, 1996; Monteiro et al., 1997; Watson & Blackwell, 2000) because of the co-precipitation of contaminants such as humic acids and phenolic substances.
These substances have adverse effects on PCR amplification and thus can affect the generation of accurate and reproducible experimental data. In this manuscript, we describe the optimization of a DNA extraction method, developed for DNA extraction from www.selleckchem.com/products/bay80-6946.html rumen fluid and solid plant material, but that is equally useful for a variety of samples. DNA purified using this method was compared with DNA extracted using previously published manual methods and commercially available kits. The yield and quality of the extracted DNA was assessed by UV spectrophotometry. In all PLX4032 cost cases, the CTAB method of DNA extraction produced
high yields and consistent quality of DNA. Moreover, the DNA templates obtained using the finalized protocol could be used successfully as templates in qPCR amplification, therefore confirming the lack of PCR inhibitors in these samples. Seeds originated from three genetically modified plants were ground to 1 mm3 prior to being used for DNA extraction. The plant isotypes used were as follows: InVigor 5020 Argentine canola (Bayer, Germany), Herculex I maize (DOW Agrosciences LLC and Pioneer Hi-Bred International Inc., Canada) and RoundupReady soya (Monsanto, Canada). Rumen fluid used in the standard protocol was harvested from a ruminally cannulated sheep. The rumen fluid used in the high-throughput method was pooled from four ruminally cannulated cows. Prior to use, rumen fluid was strained in four layers of cheesecloth at 39 °C under continuous flow of CO2. Pure cultures of Escherichia coli (Gram-negative) and Enterococcus faecalis (Gram-positive) were grown to stationary phase prior to DNA extraction from fresh cultures. Rucaparib ic50 Escherichia coli cultures
were incubated at 37 °C overnight in selective LB (Oxoid, Cambridge, UK) containing 5 μg mL−1 chloramphenicol (Fisher, Leicestershire, UK). Precipitation of cells was avoided by shaking bacterial cultures at 250 r.p.m. on a rotating platform. Enterococcus faecalis was cultured without shaking for 48 h at 39 °C in nonselective M2GSC media (Miyazaki et al., 1997) under anaerobic conditions. Ten millligrams of ground seed mixed with 10 μL of rumen fluid was tested as the starting material for DNA extractions using the Wizard SV Genomic DNA purification kit (Promega, Southampton, UK) and the DNeasy Plant Mini Kit (Qiagen, West Sussex, UK). 20 mg of lyophilized rumen fluid: ground plant seed material was used for the DNA extractions using the QIAamp DNA stool Mini kit (Qiagen). DNA extractions using commercial kits were performed according to respective manufacturers’ instructions.