Project description:Weissella cibaria KACC 11862 is a Gram-positive, heterofermentative, Leuconostoc-like lactic acid bacterium that is widely distributed in Korean traditional foods such as kimchi. Here we report the draft genome sequence of the type strain, W. cibaria KACC 11862 (1,599 known genes, 80 RNA genes), which consists of 72 large contigs (>100 bp in size).
Project description:The first complete genome sequence of a phage infecting Weissella cibaria (Weissella kimchii) is presented. The bacteriophage YS61 was isolated from kimchi, a Korean fermented vegetable dish. Bacteriophages are recognized as a serious problem in industrial fermentations; however, YS61 differed from many virulent phages associated with food fermentations since it was difficult to propagate and was very susceptible to resistance development. Sequence analysis revealed that YS61 resembles Podoviridae of the subfamily Picovirinae. Within the subfamily Picovirinae, the 29-like phages have been extensively studied, and their terminal protein-primed DNA replication is well characterized. Our data strongly suggest that YS61 also replicates by a protein-primed mechanism. Weissella phage YS61 is, however, markedly different from members of the Picovirinae with respect to genome size and morphology. Picovirinae are characterized by small (approximately 20-kb) genomes which contrasts with the 33,594-bp genome of YS61. Based on electron microscopy analysis, YS61 was classified as a member of the Podoviridae of morphotype C2, similar to the 29-like phages, but its capsid dimensions are significantly larger than those reported for these phages. The novelty of YS61 was also emphasized by the low number of open reading frames (ORFs) showing significant similarity to database sequences. We propose that the bacteriophage YS61 should represent a new subfamily within the family Podoviridae.
Project description:BACKGROUND:Weissellicin 110 is the only bacteriocin reported in Weissella cibaria up to now. This bacteriocin represents several unique features. This is the first report on the gene sequence that encodes for the bacteriocin. OBJECTIVES:Providing a rapid detection method to isolate the weissellicin 110 encoding gene and determination of the bacteriocin distribution were the objectives. MATERIALS AND METHODS:Bacteriocin from W. cibaria 860106 was purified and analyzed using mass spectrometry for proteins sequencing. The draft genome sequence of W. cibaria 860106 was generated using next generation sequencing. PCR was applied to detect the weissellicin 110 encoding gene. RESULTS:The molecular weight and partial protein sequence were obtained for the bacteriocin from W. cibaria 860106. An open reading frame (ORF) was identified as weissellicin 110 from the draft genome sequence. PCR primers were designed to amplify the weissellicin 110 encoding gene and these primers detected sequences from other 27 BLIS-producing W. cibaria strains previously isolated from either various Taiwanese fermented foods or the respective raw materials. CONCLUSIONS:The genetic information of weissellicin 110 was obtained, enabling rapid detection of the weissellicin 110 encoding gene. Results suggest that weissellicin 110 producing W. cibaria strains are widely distributed inTaiwanese fermented foods.
Project description:In this study, we report the morphogenetic analysis and genome sequence of a new WCP30 phage of Weissella cibaria, isolated from a fermented food. Based on its morphology, as observed by transmission electron microscopy, WCP30 phage belongs to the family Siphoviridae. Genomic analysis of WCP30 phage showed that it had a 33,697-bp double-stranded DNA genome with 41.2% G+C content. Bioinformatics analysis of the genome revealed 35 open reading frames. A BLASTN search showed that WCP30 phage had low sequence similarity compared to other phages infecting lactic acid bacteria. This is the first report of the morphological features and complete genome sequence of WCP30 phage, which may be useful for controlling the fermentation of dairy foods.
Project description:Weissella cibaria appears to have broad-spectrum health benefits. Here, we report the genome sequence of Weissella cibaria strain BM2, which was isolated from homemade kimchi; it consists of one circular chromosome of 2,462,443 bp and one plasmid of 11,067 bp. A total of 2,337 coding sequences were predicted, including 2,117 protein-coding sequences and a G+C content of 45.06%.