AI Article Synopsis
- The project aims to develop a custom 16S rRNA reference library to improve the identification of Salmonella enterica isolates, potentially streamlining regulatory processes.
- A total of 535 S. enterica isolates were partially sequenced, and 66 isolates were fully sequenced, resulting in high-quality data and the establishment of 83 unique sequence types for the partial library and 58 for the full library.
- Although the sequences showed limited divergence for serotype differentiation, they can be distinguished through intragenomic heterogeneity, with further validation of the method to follow for accuracy and reliability.
Article Abstract
The use of 16S rRNA gene sequencing within the regulatory workflow may help to reduce the time and labor involved in the identification and differentiation of Salmonella enterica isolates. However, a comprehensive, standardized reference library is needed in order to use this method with regulatory samples. The goal of this project was to acquire 16S rRNA partial and full gene sequences for a variety of S. enterica isolates and to use these sequences to build a custom 16S rRNA reference library. A total of 535 S. enterica isolates representing over 100 serotypes and 5 subspecies were selected for 16S rRNA partial gene sequencing (~500 bp) and 66 isolates representing 32 serotypes and 2 subspecies were selected for 16S rRNA full gene sequencing (~1500 bp). PCR, sequencing, and automated sequence assembly and editing were carried out using the MicroSEQ ID Microbial Identification System (Applied Biosystems). High quality sequences were obtained for 94.4% and 95.5% of the isolates sequenced over the partial and full genes, respectively. These sequences did not show sufficient divergence to reliably differentiate serotypes; however, they could be differentiated using 16S rRNA sequence typing based on intragenomic heterogeneity. A total of 83 unique 16S sequence types were obtained for use in the partial gene library and 58 unique 16S sequence types were obtained for entry into the full gene library. Preliminary sequencing results with one isolate analyzed in replicate were promising, with consistent matches to a specific 16S type in the custom library. The result of this study is a custom S. enterica 16S rRNA type library for potential use in the identification of isolates at the species, subspecies, and molecular subtype level. Further work will include validating the method for parameters such as exclusivity, sensitivity, and reproducibility.
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| http://dx.doi.org/10.1016/j.mimet.2012.09.018 | DOI Listing |
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