Subsequently, yeast cells were stained with the fluorescent reage

Subsequently, yeast cells were stained with the fluorescent reagents following the manufacturer’s instructions. This viability kit utilizes a mixture of the green-fluorescent stain SYTO® 9 with the red-fluorescent nucleic acid stain propidium iodide (PI). These stains SCR7 cost differ not only in their spectral characteristics, but also in their

ability to penetrate cells, so that SYTO® 9 stains the DNA of all cells irrespective of their membrane integrity, whereas PI penetrates only cells with damaged membranes. In addition, PI is able to quench the fluorescence of SYTO® 9. As a result, after staining with a mixture of these two fluorescent dyes, intact cells will appear green, whereas cells with damaged membranes Cell Cycle inhibitor will stain red. Yeast cells were visualized using a Nikon Eclipse E800 fluorescence microscope equipped with a Nikon Coolpix 4500 digital imager. Three independent experiments were performed.

A mid-logarithmic phase C. albicans culture (107 cells/mL) was incubated in PDB medium for 3 h at 30 °C in the presence of 250 μM of the synthetic peptide Hb 98–114 (2 times its MIC), plated on PDB agar, and colony-forming units were counted after 18-h incubation at 30 °C. Female ticks collected 2–7 days after host detachment were cooled on ice and immersed in 70% ethanol prior to dissection in cold phosphate buffered saline (PBS, 8 mM Na2HPO4, 1.5 mM KH2PO4, 137 mM NaCl, 2.7 mM KCl, pH 7.2). Midguts were transferred to centrifuge tubes containing ice-cold sodium acetate buffer (100 mM C2H3NaO3, pH 4.5) with the protease inhibitors: 10 μM pepstatin, 10 μM E-64 and 50 μM EDTA. Fifty midguts were homogenized in a Potter tissue homogenizer and sonicated for 3 cycles of 30 s each in a Vibracell sonicator

(Sonics & Materials, Inc., USA) for complete disruption of cells and tissues. The homogenate was centrifuged for 10 min at 5000 × g and the supernatant was Thymidylate synthase collected for peptide purification. The first purification step was performed in a 10 kDa cut-off Amicon Ultra-4 centrifugal filter (Millipore, USA). The filtered sample was vacuum-dried and reconstituted in ultra-pure water. The second purification step was performed in a high performance liquid chromatography system (HPLC, LC-10 Shimadzu, USA) equipped with a C18 reverse-phase semi-preparative column (5 μm, 4.6 mm × 250 mm, Vydac). Peptides were eluted with a linear gradient from 2% to 60% acetonitrile (ACN) in 0.046% trifluoroacetic acid (TA) over 120 min, at a flow rate of 1.5 mL/min. Peptide absorbance was monitored at 225 nm and eluted fractions were manually collected. The third purification step was performed by RP-HPLC under the same conditions described above, but using a C18 reverse phase analytical column (5 μm, 1.0 mm × 150 mm, Vydac) with a linear gradient from 35% to 45% ACN in 0.

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