The multipotent thidiazuron: A mechanistic overview of its roles in callogenesis and other plant cultures in vitro.

Thidiazuron (TDZ) is an active substituted phenyl urea compound that has found a significant role as a plant growth regulator. The most exciting aspect of its function is that it can mimic auxins and cytokinin but is chemically different from these two. Many theories have been put forward, and experiments performed to understand the mode of action of TDZ in callogenesis. One suggested mechanism presents that it works by inhibiting the cytokinin degrading enzymes that compete with cytokinin for an active site on the enzyme. An example is the TDZ-induced suppressed expression of gibberellic acid (GA) biosynthesis genes encoding GA3 and GA20 oxidases. This is entailed with a slightly increased expression of GA catabolism genes encoding GA20 oxidase. Similarly, one of the recommendations is that TDZ induces the expression of specific genes and transcription regulatory sequences that are either responsible directly for callus formation or in turn induce other auxins or cytokinin for callogenesis. There is no concise review available that discusses the details of TDZ-induced callus, specifically and other in vitro cultures in general. This review is an attempt to explore all these pathways and mechanisms involved in callogenesis in plants stimulated by TDZ. © 2022 International Union of Biochemistry and Molecular Biology, Inc.

Citation

Haroon Muhammad Ali, Tariq Khan, Mubarak Ali Khan, Nazif Ullah. The multipotent thidiazuron: A mechanistic overview of its roles in callogenesis and other plant cultures in vitro. Biotechnology and applied biochemistry. 2022 Dec;69(6):2624-2640

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PMID: 35048414

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