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O'Sullivan, O,O'Callaghan, J,Sangrador-Vegas, A,McAuliffe, O,Slattery, L,Kaleta, P,Callanan, M,Fitzgerald, GF,Ross, RP,Beresford, T;
2009
March
BMC Microbiology
Comparative genomics of lactic acid bacteria reveals a niche-specific gene set
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BILE-SALT HYDROLASE LACTOBACILLUS-PLANTARUM WCFS1 STREPTOCOCCUS-THERMOPHILUS SEQUENCE ACIDOPHILUS IDENTIFICATION ENVIRONMENT SALIVARIUS HELVETICUS DIVERSITY
9
Background: The recently sequenced genome of Lactobacillus helveticus DPC4571 [1] revealed a dairy organism with significant homology (75% of genes are homologous) to a probiotic bacteria Lb. acidophilus NCFM [2]. This led us to hypothesise that a group of genes could be determined which could define an organism's niche.Results: Taking 11 fully sequenced lactic acid bacteria (LAB) as our target, (3 dairy LAB, 5 gut LAB and 3 multi-niche LAB), we demonstrated that the presence or absence of certain genes involved in sugar metabolism, the proteolytic system, and restriction modification enzymes were pivotal in suggesting the niche of a strain. We identified 9 niche specific genes, of which 6 are dairy specific and 3 are gut specific. The dairy specific genes identified in Lactobacillus helveticus DPC4571 were lhv_1161 and lhv_1171, encoding components of the proteolytic system, lhv_1031 lhv_1152, lhv_1978 and lhv_0028 encoding restriction endonuclease genes, while bile salt hydrolase genes lba_0892 and lba_1078, and the sugar metabolism gene lba_1689 from Lb. acidophilus NCFM were identified as gut specific genes.Conclusion: Comparative analysis revealed that if an organism had homologs to the dairy specific geneset, it probably came from a dairy environment, whilst if it had homologs to gut specific genes, it was highly likely to be of intestinal origin.We propose that this "barcode" of 9 genes will be a useful initial guide to researchers in the LAB field to indicate an organism's ability to occupy a specific niche.
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