Optimization of yeast (Saccharomyces cerevisiae) RNA isolation method for real-time quantitative PCR andmicroarray analysis
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Authors
Yılmaz, Remziye
Akça, Oya
Baloğlu, Mehmet Cengiz
Öz, Mehmet Tufan
Öktem, Hüseyin Avni
Yücel, Meral
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Abstract
Quality of the starting RNA is indispensably important for obtaining highly reproducible quantitative
polymerase chain reaction (qPCR) and microarray results for all organisms as well as S. cerevisiae.
Isolating RNA from yeast cells with a maximum quality was especially critical since these cells were
rich in polysaccharides and proteins. The method has been optimized through modification
pretreatment applications for the isolation of S. cerevisiae RNA for qPCR and microarray analysis. Two
extraction assay a TRIzol reagent-based method with three pretreatment applications and a
commercially available kit with own pretreatment application, were compared for this purpose.
Furthermore, the concentration yeast cells and enzyme were controlled in the range of 2 × 106 to 6 × 107
cells and 0.5 to 5 mg/ml, respectively to prevent RNA yields decrease and RNA degradation. Results of
RNA isolation of the middle scales of yeast cells and enzyme concentrations which obtained fluxional
deduct were not discussed here. Concentration and integrity of RNA samples were determined by μL
spectrophotometer and Bioanalyzer, respectively. Quality of cDNA prepared from RNA samples was
inspected with amplification using 18SrRNA primers in qPCR reactions. Furthermore, quality of RNA
samples were evaluated using quality control parameters associated with performance of the assay and
hybridization in microarray experiments. The highest yield and quality of RNA, which was appropriate
for reverse transcription, cDNA library construction, qPCR reactions and microarray hybridizations
without further processing was obtained by using Protocol C which used highest yeast cell and enzyme
concentrations during the pretreatment application.
Date
2012
Publisher
African Journal of Biotechnology Vol. 11(5), pp. 1046-1053, 16 January, 2012
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Keywords
RNA isolation, Saccharomyces cerevisiae, quantitative PCR, microarray.