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What is the bactericidal mechanism of 97% Epoxiconazole?

Publish Time: 2024-05-27
97% Epoxiconazole is a highly efficient, broad-spectrum triazole fungicide. Its unique bactericidal mechanism provides strong support for disease control in agricultural production.

1. Mechanism of action

Epoxiconazole is the main active ingredient of 97% Epoxiconazole, and its bactericidal mechanism is mainly based on inhibiting the synthesis of ergosterol by pathogenic bacteria. Ergosterol is an important component of fungal cell membranes and is essential for maintaining cell membrane integrity and function. Epoxiconazole blocks the biosynthetic pathway of ergosterol by inhibiting C-14 demethylase, thereby hindering the formation of bacterial cell walls and leading to bacterial cell death.

2. Sterilization characteristics

Efficiency: 97% Epoxiconazole can quickly inhibit the growth and reproduction of pathogens and effectively prevent and treat a variety of crop diseases.

Broad spectrum: 97% Epoxiconazole has good control effects on a variety of fungal diseases, such as wheat rust, powdery mildew, rice sheath blight, etc.

Systemic properties: 97% Epoxiconazole has excellent systemic properties and can be quickly absorbed by plants and transmitted to the diseased site to achieve rapid treatment.

Long-lasting effect: Because 97% Epoxiconazole can effectively inhibit the synthesis of ergosterol in pathogenic bacteria, it has a longer duration of effect, reducing the frequency of medication and cost.

3. Application Notes

Although 97% Epoxiconazole has significant bactericidal effect, you still need to pay attention to the following points during use:

Follow product instructions and safe operating procedures to ensure safe medication use.

Strictly control the dosage of pesticides to avoid excessive use that may cause crop damage or environmental pollution.

Pay attention to mixing with other drugs to avoid adverse reactions.

To sum up, 97% Epoxiconazole plays an important role in agricultural production due to its unique bactericidal mechanism and characteristics of high efficiency, broad spectrum, systemic absorption and long-term effect.
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