Ottawa) — few new alleles were found. Using these probes, five different markers could be used to differentiate the five cultivars. Complex probes, which correspond to repeated DNA, revealed different polymorphisms in different cultivars and a single such probe could be used to distinguish the five cultivars from each other.     

油菜内生细菌16S核糖体DNA的RFLP分析

植物内生细菌定殖在植物组织内部但不引起明显的病害症状。从健康油菜植株的不同器官中分离到大量内生细菌,这些细菌菌落形态存在明显的差异,表明油菜组织中存在大量内生细菌,且类群丰富。分离到的122株内生细菌根据菌落形态可以划分为35类;利用细菌通用引物对16S核糖体DNA进行扩增, 获得约15 kb片段,分别用内切酶HaeⅢ和MspⅠ对扩增产物进行限制性酶切,产生不同的酶切图谱,根据酶切图谱聚类分析结果,所有供试菌株被归为39类,这一结果从遗传上显示油菜内生细菌类群的多样性。两种方法归类结果比较发现菌落特征所反映的信息量有限,只能作为初步的参考指标,核糖体DNA的限制性片段长度多态性分析快速、准确,可以作为油菜内生细菌多样性分析的一种有效方法     

Rapid investigation of French sourdough microbiota by restriction fragment length polymorphism of the 16S-23S rRNA gene intergenic spacer region

The aim of the present research is to identify rapidly the lactic acid bacteria (LAB) microflora of four natural French sourdoughs (GO, BF, VB and RF), applying a biphasic (restriction length polymorphism (RFLP) and sequencing) approach for bacterial identification. For this purpose, a database with the RFLP patterns of 30 lactobacilli type strains was created. So-developed ISR-RFLP algorithm was further applied for the differentiation and identification of 134 sourdough isolates. The 16S-23S rDNA intergenic spacer region was amplified by primers t^Ala and 23S/10, and then digested by HindIII, HinfI and α-TaqI enzymes. Nucleotide sequences of the cloned 16S-23S intergenic spacer region (ISR) were determined by the dideoxynucleotide chain termination method. The T7Prom and M13rev primers flanking the multiple cloning site of pCR2.1 DNA were used to sequence both DNA strands. The RFLP profile obtained upon digestion with HindIII, HinfI and α-TaqI enzymes can be used to discriminate Lactobacillus sanfranciscensis (66%), Lactobacillus panis (17%), Lactobacillus nantensis (11%) and Lactobacillus hammesii(6%) in sourdough GO, Lactobacillus sanfranciscensis (80%), Lactobacillus spicheri (14%) and Lactobacillus pontis(6%) in sourdoughs BF. In sourdoughs VB, which differed in the process temperature, we can differentiate Lactobacillus sanfranciscensis (89%) and Leuconostoc mesenteroidessubsp. mesenteroides (11%). Lactobacillus frumenti(47%), Lactobacillus hammesii (8%), and Lactobacillus paralimentarius (45%) were differentiated in sourdough RF.     

Mycoplasma gallisepticum 16S rRNA genes

Abstract The genome of Mycoplasma gallisepticum A5969 contains a truncated pseudogene for 16S rRNA in addition to a single unsplit rRNA-operon and a second discontinuous set of rRNA genes. Other M. gallisepticum strains tested do not posses the truncated gene. This gene is almost identical to full-size isolated 16S rRNA gene starting from at least 500 nucleotides upstream of the coding sequence and ending at the 977th nucleotide within the structural part of 16S rRNA.     

土壤细菌16SrRNA基因变异型及其与植被的相关研究

绕过细菌的分离培养,直接提取土壤DNA,扩谱,克隆土壤细菌群体的16S核糖体RNA基因（16S,rDNA),根据该基因各种变异类型的限制性片段长度多型性,分析土壤细菌分子遗传多样性及其与植被的相关关系,植被的改变影响土壤养分,进而改变土壤细菌群落结构,土壤细菌遗传多样性和分化能反映植被的变化。     

Restriction fragment length polymorphisms distinguish ectomycorrhizal fungi

Basidiomycetous fungi, two saprophytes and three mycorrhizal, were used to assess the specificity of DNA hybridization for distinguishing genera from one another. Interspecific comparisons were done with several isolates of mycorrhizal fungi,Laccaria bicolor andL. laccata, collected from diverse geographical sites. The DNAs were digested with four restriction nucleases and separated by gel electrophoresis into patterns of DNA fragments called restriction fragment length polymorphisms (RFLPs). The RFLPs were hybridized with a radioactively-labeled DNA probe encoding Basidiomycetous ribosomal RNA genes. The five genera were discernable using both unprobed and probed RFLPs. Hybridization of probe DNA with RFLPs was isolate-specific for all nine Laccaria isolates examined. The reclassification of aL. bicolor isolate is supported, demonstrating that hybridization of RFLPs offers an additional tool for taxonomy of ectomycorrhizal fungi. The method may have field application for distinguishing known isolates if their DNA fingerprints are previously ascertained and are distinct from RFLPs of indigenous organisms.     

PCR-generated artefact from 16S rRNA gene-specific primers

Artefacts consisting of concatenated oligonucleotide primer sequences were generated during sub-optimally performing polymerase chain reaction amplification of bacterial 16S rRNA genes using a commonly employed primer pair. These artefacts were observed during amplification for terminal restriction fragment length polymorphism analyses of complex microbial communities, and after amplification from DNA from a microbial culture. Similar repetitive motifs were found in gene sequences deposited in GenBank. The artefact can be avoided by using different primers for the amplification reaction.     

利用16S rRNA基因同源性分析鉴定两株明串珠菌

从酸马奶中分离出2株明串珠菌KLDS 5.0301和KLDS 5.0302,对2株菌的16S rRNA基因经PCR扩增测序,将测序结果同该属内菌株的16S rRNA序列作多序列比较,并建立明串珠菌属的系统发育树.结果表明,KLDS 5.0301的16S rRNA序列同L. garlicum的同源性百分比为100%.KLDS 5.0302的16S rRNA序列同L.mesenteroides LM2菌株的16S rRNA序列的同源性百分比为99.9%.根据系统发育树的结果,将KLDS5.0301鉴定为L.garlicum,KLDS 5.0302鉴定为L.mesenteroides.菌株KLDS 5.0301和KLDS 5.0302的16SrRNA序列已经在GeneBank申请国际序列注册号,分别为DQ239691和DQ297412.     

原核生物全基因组中16S rRNA基因的识别

【目的】识别原核生物全基因组中的16S rRNA基因。【方法】本文依据基因序列的GC碱基含量、碱基3-周期性和马尔可夫链3个方面的特性,构建了识别原核生物全基因组中16S rRNA基因的三层过滤模型。【结果】经检验,模型的特异性、敏感性和马修斯相关系数分别为99.58%、91.60%和91.49%。【结论】结果表明,本文所提出的方法可以高效、准确地识别出16S rRNA基因。     

Restriction fragment length polymorphism species-specific patterns in the identification of white truffles

A molecular method for the identification of ectomycorrhizae belonging to five species of white truffle is described. The polymerase chain reaction (PCR) and universal primers were used to amplify internal transcribed spacers and 5.8S rDNA, target sequences present in a high number of copies. The amplified products were digested with restriction enzymes in order to detect interspecific polymorphisms. Species-specific restriction fragment length polymorphism patterns were determined for all five species. The use of PCR in conjunction with restriction enzymes provides a sensitive and efficient tool for use in distinguishing ectomycorrhizal species and monitoring inoculated seedlings or field mycorrhizal populations.