The AMS H2O-1 treatment of the polystyrene increased its ability to donate electrons, while surfactin decreased this property. The Lifshitz van der Waals component selleck compound increased with both treatments on stainless steel 304 and 430. This component

was maintained on carbon steel, galvanized steel and polystyrene with surfactin but decreased on galvanized steel and increased on polystyrene when treated with the AMS H2O-1. The surface free energy increased on stainless steel 304 and 430 and polystyrene, was maintained on carbon steel and decreased on galvanized steel for both molecules. Discussion Although synthetic surfactants are able to SYN-117 control corrosion and the growth of sulfate reducing bacteria, these substances may cause human and environmental health risks [44]. An alternative is the use of biosurfactants to replace the chemically synthesized mTOR cancer surfactant compounds. Biosurfactants are biodegradable and have low toxicity [45]. The AMS H2O-1 produced by Bacillus sp. H2O-1 has already been shown to inhibit the growth of sulfate reducing bacteria (SRB) [11, 26]. In this study, the AMS H2O-1 was characterized and was shown to have a surfactin-like lipopeptide structure. Surfactin is a biosurfactant, or an amphipathic molecule, that is a well-known product from the secondary metabolism of B. subtilis[17]. A comparative 16S rRNA gene sequence-based

phylogenetic analysis placed strain H2O-1 in a clade with the species Bacillus subtilis, B. amyloliquefaciens and B. methylotrophicus and revealed pairwise similarities higher than 99.5%. API 50CH tests were further used to help the assignment of H2O-1 in one of these species but the fermentation of 49 sugar substances

ADP ribosylation factor or derivatives was not sufficient for that. Therefore, the essential features for description of new taxa of the aerobic endospore-forming bacteria [46] should be used to achieve a reliable identification of strain H2O-1. In this study, this strain was considered only as a member of the genus Bacillus since the purification and characterization of AMS H2O-1 were the main purposes. Different surfactin-like compounds are non-ribosomally synthesized in Bacillus spp., and the enzymes that are involved in those syntheses are closely related [47]. AMS H2O-1, like every surfactin-like analogue, consists of a cyclic peptide containing seven amino acid residues (mostly hydrophobic amino acids) linked to a lipidic chain. The lipophilic portion may vary in length and ramification or in the amino acid content [32]. The original surfactin molecule contains the heptapeptide sequence Glu-Leu-Leu-Val-Asp-Leu-Leu, the same found in AMS H2O-1, and a varying lipid portion of C13-C15 β-hydroxy-fatty acids that was also observed in AMS H2O-1. However, an additional lipid portion, a C16 β-hydroxy-fatty acid, was also produced by the Bacillus sp.