<p>(A) The unrooted tree was built with MEGA5 by using sequence alignments of 54 Sdr4L members. The branch support bootstrap values were obtained by 1000 replicates using the NJ method. (B) Proteins showing conserved motifs obtained by MEME analysis are indicated in numbered colored boxes.</p
<p>(A) An amino acid sequence based phylogenetic tree of WD40 proteins from various organisms. The p...
<p>Green boxes denoted as I, II, and III mark three putative “megaphyla” discussed in the text. Bran...
<p>The phylogenetic tree was constructed with the amino acid sequences of JAZ proteins from maize us...
<p>The tree was constructed using an amino acid multiple alignment using the ClustalW algorithm and ...
<p>An un-rooted neighbour joining phylogenetic tree was constructed from the protein sequences of ri...
<p>(<b>A</b>) Unrooted phylogenetic tree of CXCL12 proteins. (<b>B</b>) Unrooted phylogenetic tree o...
<p>Phylogenetic tree based on analysis of the representative 16S rRNA gene sequences obtained from t...
<p>The phylogenetic tree was constructed using the neighbor-joining method with MEGA 5.1, and bootst...
<p>The phylogenetic tree was constructed with the protein sequences with the IQ-tree program using 1...
<p>The tree was obtained by the neighbor-joining algorithm using the MEGA 5.2 program. Bootstrap val...
<p>The full-length of the amino acid sequences were used in an alignment for phylogenetic tree calcu...
<p>The phylogenetic trees were generated from amino acid sequences using the Neighbor-joining, minim...
The tree was inferred using ML (LG+G4+F+C60-PMSF model, with an LG+G4+F+C20 ML tree as a PMSF guide ...
<p>A multiple alignment of protein sequences from Arabidopsis (At), rice (<i>Oryza sativa</i>, Os), ...
<p>(A) The neighbor-joining phylogenetic tree was produced by MEGA 5.05 using the neighbor-joining m...
<p>(A) An amino acid sequence based phylogenetic tree of WD40 proteins from various organisms. The p...
<p>Green boxes denoted as I, II, and III mark three putative “megaphyla” discussed in the text. Bran...
<p>The phylogenetic tree was constructed with the amino acid sequences of JAZ proteins from maize us...
<p>The tree was constructed using an amino acid multiple alignment using the ClustalW algorithm and ...
<p>An un-rooted neighbour joining phylogenetic tree was constructed from the protein sequences of ri...
<p>(<b>A</b>) Unrooted phylogenetic tree of CXCL12 proteins. (<b>B</b>) Unrooted phylogenetic tree o...
<p>Phylogenetic tree based on analysis of the representative 16S rRNA gene sequences obtained from t...
<p>The phylogenetic tree was constructed using the neighbor-joining method with MEGA 5.1, and bootst...
<p>The phylogenetic tree was constructed with the protein sequences with the IQ-tree program using 1...
<p>The tree was obtained by the neighbor-joining algorithm using the MEGA 5.2 program. Bootstrap val...
<p>The full-length of the amino acid sequences were used in an alignment for phylogenetic tree calcu...
<p>The phylogenetic trees were generated from amino acid sequences using the Neighbor-joining, minim...
The tree was inferred using ML (LG+G4+F+C60-PMSF model, with an LG+G4+F+C20 ML tree as a PMSF guide ...
<p>A multiple alignment of protein sequences from Arabidopsis (At), rice (<i>Oryza sativa</i>, Os), ...
<p>(A) The neighbor-joining phylogenetic tree was produced by MEGA 5.05 using the neighbor-joining m...
<p>(A) An amino acid sequence based phylogenetic tree of WD40 proteins from various organisms. The p...
<p>Green boxes denoted as I, II, and III mark three putative “megaphyla” discussed in the text. Bran...
<p>The phylogenetic tree was constructed with the amino acid sequences of JAZ proteins from maize us...
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