Benzophenone(BZP) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Benzophenone(BZP) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Benzophenone(BZP)

OVA-Benzophenone(BZP)

Anti-Benzophenone(BZP) mouse monoclonal antibody

Anti-Benzophenone(BZP) human monoclonal antibody

Reference

Validation Data

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Biomarker Information

1. Benzophenone (BZP) and its Environmental Significance:

1.1 Nature and Characteristics (1):

Benzophenone (BZP) is a chemical compound characterized by its molecular structure, consisting of a phenyl group bonded to two ketone groups. While BZP is not traditionally categorized as a mycotoxin, it holds substantial significance in the realm of environmental science and pollution monitoring.

1.2 Environmental Role (2):

Benzophenone (BZP) serves a pivotal role in environmental investigations, particularly in the domain of pollution source identification and the assessment of environmental contamination. Its unique properties make it a valuable tool in environmental research.

1.3 UV Light Absorption (3):

One of the notable attributes of BZP is its ability to absorb ultraviolet (UV) light. This property makes it a preferred choice in UV spectroscopy, facilitating the precise analysis of various environmental samples. Researchers can exploit this characteristic to gain insights into the composition and quality of environmental matrices.

1.4 Occurrence and Significance (4):

While BZP itself is not commonly found as a natural environmental constituent, its presence is associated with human activities and consumer products. For instance, BZP is utilized as a UV filter in sunscreens and cosmetics to shield the skin from harmful UV radiation. However, the runoff from such products into water bodies has raised concerns about its ecological impact, underscoring the need for accurate BZP quantification in environmental samples.

2. Significance of Measuring Benzophenone (BZP) in Environmental Studies:

2.1 Pollution Source Identification (5):

Measuring BZP is instrumental in pinpointing pollution sources within the environment. The presence of BZP in environmental samples can indicate potential contamination pathways, allowing scientists and environmental authorities to trace the origins of pollution accurately. This, in turn, aids in the development of effective pollution mitigation strategies.

2.2 Environmental Impact Assessment (6):

The quantification of BZP is essential in conducting comprehensive environmental impact assessments. Precise measurements provide critical data on the extent of contamination and the potential risks posed to ecosystems and human health. This information guides decision-making processes and supports the formulation of evidence-based remediation strategies.

2.3 Regulatory Compliance (7):

To ensure the protection of ecosystems and public health, regulatory agencies have established concentration limits for Benzophenone (BZP) in environmental samples. Accurate measurements of BZP are imperative to ensure compliance with these regulations and avoid legal consequences for non-compliance. Therefore, robust and precise analytical methods for BZP quantification are essential.

2.4 Remediation Strategy Development (8):

The accurate measurement of BZP is pivotal in formulating targeted and efficient remediation plans. Once pollution sources are identified through BZP analysis, focused interventions can be devised to mitigate environmental harm and restore ecological balance. This ensures that remediation efforts are tailored to address the specific contaminants responsible for environmental degradation.

2.5 Advancing Environmental Research (9):

Beyond its practical applications, the measurement of Benzophenone (BZP) contributes significantly to the advancement of environmental research. By gaining a deeper understanding of how BZP behaves in various environmental matrices and ecosystems, researchers can refine pollution management strategies and develop innovative approaches to safeguard natural resources and human health.

In summary, although Benzophenone (BZP) is not classified as a mycotoxin, its measurement holds substantial importance in environmental science. It aids in pollution source identification, environmental impact assessment, regulatory compliance, remediation strategy development, and the advancement of environmental research. Accurate BZP quantification is essential for preserving environmental integrity and safeguarding public health. By expanding our knowledge of BZP's presence and behavior in the environment, we can make more informed decisions to mitigate pollution and protect our natural ecosystems.

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