antioxidant enhancement

The Effect of Plant Growth Promoting Rhizobacteria Bacillus thuringiensis LKT25 on Cadmium Accumulation and Physiological Responses in Solanum nigrum L

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Scientists discovered a beneficial bacterium called Bacillus thuringiensis LKT25 that helps black nightshade plants absorb cadmium from contaminated soil more effectively. When this bacterium is applied to the plant roots, it boosts plant growth and activates the plant’s natural defense systems against heavy metal toxicity. In tests with moderately contaminated soil, the bacterial treatment improved cadmium removal by nearly 50%, making it a promising solution for cleaning up polluted agricultural lands.

Impacts of dietary sodium alginate as a prebiotic on the oriental river prawn (Macrobrachium nipponense): A comprehensive analysis of growth, physiology, immunity, antioxidant, and metabolism

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This study tested whether sodium alginate, a natural substance from brown seaweed, could improve the health and growth of freshwater prawns used in farming. After 60 days of feeding trials, prawns given the highest dose of sodium alginate (4.0 grams per kilogram of feed) showed significantly better growth, improved immune function, and stronger antioxidant defenses compared to control groups. The supplement also promoted beneficial bacteria in the prawns’ digestive systems and improved their overall body composition.

Cerebral Hypoxia-Induced Molecular Alterations and Their Impact on the Physiology of Neurons and Dendritic Spines: A Comprehensive Review

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This review explains how low oxygen levels in the brain damage nerve cells and their connection points (dendritic spines) through a cascade of molecular changes. The brain normally has protective mechanisms, but severe or prolonged hypoxia overwhelms these defenses, leading to memory loss and cognitive problems. Several molecular pathways and supporting cells called astrocytes and microglia can help protect neurons. Understanding these protective mechanisms may lead to new treatments for brain conditions caused by low oxygen, such as stroke.

Symbiotic Fungus Serendipita indica as a Natural Bioenhancer Against Cadmium Toxicity in Chinese Cabbage

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This research shows that a beneficial fungus called Serendipita indica can help Chinese cabbage plants survive cadmium contamination. When the fungus colonizes plant roots, it triggers the plant’s natural defense systems to produce protective compounds and reduce heavy metal damage. This finding offers farmers an eco-friendly, biological solution for growing vegetables safely in contaminated soils without harmful chemical treatments.

therapeutic action: antioxidant enhancement

The Effect of Plant Growth Promoting Rhizobacteria Bacillus thuringiensis LKT25 on Cadmium Accumulation and Physiological Responses in Solanum nigrum L

Impacts of dietary sodium alginate as a prebiotic on the oriental river prawn (Macrobrachium nipponense): A comprehensive analysis of growth, physiology, immunity, antioxidant, and metabolism

Cerebral Hypoxia-Induced Molecular Alterations and Their Impact on the Physiology of Neurons and Dendritic Spines: A Comprehensive Review

Symbiotic Fungus Serendipita indica as a Natural Bioenhancer Against Cadmium Toxicity in Chinese Cabbage