Mercury(Hg) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Mercury(Hg) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Mercury(Hg)

OVA-Mercury(Hg)

Anti-Mercury(Hg) mouse monoclonal antibody

Anti-Mercury(Hg) human monoclonal antibody

Reference

Validation Data

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Biomarker Information

Mercury (Hg) Description:

Mercury (Hg) is a chemical element renowned for its unique properties, particularly within the realm of heavy metals. It is characterized by its high atomic weight and density, which classify it among heavy metals. Mercury exists in various forms, including elemental mercury (Hg^0), inorganic mercury compounds (Hg^2+), and organic mercury compounds, such as methylmercury.

Role in Heavy Metals:

Within the domain of heavy metals, Mercury plays a central and multifaceted role as one of the most prominent and toxic members. Its significance in the context of heavy metal contamination arises from its pervasive presence in the environment, originating from diverse sources. These sources encompass industrial processes, mining activities, and natural occurrences. Mercury has the capability to contaminate various environmental compartments, including water bodies, soils, and the atmosphere, making it a formidable environmental pollutant.

Of particular concern is its ability to enter aquatic ecosystems, where it can undergo a complex biogeochemical transformation. In aquatic environments, elemental mercury can be converted into methylmercury, a highly toxic organic form. Methylmercury has a pronounced propensity for bioaccumulation in aquatic organisms, particularly fish, which can then be consumed by humans and other wildlife. This bioaccumulation poses a significant risk to human health, as exposure to elevated levels of methylmercury can result in severe neurotoxic effects.

Reasons to Measure Mercury (Hg):

The meticulous measurement of Mercury (Hg) is indispensable for several compelling reasons, particularly within the realms of biopharmaceuticals and environmental sciences:

a. Environmental Surveillance:

Rigorous monitoring and precise quantification of Mercury levels in the environment are essential for assessing contamination and comprehending its ecological implications. Accurate measurements are instrumental in identifying areas of contamination and facilitating the implementation of remediation strategies. This proactive approach safeguards natural ecosystems and mitigates the potential harm caused by mercury pollution.

b. Public Health Protection:

Mercury contamination in the environment can result in human exposure, primarily through the consumption of mercury-contaminated aquatic species. Accurate quantification of Mercury levels is pivotal for evaluating potential health hazards and for establishing safety guidelines governing the consumption of such products. This, in turn, ensures the protection of public health and minimizes the risk of mercury-related health issues.

c. Industrial Compliance:

Industries involved in the handling or release of mercury-containing substances are subject to stringent regulatory standards. Accurate measurement of mercury levels within industrial processes is imperative to ensure compliance with environmental regulations. This not only aids in upholding environmental standards but also helps industries in fine-tuning their processes to minimize mercury emissions and environmental impact.

d. Scientific Research:

Mercury's profound toxicological properties make it a subject of intense scientific interest, particularly in fields such as toxicology, chemistry, and environmental science. Accurate measurement of mercury levels serves as the cornerstone for comprehending the intricate mechanisms of mercury toxicity and its far-reaching impacts on living organisms, ecosystems, and even global biogeochemical cycles.

e. Biopharmaceutical Quality Assurance:

Within the biopharmaceutical sector, where precision and safety are paramount, the measurement of mercury is a vital component of quality control protocols. It ensures that pharmaceutical products remain entirely devoid of mercury contamination, thereby aligning with rigorous safety and regulatory prerequisites. This guarantees that biopharmaceuticals meet the highest quality standards, instilling confidence in both the industry and the consumers.

In summation, the meticulous quantification of Mercury (Hg) assumes a foundational and far-reaching role in preserving environmental and public health, ensuring industrial compliance, fostering scientific inquiry, and upholding the safety and quality standards of biopharmaceutical products. Accurate measurements are pivotal in addressing the multifaceted challenges associated with this heavyweight metal, ultimately contributing to a safer and healthier environment for all.

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