Creative Biolabs is offering the most comprehensive services for antibody development projects. With strict regulation and effective execution, we are dedicated to providing the most valuable solutions to complete your projects.
HighlightsCreative Biolabs is offering the most comprehensive services for antibody development projects. With strict regulation and effective execution, we are dedicated to providing the most valuable solutions to complete your projects.
HighlightsCreative Biolabs is offering the most comprehensive services for antibody development projects. With strict regulation and effective execution, we are dedicated to providing the most valuable solutions to complete your projects.
HighlightsCreative Biolabs is offering the most comprehensive services for antibody development projects. With strict regulation and effective execution, we are dedicated to providing the most valuable solutions to complete your projects.
HighlightsWith over a decade of experience in phage display technology, Creative Biolabs can provide a series of antibody or peptide libraries that are available for licensing or direct screening. These ready-to-use libraries are invaluable resources for isolating target-specific binders for various research, diagnostic or therapeutic applications.
HighlightsCreative Biolabs has established a broad range of platforms for developing novel antibodies or equivalents. These cutting-edge technologies enable our scientists to meet your demands from different aspects and tailor the most appropriate solution that contributes to the success of your projects.
HighlightsWith deep understanding in antibody-related realms and extensive project experience, Creative Biolabs offers a variety of references to help you learn more about our capacities and achievements, including infographic, flyer, case study, peer-reviewed publications, and all kinds of knowledge that can assist your projects. You are also welcome to contact us directly for more specific solutions.
HighlightsGet a real taste of Creative Biolabs, one of the most professional custom service providers in the world. We are committed to providing highly customized comprehensive solutions with the best quality to advance your projects.
HighlightsCreative Biolabs antibody cysteine modification platform has the unprecedented ability to produce antibodies introduced free cysteine without disrupting any antigen-targeting capacity, stability or homogeneity, which cannot be otherwise produced in any other platform. Advantages include quality, stability, purity, rapidly delivery as well as reduced production and development cost. This service has a wide application including but not limited to molecular imaging, antibody-drug conjugations (ADCs) and diagnostics.
Modification of proteins by the covalent attachment of payloads has gained prominence in the development of therapeutic proteins. In the past decade, many novel site-specific, bio-orthogonal reactions that enable precise and controlled modification of proteins have been reported. Comparing with the primary amines of lysines, it takes more advantages to choose sulfhydryls of cysteines serve as conjugation sites. Because this amino acid is less abundant and forms conserved disulfide bridges in antibodies to eliminate the risk of leading to steric hindrance of target recognition, we use both conventional modification methods and novel precise modification at engineered C- or N-terminal free cysteines of antibodies, such as site-specific mutagenesis and traceless cleavable linkers.
Fig. 1 Construction
of a traceless chemically defined tumor-vascular targeting antibody-drug
conjugate based on disulfide linkage. (Bernardes et al. 2013)
Fig. 2 Massa et al. (2014)
We guarantee any antibody cysteine modification (over 95% purity) with excellent homogeneity and antigen-binding properties.
Expertise knowledge and rich experience in site-specific modification and conjugation;
A comprehensive system of both conventional and modern novel methods and technologies for biomodification and conjugation;
Professional computational modelling and computer analysis design for site-specific modification residues selection.
The following quality control measures are employed to create the highest quality monoclonal antibodies commercially available: ELISA against the antigen, HPLC.
Other optional antibody engineering services:
Antibody cysteine modification refers to the process of chemically altering cysteine residues within an antibody. This is typically done to enhance the antibody's properties, such as improving its stability, solubility, or therapeutic efficacy. Modifications can include the attachment of drugs, toxins, or other functional groups to the antibody, enabling it to target and interact with specific cells or molecules more effectively.
Cysteine residues are chosen for modification because they contain a thiol group, which is reactive and can form disulfide bonds. This makes cysteine ideal for conjugation with other molecules. Modifying cysteine residues can help in creating antibody-drug conjugates (ADCs) or enhancing antibody binding affinity and specificity without significantly altering the antibody's overall structure.
Cysteine modification can significantly enhance an antibody's function in several ways. For instance, by attaching therapeutic drugs to cysteine residues through stable linkers, antibodies can be transformed into highly specific drug delivery systems known as ADCs. These conjugates are designed to deliver cytotoxic drugs directly to tumor cells, minimizing the impact on normal cells and reducing side effects.
To ensure specificity in cysteine modification, antibodies may be engineered to include free cysteine residues at specific sites. This engineering allows precise control over where modifications occur, minimizing unwanted alterations in other parts of the antibody. Additionally, protective groups can be used to temporarily block other reactive groups during the modification process, further enhancing specificity.
Modified cysteine residues in antibodies are particularly useful in the development of targeted therapies, such as antibody-drug conjugates (ADCs) used in cancer treatment. These modifications also facilitate the creation of bispecific antibodies, where modification can help in linking two different antibodies or fragments to target multiple antigens or pathways simultaneously. Moreover, cysteine-modified antibodies are used in diagnostic applications, where they may carry labels or probes that enhance detection capabilities.
Use the resources in our library to help you understand your options and make critical decisions for your study.
All listed services and products are For Research Use Only. Do Not use in any diagnostic or therapeutic applications.
