Copper(Cu) antibody/antigen (BSA/OVA/KLH conjugated hapten)

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anti-Copper(Cu) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Size： 1mg | 10mg | 100mg

Product Description

BSA-Copper(Cu)

OVA-Copper(Cu)

Anti-Copper(Cu) mouse monoclonal antibody

Anti-Copper(Cu) human monoclonal antibody

Reference

Validation Data

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Biomarker Information

1. Copper (Cu) in the Context of Heavy Metals: Its Role and Significance

1.1 Introduction to Copper (Cu):

Copper (Cu) occupies a distinctive place within the periodic table, characterized by its atomic number 29. This essential trace element boasts a rich history of utilization across various industries, underpinned by its exceptional properties. With its unmistakable reddish-brown hue, exceptional electrical conductivity, and malleability, copper serves as an indispensable element in an array of applications, including electrical wiring, plumbing, architectural design, and industrial processes.

1.2 Role in Heavy Metals:

Within the realm of heavy metals, copper assumes a prominent role, encapsulating its multifaceted significance:

- Environmental Dynamics: Copper's presence in the environment, spanning soil, water, and air, arises through both natural processes and anthropogenic activities. These activities encompass mining, industrial emissions, and the release of copper-containing substances. Elevated copper levels in the environment can precipitate adverse consequences for ecosystems and aquatic life, as copper is known to be toxic to certain organisms.

- Health Implications: While copper is an essential micronutrient for both humans and animals, its excessive exposure can trigger health complications. Copper toxicity, a condition characterized by elevated copper levels, can manifest with symptoms ranging from gastrointestinal distress and liver impairment to neurological disorders. Vigilant monitoring of copper levels is, therefore, imperative to safeguard human and animal health.

1.3 Applications in Scientific Inquiry:

Copper, owing to its unique chemical attributes and its status as a representative heavy metal, assumes a pivotal role in scientific exploration:

- Model for Heavy Metals: In the study of heavy metals, copper serves as a model element due to its distinctive chemical properties and behavior. Its interactions within biological systems and environmental matrices provide valuable insights into heavy metal toxicology, bioavailability, and mobility.

2. The Significance of Measuring Copper (Cu)

2.1 Environmental Vigilance:

Measuring copper levels is of paramount importance in environmental monitoring and the preservation of ecological balance. Elevated copper concentrations in natural habitats can have deleterious effects on aquatic ecosystems and terrestrial biomes. Systematic copper level monitoring enables the assessment of environmental impacts stemming from human activities, facilitating the implementation of corrective measures to mitigate ecological disruptions.

2.2 Safeguarding Human Health:

Ensuring human health relies on the maintenance of copper levels within permissible limits in drinking water and food sources. Regular monitoring of copper levels plays a pivotal role in safeguarding public health, particularly for vulnerable populations such as infants and individuals afflicted with Wilson's disease, a genetic disorder that affects copper metabolism.

2.3 Industrial Precision:

Copper's versatility and indispensability in various industrial processes, spanning electronics, metallurgy, and metalworking, underscore the need for meticulous measurement. Maintaining product quality and adhering to stringent regulatory compliance necessitate rigorous monitoring of copper levels in industrial discharges. This ensures that copper emissions remain within acceptable limits, minimizing the environmental footprint of industrial operations.

2.4 Scientific Advancements:

Copper, as a subject of fervent scientific inquiry, offers a treasure trove of insights due to its unique properties and multifaceted roles. Precise quantification of copper levels in biological systems advances our understanding of its behavior, including its uptake, distribution, and potential toxicity. Such knowledge fuels advancements across disciplines, from metallurgy and chemistry to environmental science.

In summary, the measurement of copper (Cu) stands as a pivotal endeavor with wide-ranging implications. Its significance extends across environmental preservation, human health protection, industrial precision, and scientific exploration. Whether it involves monitoring copper levels in natural habitats or ensuring its safe integration into diverse applications, accurate quantification of copper serves as a conduit for societal welfare, environmental stewardship, and the advancement of scientific knowledge.

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