Abstract
The WEE1 kinase is ubiquitous in plant development and negatively regulates the cell cycle through phosphorylations. However, analogies with the control of the human cell cycle by tyrosine- (Tyr-) phosphorylation of cyclin-dependent kinases (CDKs) are sometimes questioned. In this in silico study, we assessed the structural conservation of the WEE1 protein in the plant kingdom with a particular focus on agronomically valuable plants, the legume crops. We analyzed the phylogenetic distribution of amino-acid sequences among a large number of plants by Bayesian analysis that highlighted the general conservation of WEE1 proteins. A detailed sequence analysis confirmed the catalytic potential of WEE1 proteins in plants. However, some substitutions of an arginine and a glutamate at the entrance of the catalytic pocket, illustrated by 3D structure predictions, challenged the specificity of this protein toward the substrate and Tyr-phosphorylation compared to the human WEE1. The structural differences, which could be responsible for the loss of specificity between human and plants, are highlighted and suggest the involvement of plant WEE1 in more cell regulation processes.
Highlights
The WEE1 kinase is ubiquitous in plant development and negatively regulates the cell cycle through phosphorylations
The phosphorylation of tyrosine residue(s) of CDKA;[1] by plant WEE1s leads to a decrease in CDKA;1 activity[3,5,9,10], to human CDK1 and the fission yeast ortholog CDC21,2
In order to illustrate the conservation of plant WEE1 proteins, the phylogram presented in Fig. 1 depicts the evolutionary relationships among amino acid sequences from different plants and outgroup taxa
Summary
The WEE1 kinase is ubiquitous in plant development and negatively regulates the cell cycle through phosphorylations. The catalytic segment is well-conserved among all plant sequences studied here, except for V. unguiculata Chr6.1 that lacks the essential catalytic aspartate (D) residue located at position 426 in human.
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