Abstract
Brassinosteroids are polyhydroxysteroids that are involved in different plants’ biological functions, such as growth, development and resistance to biotic and external stresses. Because of its low abundance in plants, much effort has been dedicated to the synthesis and characterization of brassinosteroids analogs. Herein, we report the synthesis of brassinosteroid 24-nor-5β-cholane type analogs with 23-benzoate function and 22,23-benzoate groups. The synthesis was accomplished with high reaction yields in a four-step synthesis route and using hyodeoxycholic acid as starting material. All synthesized analogs were tested using the rice lamina inclination test to assess their growth-promoting activity and compare it with those obtained for brassinolide, which was used as a positive control. The results indicate that the diasteroisomeric mixture of monobenzoylated derivatives exhibit the highest activity at the lowest tested concentrations (1 × 10−8 and 1 × 10−7 M), being even more active than brassinolide. Therefore, a simple synthetic procedure with high reaction yields that use a very accessible starting material provides brassinosteroid synthetic analogs with promising effects on plant growth. This exploratory study suggests that brassinosteroid analogs with similar chemical structures could be a good alternative to natural brassinosteroids.
Highlights
Brassinosteroids (BRs) are phytohormones that are found in all plants; they act as plant growth promoters and development regulators at nanomolar to micromolar concentrations [1,2,3,4]
Growth-promoting activity was assessed by rice lamina inclination (RLIT) and the results show that, at the lowest tested concentrations (1×10−8 –1×10−7 M), the mixture 18/19 exhibit the highest activity, including higher than brassinolide
The high activity of similar 24-nor-5β-cholane type analogs carrying bulky groups at the end of the shortest side chain has been attributed to hydrophobic interaction between the aromatic ring with the BRI1/BAK1 complex [40]
Summary
Brassinosteroids (BRs) are phytohormones that are found in all plants; they act as plant growth promoters and development regulators at nanomolar to micromolar concentrations [1,2,3,4]. All-natural bioactive BRs possess a vicinal 22R, 23R diol structural functionality (for example brassinolide 1, 24-epibrassinolide 2 and 28-homobrassinolide 3, Figure 1), which seems to be essential for high biological activity. In this sense, several studies have been focused on determining the structural requirements that these compounds should possess to elicit strong biological activity [12,13,14]. Structural variations of BRs principally arise from the type and position of functions in the A, B rings, fusion A/B ring and alkyl side chain
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
