We investigated the intracellular physiological conditions associated with the induction of butanol-producing enzymes in Clostridium acetobutylicum. During the acidogenic phase of growth, the internal pH decreased in parallel with the decrease in the external pH, but the internal pH did not go below 5.5 throughout batch growth. Butanol was found to dissipate the proton motive force of fermenting C. acetobutylicum cells by decreasing the transmembrane pH gradient, whereas the membrane potential was affected only slightly. In growing cells, the switch from acid to solvent production occurred when the internal undissociated butyric acid concentration reached 13 mM and the total intracellular undissociated acid concentration (acetic plus butyric acids) was at least 40 to 45 mM. Similar values were obtained when cultures were supplemented with 50 mM butyric acid initially or when a phosphate-buffered medium was used instead of an acetate-buffered medium. To measure the induction of the enzymes involved in solvent synthesis, we determined the rates of conversion of butyrate to butanol in growing cells. The rate of butanol formation reached a maximum in the mid-solvent phase, when the butanol concentration was 50 mM. Although more solvent accumulated later, de novo enzyme synthesis decreased and then ceased.
A novel primase inhibitor, Sch 642305 (1), was isolated from the fermentation broth of the fungal culture Penicillium verrucosum. The structure of 1 was elucidated on the basis of MS and NMR spectroscopic data as a new and unusual bicyclic 10-membered macrolide. The absolute configuration of the asymmetric centers was determined by X-ray crystallographic analysis of the p-bromobenzoate derivative (3). Compound 1 exhibited inhibitory activity against bacterial DNA primase enzyme with an EC(50) of 70 microM.
Kinases are an important therapeutic target for drug discovery, and many cancer chemotherapeutic agents have been derived from natural product sources. Natural product samples, however, have the likelihood of assay interference, particularly at elevated test concentrations. The authors developed a competitive fluorescence polarization (FP) assay using red-shifted fluorophores for the AKT kinase and demonstrated utility for testing concentrated natural product extracts. A set of 7 actinomycetes cultures containing indolocarbazoles, known nonselective kinase inhibitors, and a control set of 22 nonproducing indolocarbazole cultures were evaluated. Using red-shifted dyes (Cy3B™ or Cy5™), the authors identified active samples with minimal interference up to the extract concentrations that are 3 times nonextracted culture levels. In contrast, a significant number of interferences were observed using either a fluorescein competitive FP assay or a [
A new hydrogenated azaphilone Sch725680 (1) was isolated and identified from the culture of an Aspergillus sp. The structure elucidation of 1 was achieved based on extensive NMR spectroscopic analyses. Compound 1 showed inhibitory activity against Saccharomyces cerevisiae (PM503) and Candida albicans (C43) with MICs of 8 and 64 mg/ml, respectively.
A novel antifungal agent, Sch 54445, was isolated from the fermentation broth of an Actinoplanes species. Sch 54445 was identified as a polycyclic xanthone related to the albofungin family of compounds on the basis of analyses of spectroscopic data. As a broad-spectrum antifungal agent, Sch 54445 exhibits highly potent activities against various yeasts and dermatophytes with MIC values approximately 0.00038 microgram/mL.
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