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	Figure 1. Scheme of the distribution of VKR in animal phyla. VKR genes are present and expressed in Cnidaria, Arthropoda, Platyhelminths, Annelida, Mollusca, Hemichordata, and Echinodermata phyla. They were not found in the genomes of chordates and nematodes. Dashed lines indicate that the presence of VKR is speculative in these phyla due to the lack of genomic data. However, putative RTKs similar to VKR have been already detected in the choanoflagellates Monosiga brevicollis (18) and Salpingoeca rosetta (19).
	Figure 2. Structure and activation of VKR. VKR is composed of an intracellular TK domain similar to that of insulin receptor linked by a unique transmembrane domain to an extracellular moiety containing a venus fly trap (VFT) module. VFT domains are formed by two lobes separated by a highly flexible cleft, allowing the binding of a small molecule. VFT module of VKR was shown to bind amino acids and to have a high affinity for l-arginine. As many other RTKs, VKR is active as a dimer. Receptor dimerization occurs in the presence of l-Arg and leads to kinase activation, receptor autophosphorylation, and signal transduction.
	Figure 3. VKR signaling pathways. Closure of VFT extracellular domains upon binding of arginine ligand promotes and reinforces receptor dimerization inducing kinase activation and autophosphorylation of VKR. Phosphotyrosines can bind different partners for the transduction of conserved RTK signaling pathways, such as the PI3K/AKT/mTOR pathway involved in protein synthesis and the Ras/MAPK ERK pathway important for cell growth and proliferation. Moreover, activated VKRs could activate through the specific binding of Shb (SH2-containing protein), the alternative JNK pathway to contribute in concert with Rho1, MEK7, and PP2C to cytoskeleton rearrangement and oocyte maturation. Phosphorylation of AKT, p70S6K, ERK, and JNK (circled in red) was confirmed in VKR-expressing Xenopus oocytes (22).

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