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Nikkomycin Z (nikkomycin + z)
Selected AbstractsCharacterization of a dual specificity aryl acid adenylation enzyme with dual function in nikkomycin biosynthesisBIOPOLYMERS, Issue 9 2010Mary Moon Abstract Nikkomycin Z is a dipeptide antifungal antibiotic characterized by two nonproteinogenic amino acids, nikkomycin CZ and 4-(4,-hydroxy-2,-pyridinyl)-homothreonine (HPHT). The HPHT scaffold is assembled by an aldol reaction between 2-oxobutyrate and picolinaldehyde, the latter of which is derived from picolinic acid that is activated and loaded to coenzyme A by the aryl-activating adenylation enzyme, NikE. We now provide evidence that NikE is also involved in the activation and loading of the ,-keto acid precursor, 4-(2,-pyridinyl)-2-oxo-4-hydroxyisovalerate (POHIV), to a phosphopantetheinyl group of an acyl carrier protein domain of NikT. POHIV was synthesized using Escherichia coli 2-dehydro-3-deoxy-phosphogluconate aldolase, and phenylalanine dehydrogenase from Bacillus sp. NRRL B-14911 was used to prepare the ,-amino acid, 4-(2,-pyridinyl)-homothreonine (PHT). Using the carboxylic acid-dependent, ATP-[32P]PPi exchange assay, NikE is shown to activate both picolinic acid and POHIV but not PHT. Furthermore, NikE loads POHIV to holo-NikT to generate a new thioester-linked intermediate, which was not observed using a NikT(S33A) mutant. Thus, NikE activates two distinct carboxylic acids to form two new thioester intermediates, one of which is subsequently reduced to the aldehyde and the other that likely serves as a substrate for the aminotransferase domain of NikT prior to condensation with nikkomycin CZ to yield the dipeptide. © 2010 Wiley Periodicals, Inc. Biopolymers 93: 791,801, 2010. [source] The Cryptococcus neoformans MAP kinase Mpk1 regulates cell integrity in response to antifungal drugs and loss of calcineurin functionMOLECULAR MICROBIOLOGY, Issue 5 2003Peter R. Kraus Summary Cell wall integrity is crucial for fungal growth, development and stress survival. In the model yeast Saccharomyces cerevisiae, the cell integrity Mpk1/Slt2 MAP kinase and calcineurin pathways monitor cell wall integrity and promote cell wall remodelling under stress conditions. We have identified the Cryptococcus neoformans homologue of the S. cerevisiae Mpk1/Slt2 MAP kinase and have characterized its role in the maintenance of cell integrity in response to elevated growth temperature and in the presence of cell wall synthesis inhibitors. C. neoformans Mpk1 is required for growth at 37°C in vitro, and this growth defect is suppressed by osmotic stabilization. C. neoformans mutants lacking Mpk1 are attenuated for virulence in the mouse model of cryptococcosis. Phosphorylation of Mpk1 is induced in response to perturbations of cell wall biosynthesis by the antifungal drugs nikkomycin Z (a chitin synthase inhibitor), caspofungin (a ,-1,3-glucan synthase inhibitor), or FK506 (a calcineurin inhibitor), and mutants lacking Mpk1 display enhanced sensitivity to nikkomycin Z and caspofungin. Lastly, we show that calcineurin and Mpk1 play complementing roles in regulating cell integrity in C. neoformans. Our studies demonstrate that pharmacological inhibition of the cell integrity pathway would enhance the activity of antifungal drugs that target the cell wall. [source] New milliliter-scale stirred tank bioreactors for the cultivation of mycelium forming microorganismsBIOTECHNOLOGY & BIOENGINEERING, Issue 3 2010Ralf Hortsch Abstract A novel milliliter-scale stirred tank bioreactor was developed for the cultivation of mycelium forming microorganisms on a 10 milliliter-scale. A newly designed one-sided paddle impeller is driven magnetically and rotates freely on an axis in an unbaffled reaction vessel made of polystyrene. A rotating lamella is formed which spreads out along the reactor wall. Thus an enhanced surface-to-volume ratio of the liquid phase is generated where oxygen is introduced via surface aeration. Volumetric oxygen transfer coefficients (kLa),>,0.15,s,1 were measured. The fast moving liquid lamella efficiently prevents wall growth and foaming. Mean power consumption and maximum local energy dissipation were measured as function of operating conditions in the milliliter-scale stirred tank bioreactor (V,=,10,mL) and compared to a standard laboratory-scale stirred tank bioreactor with six-bladed Rushton turbines (V,=,2,000,mL). Mean power consumption increases with increasing impeller speed and shows the same characteristics and values on both scales. The maximum local energy dissipation of the milliliter-scale stirred tank bioreactor was reduced compared to the laboratory-scale at the same mean volumetric power input. Hence the milliliter impeller distributes power more uniformly in the reaction medium. Based on these data a reliable and robust scale-up of fermentation processes is possible. This was demonstrated with the cultivation of the actinomycete Streptomyces tendae on both scales. It was shown that the process performances were equivalent with regard to biomass concentration, mannitol consumption and production of the pharmaceutical relevant fungicide nikkomycin Z up to a process time of 120,h. A high parallel reproducibility was observed on the milliliter-scale (standard deviation,<,8%) with up to 48 stirred tank bioreactors operated in a magnetic inductive drive. Rheological behavior of the culture broth was measured and showed a highly viscous shear-thinning non-Newtonian behavior. The newly developed one-sided paddle impellers operated in unbaffled reactors on a 10 milliliter-scale with a magnetic inductive drive for up to 48 parallel bioreactors allows for the first time the parallel bioprocess development with mycelium forming microorganisms. This is especially important since these kinds of cultivations normally exhibit process times of 100,h and more. Thus the operation of parallel stirred tank reactors will have the potential to reduce process development times drastically. Biotechnol. Bioeng. 2010; 106: 443,451. © 2010 Wiley Periodicals, Inc. [source] | ||||||||||