Novel Brassinosteroid Analogues with 3,6 Dioxo Function, 24-Nor-22( S )-Hydroxy Side Chain and p -Substituted Benzoate Function at C-23-Synthesis and Evaluation of Plant Growth Effects.
Sebastián JorqueraMauricio SotoKaty DiazMaría NuñezMauricio A CuellarAndrés F OleaLuis Espinoza-CatalánPublished in: International journal of molecular sciences (2024)
Brassinosteroids (BRs) are an important group of polyhydroxylated naturally occurring steroidal phytohormones found in the plant kingdom in extremely low amounts. Due to the low concentrations in which these compounds are found, much effort has been dedicated to synthesizing these compounds or their structural analogs using natural and abundant sterols. In this work, we report the synthesis of new brassinosteroid analogs obtained from hyodeoxycholic acid, with a 3,6 dioxo function, 24-Nor-22( S )-hydroxy side chain and p -substituted benzoate function at C-23. The plant growth activities of these compounds were evaluated by two different bioassays: rice lamina inclination test (RLIT) and BSI. The results show that BRs' analog with p -Br (compound 41f ) in the aromatic ring was the most active at 1 × 10 -8 M in the RLIT and BSI assays. These results are discussed in terms of the chemical structure and nature of benzoate substituents at the para position. Electron-withdrawing and size effects seems to be the most important factor in determining activities in the RLIT assay. These results could be useful to propose a new structural requirement for bioactivity in brassinosteroid analogs.