Abstract
The cell cycle is predominantly controlled by Cyclins/Cyclin-Dependent Kinases (Cyc/CDK) complexes, which phosphorylate targets involved in cellular proliferation. Evidence suggests that Cyc/CDK targets extend beyond traditional proteins and include enzymes that regulate the central carbon metabolism. Maize embryo axes rapidly internalize and metabolize glucose. After 24 h of imbibition in glucose-rich media, axes exhibited increased length and weight, with more pronounced effects at 72 h. This morphology enhancement was impaired when RO-3306, a specific CDK inhibitor, was added. The protein profile of maize embryo extracts at 18 and 24 h indicated altered phosphorylation patterns following CDK activity inhibition. Metabolomic analysis at 24 h of imbibition revealed that maize embryos without sugar in the media, with or without RO-3306, had a decreased sugar and amino acid content. Conversely, axes exposed to glucose demonstrated increased conversion into various mono and di-saccharides such as fructose, mannitol, galactose, and maltose but not sucrose. This pattern was reversed upon the addition of RO-3306. Glucose promoted the accumulation of amino acids such as cysteine, valine, leucine, and intermediates of the tricarboxylic acid (TCA) cycle, such as malate and citrate. The CDK inhibitor redirected the glucose metabolism toward increased serine levels, followed by other amino acids like phenylalanine, valine, and leucine. Additionally, TCA cycle intermediates and sterols significantly decreased. Overall, these results contribute to understanding the role of CDK in maize morphogenesis during germination and underscore its impact on modulating various central carbon pathways, including glycolysis, amino acid catabolism/anabolism, TCA cycle, and sterols biosynthesis.