Tag: sulfur metabolism
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Molybdate Transporter SlMOT2 Enhances Nitrate Stress Tolerance in Tomato Seedlings: A Transcriptomic Perspective
Introduction: The nitrate stress challenge in tomato cultivation Tomato (Solanum lycopersicum) is a globally important crop, prized for its nutritional compounds and economic value in protected agriculture. However, excessive calcium nitrate in saline greenhouse soils imposes nitrate stress, reducing germination, growth, photosynthesis, and overall yield. Understanding the genes that confer nitrate tolerance is crucial for…
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SlMOT2 Boosts Tomato Nitrate Stress Tolerance Through Molybdate Transport and Metabolic Reprogramming
Overview: SlMOT2 as a key mediator of nitrate stress tolerance in tomato Tomato (Solanum lycopersicum) faces nitrate-related stress in saline greenhouse soils, where high nitrate and calcium levels disrupt growth, photosynthesis, and redox balance. A recent transcriptomic study identifies SlMOT2, a molybdate transporter, as a pivotal regulator that enhances nitrate stress tolerance in tomato seedlings.…