Chromium(Cr) antibody/antigen (BSA/OVA/KLH conjugated hapten)

anti-Chromium(Cr) antibody and Carrier-coupled antigen/immunogen (hapten-carrier conjugates)

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Product information

Catalog No.DescriptionUS $ Price (per mg)
GMP-SMT-175-11. BSA-Chromium(Cr)
2. Anti-Chromium(Cr) mouse monoclonal antibody
$2709.00
GMP-SMT-175-21. OVA-Chromium(Cr)
2. Anti-Chromium(Cr) mouse monoclonal antibody
$2709.00
GMP-SMT-175-31. BSA-Chromium(Cr)
2. Anti-Chromium(Cr) human monoclonal antibody
$2709.00
GMP-SMT-175-41. OVA-Chromium(Cr)
2. Anti-Chromium(Cr) human monoclonal antibody
$2709.00
GMP-SMT-175-Ag-1BSA-Chromium(Cr)$756.00
GMP-SMT-175-Ag-2OVA-Chromium(Cr)$756.00
GMP-SMT-175-Ab-1Anti-Chromium(Cr) mouse monoclonal antibody$1953.00
GMP-SMT-175-Ab-2Anti-Chromium(Cr) human monoclonal antibody$1953.00

Size: 1mg | 10mg | 100mg



Product Description


BSA-Chromium(Cr)

Cat No.GMP-SMT-175-Ag-1
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates BSA-Chromium(Cr) with anti-Hapten antibody. The hapten hapten-carrier conjugates BSA-Chromium(Cr) had been validated with our anti-Hapten antibody Anti-Chromium(Cr) mouse monoclonal antibody via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


OVA-Chromium(Cr)

Cat No.GMP-SMT-175-Ag-2
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates OVA-Chromium(Cr) with anti-Hapten antibody. The hapten hapten-carrier conjugates OVA-Chromium(Cr) had been validated with our anti-Hapten antibody Anti-Chromium(Cr) mouse monoclonal antibody via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Anti-Chromium(Cr) mouse monoclonal antibody

Cat No.GMP-SMT-175-Ab-1
Host of AntibodyMouse IgG
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Lateral flow immunoassay (LFIA);
ELISA IC50 (ppb)8-10
Products descriptionThe anti-Hapten antibody against hapten Chromium(Cr) had been validated with our hapten hapten-carrier conjugates BSA-Chromium(Cr) via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Anti-Chromium(Cr) human monoclonal antibody

Cat No.GMP-SMT-175-Ab-2
Host of AntibodyHuman IgG1
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Lateral flow immunoassay (LFIA);
ELISA IC50 (ppb)8-10
Products descriptionThe anti-Hapten antibody against hapten Chromium(Cr) had been validated with our hapten hapten-carrier conjugates BSA-Chromium(Cr) via competitive ELISA test.
ApplicationELISA tests and other immunoassays;
Lateral flow immunoassay (LFIA);
LTIA
Immunonephelometry
Time-resolved Fluorescence Immunoassay (TRFIA)
FormulationLyophilized from sterile PBS, PH 7.4
StorageStore at -20℃ to -80℃ under sterile conditions. Avoid repeated freeze-thaw cycles.


Reference




    Data / case study


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    Biomarker Information


    1. Sulfonamides Chromium (Cr) and its Role in Heavy Metals Analysis

    1.1 What is Sulfonamides Chromium (Cr)?

    Sulfonamides Chromium (Cr) is a noteworthy small molecule compound within the purview of heavy metals analysis. It is essential to elucidate that Sulfonamides themselves do not belong to the category of heavy metals; rather, they are organic compounds commonly employed as antibiotics in both human and veterinary medicine. However, the nexus between Sulfonamides Chromium (Cr) and heavy metals lies in the potential contamination of environmental matrices, such as water bodies and soil, by Chromium ions (Cr). These Chromium ions can infiltrate the environment through various industrial and anthropogenic activities.

    1.2 Role in Heavy Metals Analysis

    In the realm of heavy metals analysis, Sulfonamides Chromium (Cr) assumes a distinctive and instrumental role as a tracer or indicator molecule. Its significance emerges from its unique capacity to aid researchers in evaluating the potential presence and distribution of Chromium contamination within diverse environmental samples. By employing Sulfonamides Chromium (Cr) as a molecular marker, analysts can effectively identify and monitor instances of heavy metal pollution. This analytical approach holds paramount importance in safeguarding ecosystems, preserving environmental integrity, and addressing concerns pertaining to public health.

    The utilization of Sulfonamides Chromium (Cr) as an indicator molecule in heavy metals analysis follows a nuanced process. When environmental samples are subjected to analysis, the presence of Sulfonamides Chromium (Cr) can serve as an indicator of potential Chromium contamination. The detection of Sulfonamides Chromium (Cr) is indicative of possible Chromium presence within the sample, thereby prompting a more detailed and targeted investigation into the extent and nature of the heavy metal contamination.

    2. Why Measure Chromium (Cr)?

    2.1 Environmental Assessment

    The measurement of Chromium (Cr) levels is a scientific endeavor of profound importance for numerous compelling reasons:

    a. Environmental Monitoring: Chromium, especially in its hexavalent form (Cr(VI)), is a well-recognized environmental pollutant known to exert adverse effects on ecosystems and human health. Regular measurement of Chromium levels in soil, water, and air is essential for the systematic assessment and mitigation of environmental contamination. This, in turn, contributes to the preservation of ecological balance and environmental sustainability.

    b. Occupational Health and Safety: Industries involved in metalworking, electroplating, welding, and related processes often expose workers to potential hazards associated with Chromium compounds. Continuous monitoring of Chromium levels in occupational settings is indispensable to uphold worker safety and well-being. This includes not only measuring airborne Chromium levels but also assessing worker exposure through various pathways such as dermal contact or ingestion.

    c. Public Health Assurance: Chromium contamination in drinking water sources represents a substantial risk to public health. Chromium, particularly in the form of Cr(VI), is recognized as a human carcinogen. Routine measurement of Chromium levels in drinking water is essential to maintain compliance with stringent regulatory limits, thereby shielding consumers from exposure to detrimental Chromium concentrations. Regular monitoring ensures that drinking water remains safe for consumption, protecting the health of communities.

    d. Food Safety: Chromium has the propensity to accumulate in certain food products, predominantly through the food chain. Monitoring Chromium levels in consumables is pivotal to assess dietary exposure and enforce safety regulations. This is especially important in agricultural settings where crops may absorb Chromium from the soil. Regular monitoring helps ensure that food products remain within permissible Chromium concentration limits, thus safeguarding the well-being of consumers.

    e. Scientific Inquiry and Remediation: The measurement of Chromium (Cr) is fundamental to scientific inquiry and environmental remediation efforts. Scientific research often necessitates accurate and precise measurements of Chromium levels to comprehend its behavior within environmental matrices. Furthermore, the development and implementation of effective remediation strategies for contaminated sites hinge on accurate measurements of Chromium concentrations. These strategies may involve techniques such as soil remediation, groundwater treatment, and pollution abatement, all of which require a comprehensive understanding of Chromium's presence and mobility.

    In summary, the measurement of Chromium (Cr) is a multifaceted and multidisciplinary endeavor with far-reaching implications for environmental preservation, occupational safety, public health, and scientific research. By quantifying Chromium levels, researchers, regulatory authorities, and environmental professionals gain indispensable insights into its presence, impact, and viable strategies for mitigation. The systematic measurement of Chromium is not merely a scientific pursuit but a critical undertaking that contributes to a safer, more sustainable future, safeguarding both natural ecosystems and human populations from the deleterious effects of heavy metal contamination.



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