This work was supported by FEDER and Fundação para a Ciência e a Tecnologia (FCT), Portugal (grants: PTDC/QUI/67925/2006, PTDC/BIA-MIC/71453/2006 and PTDC/EBB-BIO/100326/2008) and PhD fellowships to D.M.-H. and N.B. We thank Dr Raquel Seruca from IPATIMUP, University of Porto, Portugal, for her valuable contribution to the present work. We acknowledge Prof. Gerd Döring from University of INCB024360 clinical trial Tübingen
in Germany, Prof. John LiPuma from University of Michigan in USA and Prof. David Speert from University of British Columbia in Canada, who kindly provided Burkholderia strains. “
“A new strain of Beauveria bassiana was identified on the basis of the 18S rRNA gene sequence homology. This strain, called P2, is a spontaneously arisen mutant that was isolated after successive sub-culturing the wild-type B. bassiana P1 strain. P2 showed hyper-production of extracellular protease(s) as much as ninefold more than P1. An extracellular protease (SBP) having a molecular weight of 32 kDa was purified from the P2 strain. SBP was completely inhibited by the phenyl Romidepsin molecular weight methyl sulphonyl fluoride, which suggests that it belongs to the serine
protease family. Based on the homology analysis of its N-terminal and the gene sequences, the enzyme was identified as subtilisin. The enzyme displays maximum activity at 60 °C and pH 8, and was stable at pH 6–12. The enzyme hydrolyses natural proteins such as keratin and is activated in presence of β-mercaptoethanol and Tween detergents. SBP was compatible with some laundry detergent formulations and showed high efficacy in the removal of blood stains from cotton fabric. Moreover, it was observed to degrade the melanised feathers and to
hydrolyse the gelatine from X-ray films. Bay 11-7085 All these results highlight the suitability of SBP protease as a very efficient microbial bio-resource. “
“Stress-response sigma factor σH is negatively regulated by its cognate anti-sigma factor RshA in Streptomyces griseus. As the overexpression of RshA in the wild-type strain confers a distinctive bald phenotype (deficiency in aerial mycelium formation and streptomycin production), RshA is supposed to associate with not only σH but also another regulatory element that plays a crucial role in the developmental control of S. griseus. Here, we show that an anti-sigma factor antagonist BldG associates with RshA and negatively regulates its activity. The bald phenotype conferred by the overexpression of rshA was restored to the wild-type phenotype by the coexpression with bldG. The in vivo and in vitro protein interaction analyses demonstrated the specific association between RshA and BldG. A bldG mutant exhibited a distinctive bald phenotype and was defective in the σH-dependent transcription activities.