<p>Estimation of the required number of reference genes for normalization by pairwise variation (V) using geNorm.</p
<p>Genorm M-values of the candidate genes for (A) n = 12 and (B) n = 33. Pairwise variation (V-value...
<p>The geNorm program calculated an NF and used the variable V to determine pairwise variation (Vn/V...
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
<p>Determination of the optimal number of reference genes for normalization by pairwise variation (V...
<p>Determination of the optimal number of reference genes for normalization by pairwise variation us...
<p>Determination of the optimal number of reference genes for normalization by pairwise variation us...
<p>Pair-wise variation (V) calculated by geNorm to determine the minimum number of reference genes f...
<p>By using geNorm, the optimal number of reference genes in each sample was determined by an analys...
Determination of the optimal number of reference genes for normalization relied on the pairwise vari...
<p>The cut off value is 0.15, below which the inclusion of an additional reference gene is not requi...
<p>The pairwise variation(V) to determine the optimal number of reference gene for accurate normaliz...
<p>Pairwise variation (V<sub>n</sub>/<sub>n+1</sub>) calculated between the normalization factors NF...
<p>Determination of the optimal number of reference genes by geNorm analysis of the pairwise variati...
<p>Pairwise variation (V) was calculated by geNorm to determine the minimum number of reference gene...
<p>Pairwise variation (Vn/n+1) analysis between the normalization factors (NFn and NFn+1) was perfor...
<p>Genorm M-values of the candidate genes for (A) n = 12 and (B) n = 33. Pairwise variation (V-value...
<p>The geNorm program calculated an NF and used the variable V to determine pairwise variation (Vn/V...
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
<p>Determination of the optimal number of reference genes for normalization by pairwise variation (V...
<p>Determination of the optimal number of reference genes for normalization by pairwise variation us...
<p>Determination of the optimal number of reference genes for normalization by pairwise variation us...
<p>Pair-wise variation (V) calculated by geNorm to determine the minimum number of reference genes f...
<p>By using geNorm, the optimal number of reference genes in each sample was determined by an analys...
Determination of the optimal number of reference genes for normalization relied on the pairwise vari...
<p>The cut off value is 0.15, below which the inclusion of an additional reference gene is not requi...
<p>The pairwise variation(V) to determine the optimal number of reference gene for accurate normaliz...
<p>Pairwise variation (V<sub>n</sub>/<sub>n+1</sub>) calculated between the normalization factors NF...
<p>Determination of the optimal number of reference genes by geNorm analysis of the pairwise variati...
<p>Pairwise variation (V) was calculated by geNorm to determine the minimum number of reference gene...
<p>Pairwise variation (Vn/n+1) analysis between the normalization factors (NFn and NFn+1) was perfor...
<p>Genorm M-values of the candidate genes for (A) n = 12 and (B) n = 33. Pairwise variation (V-value...
<p>The geNorm program calculated an NF and used the variable V to determine pairwise variation (Vn/V...
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
DOI
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