Tony H. S. Woo

Clostridium methoxybenzovorans sp. nov., a new aromatic o-demethylating homoacetogen from an olive mill wastewater treatment digester.

A strictly anaerobic, spore-forming bacterium (3.0-5.0 x 0.4-0.8 microns), designated strain SR3T (T = type strain), which stained Gram-positive and possessed a Gram-positive type cell wall was isolated from a methanogenic pilot-scale digester fed with olive mill wastewater (Sfax, Tunisia). It utilized a number of carbohydrates (glucose, fructose, sorbose, galactose, myo-inositol, sucrose, lactose, cellobiose), organic compounds (lactate, betaine, sarcosine, dimethylglycine, methanethiol, dimethylsulfide), alcohol (methanol) and all methoxylated aromatic compounds only in the presence of yeast extract (0.1%). The end products from carbohydrate fermentation were H2, CO2, formate, acetate and ethanol, that from lactate was methanol, those from methoxylated aromatics were acetate and butyrate, and that from betaine, sarcosine, dimethylglycine, methanethiol and dimethylsulfide was only acetate. Strain SR3T was non-motile, had a G+C content of 44 mol% and grew optimally at 37 degrees C and pH 7.4 on a glucose-containing medium. Phylogenetically, the closest relatives of strain SR3T were the non-methoxylated aromatic-degrading Clostridium xylanolyticum, Clostridium aerotolerans, Clostridium sphenoides and Clostridium celerecrescens (mean similarity of 98%). On the basis of the phenotypic, genotypic and phylogenetic characteristics of the isolate, it is proposed to designate strain SR3T as Clostridium methoxybenzovorans sp. nov. The type strain is SR3T (= DSM 12182T).

Identification of Leptospira biflexa by real-time homogeneous detection of rapid cycle PCR product.

Sequence analysis of 16S rRNA genes extracted from nucleic acids databases enabled the identification of a Leptospira biflexa (L. biflexa) signature sequence, against which a reverse primer designated L613, was designed. This primer, when used in conjunction with a universal bacterial specific forward primer designated Fd1, enabled the development of a LightCycler-based PCR protocol in which fluorescence emission due to binding of SYBR Green I dye to amplified products could be detected and monitored. A melting temperature (Tm), determined from the melting curve of the amplified product immediately following the termination of thermal cycling, confirmed that the product was that of L. biflexa. Agarose gel electrophoresis therefore was not necessary for identification of PCR products. The PCR protocol was very rapid, and consisted of 30 cycles with a duration of 20 s for each cycle with the monitoring of the melting curve requiring an additional 3 min. The whole protocol was completed in less than 20 min. The PCR protocol was also specific and enabled the identification of 18 strains of L. biflexa, whilst excluding 14 strains of L. interrogans and Leptonema illini. Two examples of its utility in improving work flow of a Leptospira reference laboratory are presented in this article. The use of a simple boiling method for extraction of DNA from all the members of the Leptospiraceae family DNA further simplifies the procedure and makes its use conducive to diagnostic laboratories.

Identification of Leptospira inadai by continuous monitoring of fluorescence during rapid cycle PCR

Seven new Leptospira isolates from rats, a buffalo, and contaminated media showed either reactive serology against more than 1 serogroup or no reactive serology against a reference panel of 22 serovars in the microscopic agglutination test (MAT). Because of these inconclusive results, the 16S rDNA sequences of these isolates were determined and found to resemble that of the type strain of Leptospira inadai (L. inadai), serovar lyme strain 10, which is considered to be nonpathogenic for humans. Comparative analyses of other Leptospira 16S rDNA sequences from databases revealed a L. inadai-specific signature sequence, against which an amplification primer was designed. This primer when used in conjunction with an universal primer enabled the trial of a rapid PCR protocol in which fluorescence emissions due to binding of SYBR Green I dye to PCR products were continuously monitored during rapid thermal cycling. A melting curve acquired immediately after PCR was used to distinguish the intended product. The thermal cycling and continuous monitoring of fluorescence emission were accomplished by the LightCycler; the whole procedure of 30 PCR cycles and melting curve acquisition required only 20 minutes. The primer achieved the required specificity, as the intended PCR product resulted only from 6 confirmed L. inadai reference strains and 7 field isolates that had been verified as L. inadai by the 16S rDNA sequencing, but not from 16 reference strains of Leptospira belonging to 7 other genospecies. Furthermore, these experiments showed that the PCR protocol was robust because target DNA of different conditions, which were extracted by either 1 of the 4 methods used, could be detected.