bGene names for S coelicolor (SCO) and S lividans (SLI) and ann

bGene names for S. coelicolor (SCO) and S. lividans (SLI) and annotated function are

from the StrepDB database [7]. c S. coelicolor microarrays were used for transcriptome analysis of the S. lividans adpA mutant (the complete microarray data set is presented in Additional file Crenigacestat 2: Table S2). The S. lividans genome sequence was recently made available [24] and SLI ortholog gene numbers were identified as SCO gene orthologs with StrepDB database [7]. The expression of genes shown in bold was analysed by qRT-PCR. Intergenic DNA regions between genes labelled with asterisks were analyzed by EMSA (Figure 2). A SCO7658-orthologous sequence (98% nucleotide identity according to BLAST) was detected in S. lividans, downstream from hyaS, but it was not annotated as a S. lividans coding DNA sequence (CDS). However our microarray data suggest that this sequence is indeed a CDS or alternatively that the S. lividans hyaS CDS is longer than annotated. dSCO genes and their S. griseus orthologs studied and described under another name found on StrepDB database [7] or see “References”. eFold Mocetinostat research buy change (Fc) in gene expression in the S. lividans adpA mutant with respect to the parental strain with P-value < 0.05, YH25448 mw as calculated by Student’s t-test applying the Benjamini

and Hochberg multiple testing correction. ± indicates average Fc of some gene operons (see Additional file 2: Table S2 for details). fFrom a protein classification scheme for the S. coelicolor genome available from

the Welcome Trust Sanger Institute Rolziracetam database [37]: macromolecule metabolism (m. m.), small molecule metabolism (s. m.). Identification of new AdpA-controlled genes To confirm that S. lividans AdpA controls the expression of genes identified as differentially expressed in microarray experiments, six genes were studied in more detail by qRT-PCR. The six genes were selected as having biological functions related to Streptomyces development or the cell envelope (ramR[1], hyaS[44] and SLI6586 [37]) or primary or secondary metabolism (SLI0755, cchA, and cchB[43]), and for having very large fold-change values (Table 1). The genes in S. coelicolor and griseus orthologous to SLI6586 and SLI6587 encode secreted proteins [12, 42]. The expression levels of these genes in S. lividans wild-type and adpA strains were measured after various times of growth in liquid YEME media (Figure 1b), as shown in Figure 1a. The S. lividans hyaS gene was strongly down-regulated in the adpA mutant compared to the wild-type (Fc < 0.03) (Figure 1b) as previously observed for the SCO0762 homolog also known as sti1[25]. This suggests that hyaS expression is strongly dependent on S. lividans AdpA or an AdpA-dependent regulator.

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