<p>Preferable reference genes across different experimental conditions according to the software analysis.</p
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
<p>Candidate reference genes ranked in order of their stability throughout TS cell differentiation u...
<p>Determination of the optimal number of reference genes required for effective data normalization....
Ranking of reference genes expression under different experimental treatments.</p
<p>Preferable control genes in <i>L. migratoria</i> across different experimental conditions.</p
<p>Candidate reference genes were ranked according to their expression stability values calculated b...
<p>Candidate reference genes selected for evaluation of expression stability.</p
Candidate reference genes and best combination of two genes listed according to their expression sta...
<p>Ranking order of the candidate reference genes under different experimental conditions.</p
<p>Pair-wise variation (V) calculated by geNorm to determine the minimum number of reference genes f...
<p>V<sub>n</sub>/V<sub>n+1</sub> values were used for decision of the optimal number of reference ge...
<p>Candidate reference genes ranked in order of their stability throughout ES cell differentiation u...
<p>Determination of the optimal number of reference genes by geNorm analysis of the pairwise variati...
<p>The reference genes selected in this study, their abbreviation and putative function.</p
Determination of the optimal number of reference genes for normalization relied on the pairwise vari...
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
<p>Candidate reference genes ranked in order of their stability throughout TS cell differentiation u...
<p>Determination of the optimal number of reference genes required for effective data normalization....
Ranking of reference genes expression under different experimental treatments.</p
<p>Preferable control genes in <i>L. migratoria</i> across different experimental conditions.</p
<p>Candidate reference genes were ranked according to their expression stability values calculated b...
<p>Candidate reference genes selected for evaluation of expression stability.</p
Candidate reference genes and best combination of two genes listed according to their expression sta...
<p>Ranking order of the candidate reference genes under different experimental conditions.</p
<p>Pair-wise variation (V) calculated by geNorm to determine the minimum number of reference genes f...
<p>V<sub>n</sub>/V<sub>n+1</sub> values were used for decision of the optimal number of reference ge...
<p>Candidate reference genes ranked in order of their stability throughout ES cell differentiation u...
<p>Determination of the optimal number of reference genes by geNorm analysis of the pairwise variati...
<p>The reference genes selected in this study, their abbreviation and putative function.</p
Determination of the optimal number of reference genes for normalization relied on the pairwise vari...
<p>The optimal number of reference genes for normalization by geNorm analysis.</p
<p>Candidate reference genes ranked in order of their stability throughout TS cell differentiation u...
<p>Determination of the optimal number of reference genes required for effective data normalization....
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