22 research outputs found

    Three mostly used linkage criteria for the hierarchical clustering.

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    <p>To calculate the pairwise distances for the hierarchical clustering, three commonly used linkage criteria were taken from the Wikipedia (<a href="http://en.wikipedia.org/wiki/Hierarchical_clustering" target="_blank">http://en.wikipedia.org/wiki/Hierarchical_clustering</a>).</p><p>Three mostly used linkage criteria for the hierarchical clustering.</p

    The summarization of the methods for illustrating heatmaps among the 202 papers published in 2012 on five leading journals.

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    a<p>Tools, the name of used tools;</p>b<p>Num., the number of papers that used the tool;</p>c<p>Web link, the website of the tool;</p>d<p>N/A, not mentioned in the corresponding papers.</p><p>The summarization of the methods for illustrating heatmaps among the 202 papers published in 2012 on five leading journals.</p

    Illustrating heatmaps by HemI 1.0.

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    <p>(A) Thermal shifts, which indicate binding affinities of 185 compounds to 13 PARPs, were measured by DSF. A higher value represents a stronger binding affinity. (B) Totally, 428 androgen-repressed genes were identified from LNCaP cells, after the treatment of 1 nM synthetic androgen R1881 for 3, 6, 12, 24 and 48 hours. Values shown were normalized to 0 hour and log<sup>2</sup> transformed.</p

    Seven distances for the clustering.

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    <p>To calculate the distances for the hierarchical and k-means clustering approaches, up to 7 mostly used distances were adopted.</p><p>Seven distances for the clustering.</p

    Using frequency of heatmap.

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    <p>To estimate <i>how</i> many papers contain heatmaps, we went through all original research papers (excluding reviews and other articles) published in 2012 of five leading journals as below.</p>a<p>Num. of Heatmaps, the number of papers containing with at least one heatmap figure;</p>b<p>Per., the percentiles.</p><p>Using frequency of heatmap.</p

    Usage of HemI 1.0.

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    <p>(A) The numerical data in one of three file formats can be directly loaded, whereas the data area can be selected by dragging or holding-SHIFT-then-click manipulations. Titles for <i>X</i>-axis or <i>Y</i>-axis can also be specified; (B) Multiple options for manipulating the heatmp; (C) The numeric data can be clustered for either or both of <i>X</i>-axis and <i>Y</i>-axis; (D) Publication-quality figures can be exported, and two figure formats were supported.</p

    Comparison of obesity indexes according to dietary choline (mg/kg/day) intake<sup>1</sup>.

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    <p>Comparison of obesity indexes according to dietary choline (mg/kg/day) intake<a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0155403#t005fn001" target="_blank"><sup>1</sup></a>.</p

    Correlations between dietary choline and betaine intakes (mg/kg/day) with body composition<sup>1</sup>.

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    <p>Correlations between dietary choline and betaine intakes (mg/kg/day) with body composition<a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0155403#t002fn001" target="_blank"><sup>1</sup></a>.</p

    Composition of body composition and dietary choline, betaine intakes in different obesity status defined by BF%<sup>1</sup>.

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    <p>Composition of body composition and dietary choline, betaine intakes in different obesity status defined by BF%<a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0155403#t004fn001" target="_blank"><sup>1</sup></a>.</p
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