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“To gain an insight into the chemotactic factors involved in chemotaxis, we exposed a virulent strain of Flavobacterium columnare to various treatments, followed by analysis of its chemotactic activity. The chemotactic activity of F. columnare was significantly (P<0.05) inhibited when cells were pretreated by sodium metaperiodate, and a major portion of the capsular layer surrounding the cells was removed. Pretreatment of F. columnare with d-mannose, d-glucose and N-acteyl-d-glucosamine significantly (P<0.05) inhibited its chemotaxis activity, whereas pretreatment of cells with d-fructose, l-fucose, d-glucosamine, d-galactosamine, d-sucrose and N-acetyl-d-galactosamine
selleck chemicals llc failed to inhibit its chemotactic activity. These results indicate that at least three carbohydrate-binding receptors (d-mannose, d-glucose and N-acteyl-d-glucosamine) associated
with the capsule of F. columnare might be involved in the chemotactic responses. The relative transcriptional levels of three gliding motility genes (gldB, gldC, gldH) of F. columnare compared Selleckchem JQ1 with 16S rRNA gene following the exposure of F. columnare to catfish skin mucus were evaluated by quantitative PCR (qPCR). qPCR results revealed that the transcriptional level of gldH was significantly (P<0.001) upregulated in normal F. columnare at 5 min postexposure to the catfish mucus. However, when F. columnare were pretreated with d-mannose, there was no upregulation of gliding motility genes. Taken together, click here our results suggest that carbohydrate-binding receptors play important roles in the chemotactic response to catfish mucus. Flavobacterium columnare, the causative agent of columnaris disease, is responsible
for significant economic losses in freshwater fish aquaculture worldwide. Many species of wild, cultured and ornamental fish are susceptible to columnaris disease (Austin & Austin, 1999). Channel catfish are especially susceptible to columnaris, with high mortality rates (Wagner et al., 2002). Columnaris disease is characterized by necrotic skin, fin and gill lesions containing yellow-pigmented bacteria aggregated in hay stack-shaped films (Austin & Austin, 1999). Flavobacterium columnare is a motile bacterium that moves by gliding motility over surfaces (McBride, 2001). It is considered to be a rapid glider (Youderian, 1998). Flavobacterium johnsoniae, a closely related species, is reported to glide at speeds up to 10 μm s−1 (Pate & Chang, 1979; Lapidus & Berg, 1982), and its gliding motion appears to require the recognition of extracellular components of the host by components of the bacterial cells to send signals to trigger the movement. Gliding motility of F. johnsoniae requires the expression of six genes: gldA, gldB, gldD, gldF, gldG and gldH (McBride et al., 2003), and it has been suggested that the mechanisms of gliding motility in F.