Thiamethoxlin antibody/antigen (BSA/OVA/KLH conjugated hapten)

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

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Product information

Catalog No.DescriptionUS $ Price (per mg)
GMP-SMT-117-11. BSA-Thiamethoxlin
2. Anti-Thiamethoxlin mouse monoclonal antibody
$2709.00
GMP-SMT-117-21. OVA-Thiamethoxlin
2. Anti-Thiamethoxlin mouse monoclonal antibody
$2709.00
GMP-SMT-117-31. BSA-Thiamethoxlin
2. Anti-Thiamethoxlin human monoclonal antibody
$2709.00
GMP-SMT-117-41. OVA-Thiamethoxlin
2. Anti-Thiamethoxlin human monoclonal antibody
$2709.00
GMP-SMT-117-Ag-1BSA-Thiamethoxlin$756.00
GMP-SMT-117-Ag-2OVA-Thiamethoxlin$756.00
GMP-SMT-117-Ab-1Anti-Thiamethoxlin mouse monoclonal antibody$1953.00
GMP-SMT-117-Ab-2Anti-Thiamethoxlin human monoclonal antibody$1953.00

Size: 1mg | 10mg | 100mg



Product Description


BSA-Thiamethoxlin

Cat No.GMP-SMT-117-Ag-1
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates BSA-Thiamethoxlin with anti-Hapten antibody. The hapten hapten-carrier conjugates BSA-Thiamethoxlin had been validated with our anti-Hapten antibody Anti-Thiamethoxlin 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-Thiamethoxlin

Cat No.GMP-SMT-117-Ag-2
Bioactivity validationCompetitive immunoassay validation (Competitive ELISA) with hapten-carrier conjugates and anti-Hapten antibody;
Products descriptionCompetitive immunoassay-validated hapten-carrier conjugates OVA-Thiamethoxlin with anti-Hapten antibody. The hapten hapten-carrier conjugates OVA-Thiamethoxlin had been validated with our anti-Hapten antibody Anti-Thiamethoxlin 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-Thiamethoxlin mouse monoclonal antibody

Cat No.GMP-SMT-117-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)0.60
Products descriptionThe anti-Hapten antibody against hapten Thiamethoxlin had been validated with our hapten hapten-carrier conjugates BSA-Thiamethoxlin 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-Thiamethoxlin human monoclonal antibody

Cat No.GMP-SMT-117-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)0.60
Products descriptionThe anti-Hapten antibody against hapten Thiamethoxlin had been validated with our hapten hapten-carrier conjugates BSA-Thiamethoxlin 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


    Click to get more Data / Case study about the product.



    Biomarker Information


    Thiamethoxam (Serial Number 1): Thiamethoxam is a chemical compound classified under the category of neonicotinoid insecticides, and it occupies a prominent position in the field of pest management and crop protection. This chemical compound boasts systemic properties, which make it an indispensable tool in agriculture.

    Role in Pesticides: Thiamethoxam serves as a systemic insecticide, and this characteristic sets it apart from other pest control agents. It has the unique ability to be absorbed by plants and translocated throughout their various tissues, including leaves, stems, and roots. This systemic behavior is a critical feature that contributes to its exceptional effectiveness against a broad spectrum of insect pests that threaten crops. Thiamethoxam disrupts the nervous systems of these pests upon ingestion, ultimately leading to paralysis and mortality. Consequently, it is extensively utilized in agriculture to protect crops such as cotton, corn, vegetables, and various fruits from destructive insect infestations.

    Importance of Measuring Thiamethoxam (Serial Number 2):

    a. Safety and Regulatory Compliance: The precise measurement of Thiamethoxam levels plays a pivotal role in ensuring the safety of agricultural produce and compliance with regulatory standards. Regulatory authorities establish Maximum Residue Limits (MRLs) for Thiamethoxam, which define the maximum allowable concentration of this insecticide in harvested crops. These MRLs are designed to protect consumers from potential health risks associated with pesticide residues. Accurate measurements are essential to verify compliance with these prescribed safety thresholds, thus safeguarding public health.

    b. Efficacy Assessment: Routine measurements of Thiamethoxam levels are indispensable for assessing the effectiveness of pest control strategies. Farmers and pesticide manufacturers rely on empirical data regarding Thiamethoxam concentrations to gauge the success of their applications in managing insect populations and preserving crop yields. This information enables them to fine-tune their approaches and make informed decisions to optimize pest management practices.

    c. Environmental Impact Mitigation: Thiamethoxam's systemic nature can raise concerns about its potential impact on the environment if not managed prudently. Vigilant monitoring of Thiamethoxam levels in soil, water, and adjacent ecosystems assumes a critical role in detecting potential contamination. It allows for the timely implementation of corrective measures to mitigate harm to non-target species and the environment. By monitoring Thiamethoxam concentrations in the environment, we can reduce the risk of unintended ecological consequences and ensure sustainable agricultural practices.

    d. Residue Detection: Detecting Thiamethoxam residues in agricultural products is paramount for ensuring food safety. Contamination with Thiamethoxam residues can have adverse effects on consumer health, making it essential to identify and address instances of contamination before they reach consumers. Regular monitoring of Thiamethoxam levels in food products, both raw and processed, provides a critical layer of protection against potential health hazards associated with pesticide residues.

    e. Promoting Sustainable Agriculture: Measuring Thiamethoxam levels contributes significantly to the promotion of sustainable agriculture. This data aids in making informed decisions about pesticide rotations and alternative pest management strategies. By reducing the reliance on a single pesticide, such as Thiamethoxam, and adopting integrated pest management approaches, the risk of resistance development among target pests can be minimized. Additionally, it helps in minimizing the environmental impacts associated with pesticide use, aligning with the broader goals of sustainable agriculture.

    In summary, the precise measurement of Thiamethoxam is integral to modern agriculture, encompassing various critical aspects such as safety and regulatory compliance, efficacy assessment, environmental conservation, residue detection, and the promotion of sustainable farming practices. This meticulous approach aligns with the commitment of the agricultural industry to uphold stringent food safety and quality standards while mitigating environmental repercussions.



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