mutans mutant were up regulated in the E. faecalis mutants. Moreover, central glycolytic genes showed an opposite regulation in the two species. These differences could be a result of niche adaptation and reflect the difference in habitat of these human lactic acid bacteria. The fitness cost associated
by a lack of CCR is a probable reason why mutants resistant to class IIa bacteriocins are rarely isolated from nature. Conclusion We have demonstrated global transcriptional effects in E. faecalis mutants resistant to class IIa bacteriocins, caused by changes in the mpt operon. The majority of the effects can be attributed to relief from glucose repression and lack of CCA. This Selleck LY2090314 mannose PTS is central in regulating carbon catabolite control in this organism. Androgen Receptor animal study Our study is the first to characterize the cre-dependent and -independent responses in carbon catabolite control in enterococci. Acknowledgements This work was funded by a grant from the Research Council of Norway. We acknowledge Zhian Salehian, Linda H. Godager and Kari R. Olsen for technical assistance. Electronic supplementary material Additional file 1: Table A1: Transcriptional differences between the bacteriocin resistant mutants and the wild type. aThe gene expression ratios are shown as the log2 values of
expression in the mutant samples, MOP and MOM1, over that in the wild type, of the differentially expressed genes. Gene expression ratio are indicated by 1 when the fold-change ration data are under 2 and/or the q-values are higher than 0. bGene included
Bupivacaine with special interest, when not meet the statistical thresholds. cPutative cre-site buy CX-6258 adjacent gene is indicated with an arrow and illustrates gene(s) controlled by the same cre-site. The arrow is solid filled when the cre-site corresponds to the cre-consensus proposed by Miwa [40], and the arrow is not filled when it contains one mismatch. The cre-site position is either localized in the promotera, intragenicb or downstream of the gene (gradient filled arrow). dThe functional categories are: A. Amino acid biosynthesis, B. Biosynthesis of cofactors, prosthetic groups and carriers, C. Cell envelope, D. Cellular processes, E. Central intermediary metabolism, F. DNA metabolism, G. Energy metabolism, H. Hypothetical proteins, I. Protein fate and synthesis, J. Purines/pyrimidines/nucleosides/nucleotides, K. Regulatory functions, L. Signal transduction, M. Transcription, N. Transport and binding proteins, and O. Unknown function. (PDF 112 KB) Additional file 2: Table A2: Summary of the putative cre -sites of regulated genes in the mutant strains. Sequence and start position of the 63 putative promoter catabolite-responsive elements of the regulated genes in the pediocin PA-1 resistant mutants, MOM1 and MOP of E. faecalis V583. (DOC 119 KB) References 1. Klaenhammer TR: Genetics of bacteriocins produced by lactic acid bacteria*.