1、Brassinosteroids: Molecular and physiological responses in plant growth
Brassinosteroids improves crop yields by altering plant metabolism and protecting plants from several abiotic stresses. Brassinosteroids regulate gene expression and signal transduction pathways to stimulate abiotic stress tolerance.
2、Brassinosteroids: Relevant Evidence Related to Mitigation of Abiotic
Brassinosteroids (BRs) are natural or synthetic steroids with significant properties that promote plant growth and development. In the current world scenario, research and solutions that can improve plant tolerance to climate change are strategic to ensure food security.
3、Brassinosteroids (BRs) Role in Plant Development and Coping with
BRs have been shown in numerous studies to have a positive impact on plant responses to various biotic and abiotic stresses.
(PDF) Brassinosteroids: Relevant Evidence Related to Mitigation of
Brassinosteroids (BRs) are natural or synthetic steroids with significant properties that promote plant growth and development. In the current world scenario, research and solutions that can...
Roles of Brossinosteroids Signaling in Biotic and Abiotic Stresses
Brassinosteroids (BRs) are a group of plant-specific steroidal phytohormones, which play fundamental roles in regulating diverse aspects of the plant life cycle including plant growth, development, and stress response.
Physiological and molecular mechanisms of brassinosteroid signaling in
Inefficient nutritional elements or excessive toxic heavy metals in soil will inhibit plant growth, development, and the formation of yield and crop quality. The heavy metals existed in crops may even damage human health through food chain migration.
Brassinosteroid
Brassinosteroid metabolism to regulate the bioactive pool includes hydroxylation, dimethylation, side chain cleavage and conjugation while oxidation and epimerisation, often accompanied by conjugation with fatty acids and glucose, are important deactivation steps (Fujioka & Yokota, 2003).
The Role of Endogenous Brassinosteroids in the Mechanisms
Among them, brassinosteroids (BRs) are a class of steroid hormones that are widely involved in plant growth, development, and stress response.
From plant survival to thriving: exploring the miracle of
Brassinosteroid application protected leaf photosynthetic system and reduced oxidative damage in plants. The variations in plant form, size, color, flavor, and aroma as well as flower or fruit color also contribute to the diversity and value of these plants (Ahmad and Anjum, 2023).
Physiological, biochemical, and molecular mechanisms of plant steroid
BRs are a group of plant phytohormones that have emerged as a crucial regulator in plant growth, development, and stress response by coordinating numerous physiological, biochemical, and molecular processes.
Brassinosteroids, also known as gibberellins, are plant hormones that play a critical role in regulating plant growth, development, and stress responses. In agricultural production, brassinosteroids are widely used to enhance crop yields and improve quality. there is currently no clear scientific evidence to confirm whether brassinosteroids directly cause soil acidification. The following points offer possible explanations:
1. The Mechanism of Action Is Unrelated to Soil Acidification
Brassinosteroids primarily influence plant growth and development by promoting cell elongation, enhancing photosynthetic efficiency, and other physiological processes. These effects are tied to the plant’s growth status rather than direct soil acidification. Soil acidification typically results from the accumulation of acidic substances produced by the decomposition of organic matter, a process distinct from the mechanism of plant hormone action.
2. The Relationship Between Soil Acidification and Plant Growth
Soil acidification refers to a reduction in soil pH, leading to increased concentrations of hydrogen ions. Such conditions negatively impact plant growth by inhibiting root nutrient uptake and water utilization. these effects are not directly linked to brassinosteroid activity. Conversely, soil acidification may indirectly affect the efficacy of brassinosteroids, thereby influencing crop growth.
3. Causes of Soil Acidification and Their Link to Brassinosteroids
Soil acidification arises from both natural factors (e.g., rainfall, weathering) and human activities (e.g., improper fertilization, excessive use of chemical fertilizers). These processes generate acidic substances through organic matter decomposition, ultimately acidifying the soil. these mechanisms are unrelated to plant hormone functions. Thus, associating soil acidification with brassinosteroids is scientifically unfounded.
4. Research SCurrent research on whether brassinosteroids cause soil acidification remains insufficient. While preliminary studies suggest excessive use may inhibit certain plant growth, this does not equate to direct soil acidification. these findings remain controversial and require further validation.
there is no conclusive evidence that brassinosteroids lead to soil acidification. Soil acidification typically stems from other causes unrelated to plant hormone mechanisms. In agricultural practice, blind application of brassinosteroids should be avoided to prevent adverse effects on soil health and crop growth. Instead, focus should be placed on addressing the root causes of soil acidification and implementing sustainable management practices.
