Abstract
Our environment constantly undergoes changes either natural or manmade affecting growth and development of all the organisms including plants. Plants are sessile in nature and therefore to counter environmental changes such as light, temperature, nutrient and water availability, pathogen, and many others; plants have evolved intricate signaling mechanisms, composed of multiple components including several plant hormones. Research conducted in the last decade has placed Strigolactones (SLs) in the growing list of plant hormones involved in coping with environmental changes. SLs are carotenoid derivatives functioning as both endogenous and exogenous signaling molecules in response to various environmental cues. Initially, SLs were discovered as compounds that are harmful to plants due to their role as stimulants in seed germination of parasitic plants, a more beneficial role in plant growth and development was uncovered much later. SLs are required for maintaining plant architecture by regulating shoot and root growth in response to various external stimuli including arbuscular mycorrhizal fungi, light, nutrients, and temperature. Moreover, a role for SLs has also been recognized during various abiotic and biotic stress conditions making them suitable target for generating genetically engineered crop plants with improved yield. This review discusses the biosynthesis of SLs and their regulatory and physiological roles in various stress conditions. Understanding of detailed signaling mechanisms of SLs will be an important factor for designing genetically modified crops for overcoming the problem of crop loss under stressful conditions.
Highlights
Plants are sessile in nature and have evolved an intricate signaling mechanism to sense, respond, and adapt to the continuously changing environmental conditions such as light, temperature, water, pathogens, and nutrient availability
Quantitative real-time reverse transcription PCR assays indicated that dehydration led to reduced expression of abscisic acid (ABA)-inducible marker genes, including Responsive to ABA, RD29A (RESPONSIVE TO DEHYDRATION29A), RD29B (RESPONSIVE TO DEHYDRATION29B), COR47 (COLDREGULATED PROTEIN47), and KIN1 (COLD INDUCIBLE) and genes involved in the ABA biosynthesis, catabolism, transport, and signaling pathways, including NCED3, ABCG22, ABA Insensitive1 (ABI1), Cytochrome P450 707A3, and Hypersensitive to ABA1
Strigolactones have emerged as carotenoid-derived plant secondary metabolite molecules involved in both endogenous and exogenous signaling responses
Summary
International Crops Research Institute for the Semi-Arid Tropics, India. California State University, San Bernardino, USA Manish Kumar Pandey, International Crops Research Institute for the Semi-Arid Tropics, India. Our environment constantly undergoes changes either natural or manmade affecting growth and development of all the organisms including plants. Plants are sessile in nature and to counter environmental changes such as light, temperature, nutrient and water availability, pathogen, and many others; plants have evolved intricate signaling mechanisms, composed of multiple components including several plant hormones. SLs are required for maintaining plant architecture by regulating shoot and root growth in response to various external stimuli including arbuscular mycorrhizal fungi, light, nutrients, and temperature. A role for SLs has been recognized during various abiotic and biotic stress conditions making them suitable target for generating genetically engineered crop plants with improved yield. Understanding of detailed signaling mechanisms of SLs will be an important factor for designing genetically modified crops for overcoming the problem of crop loss under stressful conditions
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