Heavy Metal Hapten Design and Synthesis Services at Creative Biolabs
With advanced knowledge and technology in small molecule haptens, Creative Biolabs provides design and synthesis services for heavy metal haptens.
New York, United States – June 21, 2022 – Heavy metals, such as lead, cadmium and mercury, are toxic contaminants that have become a global concern for human and animal health. Toxic contaminants accumulate in the body through the environment and the food supply, potentially causing serious adverse events, such as carcinogenesis, mutagenesis and teratogenesis.
Fueled by the increasing demand for heavy metal monitoring and identification, heavy metal immunological detection technology has made continuous progress and opened up a broad application prospect.
Among all immunoassay development procedures, the design and synthesis of heavy metal haptens is critical. Creative Biolabs offers design and synthesis of heavy metal haptens services accordingly, including but not limited to:
Design and synthesis of haptens for lead
As one of the most common heavy metals, lead causes large-scale pollution worldwide. Antibodies against lead-chelate complexes can quickly detect the presence of lead ions. Due to their low molecular weight and low immunogenicity, lead ions must be designed and synthesized in different formats, or as lead haptens, for the detection of lead ions. Creative Biolabs provides design and synthesis services for lead haptens by selecting the highly efficient bifunctional chelating agents to link lead ions and carrier proteins.
Design and synthesis of haptens for cadmium
High affinity antibodies are needed to develop immunoassays against cadmium, a toxic and carcinogenic environmental element that threatens human health. Meanwhile, the design and synthesis of suitable and high-quality cadmium haptens are the prerequisites for cadmium detection with low detection limits and full working range. With years of experience in hapten development, Creative Biolabs can handle the design and synthesis of cadmium haptens for global customers.
Design and synthesis of haptens for Mercury
Anti-mercury monoclonal antibody is the key diagnostic tool in highly specific and sensitive immunoassays. The mercury-based hapten synthesis strategy provides a powerful yet easy-to-use analytical tool for detecting mercury contamination. Creative Biolabs offers design and synthesis services aimed at preparing stable mercury haptens to meet a variety of needs.
Design and synthesis of haptens for chromium
Chromium is not biodegradable and exhibits varying levels of toxicity in various formats, making it a potential threat to human health; thus, immunoassays that testify to its presence are of crucial importance. Due to its low molecular weight, chromium cannot trigger an immune response. Accordingly, bifunctional chelators can be used to conjugate transporters and chromium to synthesize chromium-chelated protein complexes as complete immunogens that can efficiently elicit chromium-specific antibodies.
Design and synthesis of haptens for copper
Copper ions are essential for the metabolism of living organisms but toxic in high concentrations. Traditional copper detection methods rely on expensive instruments and highly professional analysts, which is costly, highly specific, and time-consuming. The alternative approach to copper ion measurement has recently received significant attention. Creative Biolabs provides services including designing and synthesizing copper ion haptens, obtaining specific antibodies, and using antigen-antibody reactions to perform immunoassays.
For more information about heavy metal hapten design and synthesis services at Creative Biolabs, please visit https://small-molecule-antibody.creative-biolabs.com.
About Creative Biolabs
Based on advanced platforms and a highly qualified team, Creative Biolabs provides customized services for the design, modification and synthesis of heavy metal haptens and helps to develop antibodies against varieties of heavy metals.
Company Name: Creative biolabs
Contact person: Swift Candy
E-mail: Send an email
Country: United States