<p>The percentage of GO-terms in the categories “Molecular function”,“Biological Process” and “Cellular component” was shown.</p
<p>DAVID bioinformatics software was utilized to perform gene ontology (GO) term enrichment analysis...
<p>Selected GO categories are shown with the top-level division of biological process, molecular fun...
<p>GO root terms were abbreviated (MF = Molecular Function, BP = Biological Process, CC = Cellular c...
a<p>The number of genes mapped to each GO term in the whole MED transcriptome.</p>b<p>The number of ...
<p>The differentially expressed genes were assigned into three groups, including biological process,...
<p>GO analysis provides a controlled vocabulary to describe differentially expressed transcript attr...
<p>Top panel shows the distribution of GO functional categories for all DEGs found (565 in total), w...
<p>Comparison of Gene Ontology (GO) in terms of (A) biological process, (B) cellular components, and...
<p>Gene Ontology (GO) analysis of transcriptome associated with oyster of early development. (The pe...
<p>(A) Biological process; (B) Cellular component; (C) Molecular function. Each annotated sequence i...
<p>All 2,053 transcripts were assigned to at least one GO term and were grouped into three main GO c...
<p>The data represents the distribution of the annotated isotigs (black) and the annotated singleton...
<p>GO functional annotations are summarized in three main categories: cellular component, molecular ...
<p>Distribution of the GO categories assigned to the <i>D</i>. <i>muscipula</i> transcriptome. Uniqu...
<p>DAVID bioinformatics software was utilized to perform gene ontology (GO) term enrichment analysis...
<p>DAVID bioinformatics software was utilized to perform gene ontology (GO) term enrichment analysis...
<p>Selected GO categories are shown with the top-level division of biological process, molecular fun...
<p>GO root terms were abbreviated (MF = Molecular Function, BP = Biological Process, CC = Cellular c...
a<p>The number of genes mapped to each GO term in the whole MED transcriptome.</p>b<p>The number of ...
<p>The differentially expressed genes were assigned into three groups, including biological process,...
<p>GO analysis provides a controlled vocabulary to describe differentially expressed transcript attr...
<p>Top panel shows the distribution of GO functional categories for all DEGs found (565 in total), w...
<p>Comparison of Gene Ontology (GO) in terms of (A) biological process, (B) cellular components, and...
<p>Gene Ontology (GO) analysis of transcriptome associated with oyster of early development. (The pe...
<p>(A) Biological process; (B) Cellular component; (C) Molecular function. Each annotated sequence i...
<p>All 2,053 transcripts were assigned to at least one GO term and were grouped into three main GO c...
<p>The data represents the distribution of the annotated isotigs (black) and the annotated singleton...
<p>GO functional annotations are summarized in three main categories: cellular component, molecular ...
<p>Distribution of the GO categories assigned to the <i>D</i>. <i>muscipula</i> transcriptome. Uniqu...
<p>DAVID bioinformatics software was utilized to perform gene ontology (GO) term enrichment analysis...
<p>DAVID bioinformatics software was utilized to perform gene ontology (GO) term enrichment analysis...
<p>Selected GO categories are shown with the top-level division of biological process, molecular fun...
<p>GO root terms were abbreviated (MF = Molecular Function, BP = Biological Process, CC = Cellular c...
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