Cytokinin biosynthesis and interconversion

To maintain hormone homeostasis, the rate of cytokinin biosynthesis, interconversion, and degradation is regulated by enzymes in plant cells. Cytokinins can be synthesized via direct (de novo) or indirect (tRNA) pathways. In the de novo pathway, a cytokinin nucleotide is synthesized from 5′‐AMP and isopentenyl pyrophosphate; a key enzyme which catalyzes this synthesis has been isolated from plant tissues, slime mold, and some microorganisms. Studies on the in vitro synthesis of the isopentenyl side chain of cytokinin in tRNA demonstrated that the isopentenyl group was derived from mevalonate, and turnover of the cytokinin‐containing tRNA may serve as a minor source of free cytokinins in plant cells. The interconversion of cytokinin bases, nucleosides and nucleotides is a major feature of cytokinin metabolism; and enzymes that regulate the interconversion have been identified. The N 6 ‐side chain and purine moiety of cytokinins are often modified and some of the enzymes involved in the modifications have been isolated. Most of the cytokinin metabolites have been characterized but very few enzymes regulating their metabolism have been purified to homogeneity. It remains a significant challenge to isolate plant genes involved in the regulation of cytokinin biosynthesis, interconversion and degradation.