Figure 1. PCR and agarose gel showing the GAPDH amplicon
Figure 2. Table with the primers used during PCR
First created a standardized protocol for mRNA purification from nasal
lavage cells and validated whether PCR assessment was applicable. Subsequently,
cell pellets from each subject were obtained from the centrifugation of the
nasal lavage fluid collected from a single nasal irrigation. To minimize RNA
loss, considering the small quantity of RNA from each nasal lavage, a carrier
yeast tRNA was included to maintain the consistency in the total RNA
purification steps. Successively, cDNA was synthesized by reverse transcription
employing the total RNA as templates and subjected to PCR using the
glyceraldehyde-3-phosphate dehydrogenase (GAPDH) as a target for validation. Finally,
The GAPDH amplicon by PCR was visible under UV following the separation in
agarose gel, indicating successful cDNA synthesis from the total RNA prepared
from the two nasal fluid cell pellets (Figure 1) (1).
Summary
Total RNA was extracted from the nasal lavage cell pellet using the
QIAzol Lysis Reagent (cat# 79306, QIAGEN) with the addition of a carrier yeast
tRNA (10 µg) followed by DNase I treatment to eliminate any trace of DNA
contamination. cDNA was synthesized from purified nasal total RNA employing the
First-strand cDNA synthesis kit (iScript cDNA synthesis kit, Biorad). Ct values
of each gene were obtained from the SYBR green-based real-time PCR reaction by
using the QuantStudio 6 flex Real-Time PCR System (Applied Biosystems).
Relative mRNA expression levels of target genes were calculated through the
ΔΔCt method using GAPDH as the internal loading control. The SYBR green PCR
master mix (Cat# 4309155, Applied Biosystems) was used according to the
manufacturer’s instructions. The primers utilized for real-time PCR amplification
are summarized in figure 2 (1).
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