<p>Correlation analysis of gene expressions changes with microarray and RT-PCR (r = 0.7253). 17 genes were selected to confirm within 60 samples. Each point represents a single gene at a given sample.</p
<p><sup>a</sup>Fold change indicates the ratio of the normalized number of transcripts for the selec...
<p>The log<sub>10</sub> values of the real-time RT-qPCR were plotted against the microarray analysis...
Microarray technology allows us to perform high-throughput screening of changes in gene expression. ...
<p>Confirmation of the microarray results was obtained for a subset of genes by quantitative RT-PCR ...
<p>(A) RT-PCR confirmation of Affymetrix array data on 31 selected up- or down-regulated genes. Log2...
<p>Twelve genes randomly selected were subjected to quantitative real-time PCR analysis. OsHistone H...
<p>The average log2 fold-change values were used, and each point represents the gene expression in a...
<p>Six genes were selected and their time-course expression profiles were evaluated by quantitative ...
<p>Real-time RT-PCR validation of genes selected within the liver after microarray analyses (*p < 0....
<p>Based on the microarray data, nine genes were selected and their expression pattern confirmed for...
<p>(A) Electrophoresis image of agarose gel. GAPDH was used as an internal control. The pictures sho...
<p>RT-PCR was used to validate microarray expression data. The symbol represents the median and the ...
<p>The splicing patterns of selected AS genes were analyzed using RT-PCR to validate the RNA sequenc...
Microarray technology allows us to perform high-throughput screening of changes in gene expression. ...
<p>The log<sub>2</sub>(LK/CK) values derived from the microarray data of 15 genes were compared with...
<p><sup>a</sup>Fold change indicates the ratio of the normalized number of transcripts for the selec...
<p>The log<sub>10</sub> values of the real-time RT-qPCR were plotted against the microarray analysis...
Microarray technology allows us to perform high-throughput screening of changes in gene expression. ...
<p>Confirmation of the microarray results was obtained for a subset of genes by quantitative RT-PCR ...
<p>(A) RT-PCR confirmation of Affymetrix array data on 31 selected up- or down-regulated genes. Log2...
<p>Twelve genes randomly selected were subjected to quantitative real-time PCR analysis. OsHistone H...
<p>The average log2 fold-change values were used, and each point represents the gene expression in a...
<p>Six genes were selected and their time-course expression profiles were evaluated by quantitative ...
<p>Real-time RT-PCR validation of genes selected within the liver after microarray analyses (*p < 0....
<p>Based on the microarray data, nine genes were selected and their expression pattern confirmed for...
<p>(A) Electrophoresis image of agarose gel. GAPDH was used as an internal control. The pictures sho...
<p>RT-PCR was used to validate microarray expression data. The symbol represents the median and the ...
<p>The splicing patterns of selected AS genes were analyzed using RT-PCR to validate the RNA sequenc...
Microarray technology allows us to perform high-throughput screening of changes in gene expression. ...
<p>The log<sub>2</sub>(LK/CK) values derived from the microarray data of 15 genes were compared with...
<p><sup>a</sup>Fold change indicates the ratio of the normalized number of transcripts for the selec...
<p>The log<sub>10</sub> values of the real-time RT-qPCR were plotted against the microarray analysis...
Microarray technology allows us to perform high-throughput screening of changes in gene expression. ...
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