Table 1.
Copy number variation of seven types of phosphate transporter proteins.
Fig 1.
Clustering relationships by the neighbor joining method of seven types of reference phosphate transporter proteins.
Fig 2.
Frequency distribution of pair-wise genetic distances (p-distance) for seven types of phosphate transporter proteins.
Fig 3.
Phylogenetic and structural analysis of PHT1 type of phosphate transporter proteins.
Clades are marked with highlights, and the putative transmembrane structures and conserved motifs of representative proteins are shown aside. The sequence names are colored according to their taxa (Bacteriophyta: orange; Eumycota: yellow-green; Algae: light green; Bryophyta and Pteridophyta: dark green; basal angiosperm: purple, Angiosperm: grey), and the reference sequences of Arabidopsis were colored black.
Fig 4.
Phylogenetic and structural analysis of PHT2 type of phosphate transporter proteins.
Fig 5.
Phylogenetic and structural analysis of PHT3 type of phosphate transporter proteins.
Fig 6.
Phylogenetic and structural analysis of PHT4 type of phosphate transporter proteins.
Fig 7.
Phylogenetic and structural analysis of G3Pp type of phosphate transporter proteins.
Fig 8.
Phylogenetic and structural analysis of pPT type of phosphate transporter proteins.
Fig 9.
Phylogenetic and structural analysis of SPX-domain type of phosphate transporter proteins.
Fig 10.
Normalized gene expression levels of PHT1, PHT2, PHT3, PHT4, and G3Pp type of phosphate transporter proteins.
The area of the colored circles or stars indicates the relative expression level within a genome. Spaces without colored shapes represent a missing value.
Fig 11.
Normalized gene expression levels of pPT and SPX-domain type of phosphate transporter proteins.
The area of the colored circles or stars indicates the relative expression level within a genome. Spaces without colored shapes represent a missing value.