AlligBAITOR™ Lyophilized Simplifies Antibody Workflows with Pan-Ig Capture
Application
Broad immunoglobulin capture across multiple isotypes using Fab-targeted binding for simplified, immuno-profiling workflows.
Conventional immunoaffinity reagents are often limited to selected antibody classes, restricting access to the full immunoglobulin repertoire present in biological samples. AlligBAITOR efficiently captures a wide range of immunoglobulin isotypes, increasing the depth of relevant information that can be derived from complex samples. Here, we describe how AlligBAITOR enables rapid and high-affinity capture of multiple immunoglobulin isotypes, extending its applicability beyond more traditional, IgG-focused workflows.
AlligBAITOR binds antibody Fab domains with high affinity, enabling efficient interaction with diverse immunoglobulin classes in just 30 minutes. Size-exclusion chromatography (SEC) analysis demonstrates complex formation between AlligBAITOR and multiple immunoglobulin isotypes, confirming broad isotype recognition and supporting the use of AlligBAITOR for applications dependent on pan-Ig capture. Such applications include autoantibody profiling for unbiased biomarker discovery, therapeutic drug monitoring, anti-drug antibody (ADA) immunogenicity assessment in biologics development, infectious disease serology; vaccine response profiling, and population-scale immune surveillance.
AlligBAITOR facilitates rapid and high-affinity pan-Ig capture
Targeting the Fab, rather than the Fc domain, AlligBAITOR provides an alternative approach to conventional Fc-directed affinity reagents. This binding mechanism enables interaction with all antibody classes using a single reagent, supporting streamlined workflows and broad immunoglobulin coverage. By capturing all isotypes in one step, AlligBAITOR simplifies upstream sample preparation and reduces the need for multiple, isotype-specific workflows.
Fab-specific recognition enables capture of all Ig isotypes.
This unified, cross-isotype Ig capture, approach serves to improve assay reliability and scalability across applications such as serology, biomarker discovery, and immunogenicity testing. Providing consistent starting material for a diverse range of downstream analytical workflows increases confidence in potentially biologically important information.
Efficient pan-Ig capture supports a range of analytical applications.
