Strigolactones, a Novel Carotenoid-derived Plant Hormone

Overview

Journal Annu Rev Plant Biol

Specialties Biology
Molecular Biology

Date 2015 Jan 27

PMID 25621512

Citations 275

Authors

Salim Al-Babili

Harro J Bouwmeester

Affiliations

Soon will be listed here.

Abstract

Strigolactones (SLs) are carotenoid-derived plant hormones and signaling molecules. When released into the soil, SLs indicate the presence of a host to symbiotic fungi and root parasitic plants. In planta, they regulate several developmental processes that adapt plant architecture to nutrient availability. Highly branched/tillered mutants in Arabidopsis, pea, and rice have enabled the identification of four SL biosynthetic enzymes: a cis/trans-carotene isomerase, two carotenoid cleavage dioxygenases, and a cytochrome P450 (MAX1). In vitro and in vivo enzyme assays and analysis of mutants have shown that the pathway involves a combination of new reactions leading to carlactone, which is converted by a rice MAX1 homolog into an SL parent molecule with a tricyclic lactone moiety. In this review, we focus on SL biosynthesis, describe the hormonal and environmental factors that determine this process, and discuss SL transport and downstream signaling as well as the role of SLs in regulating plant development.

Citing Articles

Dynamics of endophytic fungi composition in seeds during storage and growth, and responses of seedlings to phytohormones.

Peng T, Yang T, Sha J, Zhao J, Shi J Front Microbiol. 2025; 16:1540651.

PMID: 40078547 PMC: 11897015. DOI: 10.3389/fmicb.2025.1540651.

Strigolactone and karrikin receptors regulate phytohormone biosynthetic and catabolic processes.

Li L, Gupta A, Zhu C, Xu K, Watanabe Y, Tanaka M Plant Cell Rep. 2025; 44(3):60.

PMID: 39982558 DOI: 10.1007/s00299-025-03456-3.

The WRKY28-BRC1 Transcription Factor Module Controls Shoot Branching in .

Zhang K, Zhang J, Cui C, Chai L, Zheng B, Jiang L Plants (Basel). 2025; 14(3).

PMID: 39943050 PMC: 11820759. DOI: 10.3390/plants14030486.

Effects of exogenous SLs on growth and physiological characteristics of flue-cured tobacco seedlings under different degrees of drought stress.

Wang X, Zhang Y, Wang X, Zhuang Y, Ge S Front Plant Sci. 2025; 15:1473565.

PMID: 39902209 PMC: 11788351. DOI: 10.3389/fpls.2024.1473565.

Dressed Up to the Nines: The Interplay of Phytohormones Signaling and Redox Metabolism During Plant Response to Drought.

Jardim-Messeder D, de Souza-Vieira Y, Sachetto-Martins G Plants (Basel). 2025; 14(2).

PMID: 39861561 PMC: 11768152. DOI: 10.3390/plants14020208.