Concentration of licochalcone A and in the THB medium only. Of the 1930 genes whose mRNA expression was detected by microarray, 132 genes were differentially regulated upon licochalcone A treatment, including 78 genes (59 ) up-regulated and 54 genes (41 ) down-regulated. The 132 regulated genes could be assigned into 18 function categories (COG) based on the 05ZYH33 genome annotation as shown in Figure 4, which included many central biological functions such as metabolism, transcription, translation. To confirm the microarray data, 11 genes (Figure 5) were measured by quantitative RT-PCR. A strong positive correlation (r2 = 0.98) between the data obtained by microarray and quantitative RT-PCR suggested the Title Loaded From File reliability of the microarray data. To more thoroughly understand the effect of licochalcone A on S.suis, we tried to analyze the gene expression profile in the aspect of bacteria cell cycle control. As we know, Bacterial cells, like their eukaryotic counterparts, have a complex subcellular organization required to regulate and coordinate the cell cycle Title Loaded From File processes. Changes in growth rate must be accompanied by changes in the cell cycle to ensure that cell division stays coordinated with mass doubling, chromosome replication and chromosome segregation [21]. In the presence of licochalcone A, a distinguished change in S.suis gene expression profile was the up-regulated expression of ribosomal proteins. Among 54 total genes encoding ribosomal proteins, 23 (42.6 ) genes (Table 2) were significantly upregulated the expression. Besides, genes encoding DNA-directed RNA polymerase were up-regulated and the genes encoding transcriptional regulator were down-regulated. So, the level of gene transcription might be accelerated. These results indicated that S.suis might be preparing for the mass doubling. However, weInhibition Effect of Licochalcone A on S.suisFigure 2. Effect of licochalcone A on biofilm formation by S.suis serotype 2 strain 05ZYH33 determined by the microtiter plate assay. S.suis was cultured in THB medium supplemented with 5 mg/ml human fibrinogen for 18 h (A) or 24 h (C) and biofilm formation was determined in the presence of 0, 2, 3 and 4 mg/ml licochalcone A, respectively. A value of 100 was given to the biofilm formed in the absence of licochalcone A. Assays were performed in triplicate, and the means 6 standard deviations of two independent experiments are indicated. The total cell density at 18 h (B) or 24 h (D) also were measured spectrophotometrically (OD600 nm). doi:10.1371/journal.pone.0067728.gfound the genes responsible for DNA replication and cell division did not change or were down-regulated the expression. As we know, chromosome replication is coordinated with cell growth to ensure that: each origin, replication initiates once and only once per division cycle; at least one round of replication is completed and the nucleoids have segregated before the completion of cell division; and there are sufficient nutrients to support these processes. Nutrient availability is a key determinant for replication initiation [22]. The production of the initiation protein DnaA and other essential components of the replication machinery is proportional to carbon availability and growth rate. Amino acid starvation directly inhibits replication initiation through the production of guanosine tetraphosphate and guanosine pentaphosphate [23]. In the presence of licochalcone A, S.suis genes responsible for amino acid transport and meta.Concentration of licochalcone A and in the THB medium only. Of the 1930 genes whose mRNA expression was detected by microarray, 132 genes were differentially regulated upon licochalcone A treatment, including 78 genes (59 ) up-regulated and 54 genes (41 ) down-regulated. The 132 regulated genes could be assigned into 18 function categories (COG) based on the 05ZYH33 genome annotation as shown in Figure 4, which included many central biological functions such as metabolism, transcription, translation. To confirm the microarray data, 11 genes (Figure 5) were measured by quantitative RT-PCR. A strong positive correlation (r2 = 0.98) between the data obtained by microarray and quantitative RT-PCR suggested the reliability of the microarray data. To more thoroughly understand the effect of licochalcone A on S.suis, we tried to analyze the gene expression profile in the aspect of bacteria cell cycle control. As we know, Bacterial cells, like their eukaryotic counterparts, have a complex subcellular organization required to regulate and coordinate the cell cycle processes. Changes in growth rate must be accompanied by changes in the cell cycle to ensure that cell division stays coordinated with mass doubling, chromosome replication and chromosome segregation [21]. In the presence of licochalcone A, a distinguished change in S.suis gene expression profile was the up-regulated expression of ribosomal proteins. Among 54 total genes encoding ribosomal proteins, 23 (42.6 ) genes (Table 2) were significantly upregulated the expression. Besides, genes encoding DNA-directed RNA polymerase were up-regulated and the genes encoding transcriptional regulator were down-regulated. So, the level of gene transcription might be accelerated. These results indicated that S.suis might be preparing for the mass doubling. However, weInhibition Effect of Licochalcone A on S.suisFigure 2. Effect of licochalcone A on biofilm formation by S.suis serotype 2 strain 05ZYH33 determined by the microtiter plate assay. S.suis was cultured in THB medium supplemented with 5 mg/ml human fibrinogen for 18 h (A) or 24 h (C) and biofilm formation was determined in the presence of 0, 2, 3 and 4 mg/ml licochalcone A, respectively. A value of 100 was given to the biofilm formed in the absence of licochalcone A. Assays were performed in triplicate, and the means 6 standard deviations of two independent experiments are indicated. The total cell density at 18 h (B) or 24 h (D) also were measured spectrophotometrically (OD600 nm). doi:10.1371/journal.pone.0067728.gfound the genes responsible for DNA replication and cell division did not change or were down-regulated the expression. As we know, chromosome replication is coordinated with cell growth to ensure that: each origin, replication initiates once and only once per division cycle; at least one round of replication is completed and the nucleoids have segregated before the completion of cell division; and there are sufficient nutrients to support these processes. Nutrient availability is a key determinant for replication initiation [22]. The production of the initiation protein DnaA and other essential components of the replication machinery is proportional to carbon availability and growth rate. Amino acid starvation directly inhibits replication initiation through the production of guanosine tetraphosphate and guanosine pentaphosphate [23]. In the presence of licochalcone A, S.suis genes responsible for amino acid transport and meta.
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