Methyl parathion (MP) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Methyl parathion (MP) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Methyl parathion (MP)

OVA-Methyl parathion (MP)

Anti-Methyl parathion (MP) mouse monoclonal antibody

Anti-Methyl parathion (MP) human monoclonal antibody

Reference

Validation Data

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Biomarker Information

1. Methyl Parathion (MP): Methyl Parathion (MP), an organophosphorus compound, occupies a distinctive niche in the sphere of agriculture due to its profound impact on pest management. As a member of the organophosphate class, MP is characterized by its potent insecticidal properties, making it an indispensable component of various pesticide formulations. This discussion delves into the intricate facets of MP's role and significance within the realm of agriculture, elucidating its chemical structure, mechanisms of action, and applications.

Chemical Structure and Classification (Serial Number 1): Methyl Parathion (MP), with the chemical formula C8H10NO5PS, reveals its complexity through its structural composition. It belongs to the organophosphorus class of chemicals, a group encompassing a wide array of compounds known for their neurotoxic effects on insects. MP is classified as an ester, featuring a phosphate group, methyl group (CH3), and two oxygen atoms bonded to a central phosphorus atom. This unique configuration is pivotal to its insecticidal properties and underscores its significance in pest control.

Mechanism of Action (Serial Number 1): The efficacy of Methyl Parathion (MP) as an insecticide stems from its ability to disrupt the nervous systems of target pests. This disruption is achieved through the inhibition of acetylcholinesterase, an enzyme crucial for neurotransmission in insects. By blocking acetylcholinesterase, MP results in an accumulation of acetylcholine at neural synapses, leading to excessive stimulation of nerve cells. This hyperactivity ultimately culminates in paralysis and death in the targeted insects, rendering MP a potent tool in pest management.

Applications in Pest Control (Serial Number 1): Methyl Parathion (MP) finds extensive application in the realm of pest control, primarily within the agricultural sector. It serves as a cornerstone in the formulation of insecticidal agents designed to combat a diverse array of crop-damaging pests. MP's versatility and effectiveness have made it a favored choice among farmers and agricultural practitioners worldwide. Its application extends to safeguarding a wide spectrum of crops, ranging from grains and fruits to vegetables and cash crops.

2. Why Measure Methyl Parathion (MP): The imperative to measure Methyl Parathion (MP) is underscored by multifaceted considerations spanning agricultural, environmental, and health-related domains. This section elaborates on the compelling reasons behind the quantification of MP, shedding light on the diverse contexts in which such measurements prove pivotal.

Pesticide Residue Oversight (Serial Number 2a): Within the agricultural landscape, meticulous oversight of pesticide applications featuring MP is imperative. Regular measurement of MP residues across soil, crops, and aquatic resources plays a pivotal role in preventing unwarranted pesticide overuse. Excessive MP application not only incurs unnecessary costs for farmers but also contributes to the potential contamination of ecosystems, including soil and water bodies. As such, quantification serves as a bulwark against ecological disruption stemming from imprudent pesticide practices.

Food Safety Assurance (Serial Number 2b): MP residues, if unchecked, may persist within crops and culminate in food products destined for human consumption. In the context of food safety, vigilant quantification of MP levels in consumables is pivotal. It ensures compliance with mandated regulatory thresholds, thereby mitigating health risks to consumers. Contaminated food products can pose acute and chronic health hazards, making the measurement of MP an essential safeguard against adverse human health implications.

Environmental Vigilance (Serial Number 2c): Methyl Parathion (MP) is recognized for its protracted environmental longevity, which necessitates vigilance. The compound has the potential to seep into soil and aquatic ecosystems, impacting non-target organisms and potentially leading to ecological imbalances. Continuous monitoring of MP concentrations elucidates its ecological ramifications and fosters the development of ecologically responsible pest control strategies. By quantifying MP levels in various environmental compartments, including soil and water, researchers and environmentalists gain valuable insights into its distribution and impact.

Regulatory Adherence (Serial Number 2d): Stringent regulatory frameworks, both at the national and international levels, prescribe maximum residue limits (MRLs) for MP in agricultural products and the environment. Compliance with these regulations is essential to prevent legal ramifications and uphold the integrity of agricultural practices. The measurement of MP is, therefore, an imperative aspect of regulatory adherence, ensuring that agricultural operations align with established standards and do not contravene legal stipulations.

Scientific Inquiry (Serial Number 2e): In addition to its practical applications, precise measurement of Methyl Parathion (MP) holds immense value in scientific inquiry. Within the biopharmaceutical and agricultural research domains, the quantification of MP serves as a foundational tool for advancing knowledge and innovation. Researchers rely on accurate measurements to explore its interactions, develop antidotes or treatments in cases of inadvertent exposure or toxicity, and contribute to the development of safer and more effective pest management strategies.

In summary, the measurement of Methyl Parathion (MP) extends its influence across a spectrum of critical domains, ranging from the ecological and agricultural realms to food safety, regulatory adherence, and scientific progress. Its pivotal role in pest control underscores the significance of precise measurement to ensure safety, sustainability, and compliance within the agricultural landscape. Furthermore, it serves as a catalyst for scientific exploration and innovation, facilitating advancements that contribute to safer and more sustainable pest management practices.

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