05%) loading buffer and a low concentration of lysozyme to solubilize the whole cell lysates, showed positive results compared to the conventional boiling extraction methods. Moreover, protein separation by SDS-PAGE with 0.05% SDS instead of 0.2% Selleck PD0325901 significantly enhanced post-blotting protein binding. Western ligand blotting with an insulin-peroxidase conjugate successfully

revealed IBP bands with Burkholderia strains at approximately 30 and 20 kDa (Fig. 3), but no IBPs were detected in lysates from either wild-type A. salmonicida CM30 or the ‘A’ mutant MT004. Hormone-binding proteins have been previously found in various types of microorganism, bacteria, fungi and protozoa (Souza & López, 2004). In the current study, 45 microbial species were screened for the presence of cell surface components capable of binding with the hormone insulin. The three positive strains of B. multivorans, B. cenocepacia and A. salmonicida http://www.selleckchem.com/products/Belinostat.html showed binding activity with an insulin-peroxidase conjugate but not with the

peroxidase on its own showing that the binding sites on these bacterial strains are for insulin and not for the peroxidase component. Nor did any of them possess an extracellular peroxidase activity. Wild-type A. salmonicida showed strong insulin binding, but this was lower with the A. salmonicida mutant MT004, which lacks the ‘A’ protein. The ‘A ’ protein of A. salmonicida plays an important role in pathogenicity, facilitating resistance to phagocytosis and bacteriophage infection (Kaplin et al., 1996; Nikoskelainen Non-specific serine/threonine protein kinase et al., 2005). The difference in insulin-binding capacity between the wild-type and mutant strains suggests that A. salmonicida has two insulin-binding components, one being the ‘A’ protein and the other as yet unknown cell surface component. Previous workers have shown that the ‘A’ protein binds many host components such as collagens Type I and IV (Trust et al., 1993), fibronectin and laminin. It is also reported that the ‘A’ protein is involved in iron uptake (Kay et al., 1985; Hirst

et al., 1991; Doig et al., 1992; Fernandez et al., 1998). The insulin-binding assay showed the ability of both bacterial species to bind insulin at physiological concentration suggesting that they possess a strong insulin-binding capacity. The binding by A salmonicida was stronger than B. multivorans because insulin binding in A. salmonicida appears to be primarily mediated by the ‘A’ protein, a proteinaceous layer surrounding the whole bacterium, which could present a multitude of binding sites for insulin (Arnesen et al., 2010). However, in the case of B. multivorans, there are far fewer receptors for insulin, hence a weaker/slower reaction. Western ligand blotting for IBPs of B. multivorans and B. cenocepacia revealed two positive protein bands at about 30 and 20 kDa or these bands are representing active monomer proteins from a protein complex. IBPs of 55 and 110 kDa were shown in N. crassa (Kole et al.