1. Enhancing Nanobody Immunoassays through Ferritin Fusion: Construction of a Salmonella -Specific Fenobody for Improved Avidity and Sensitivity.
- Author
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Liao X, Wang J, Guo B, Bai M, Zhang Y, Yu G, Wang P, Wei J, Wang J, Yan X, Fan K, and Wang Y
- Subjects
- Limit of Detection, Antibody Affinity, Antibodies, Bacterial immunology, Immunoassay methods, Ferritins immunology, Ferritins chemistry, Ferritins genetics, Single-Domain Antibodies chemistry, Single-Domain Antibodies genetics, Single-Domain Antibodies immunology, Salmonella immunology, Salmonella genetics, Enzyme-Linked Immunosorbent Assay methods
- Abstract
Nanobodies (Nbs) serve as powerful tools in immunoassays. However, their small size and monovalent properties pose challenges for practical application. Multimerization emerges as a significant strategy to address these limitations, enhancing the utilization of nanobodies in immunoassays. Herein, we report the construction of a Salmonella -specific fenobody (Fb) through the fusion of a nanobody to ferritin, resulting in a self-assembled 24-valent nanocage-like structure. The fenobody exhibits a 35-fold increase in avidity compared to the conventional nanobody while retaining good thermostability and specificity. Leveraging this advancement, three ELISA modes were designed using Fb as the capture antibody, along with unmodified Nb422 (FbNb-ELISA), biotinylated Nb422 (FbBio-ELISA), and phage-displayed Nb422 (FbP-ELISA) as the detection antibody, respectively. Notably, the FbNb-ELISA demonstrates a detection limit (LOD) of 3.56 × 10
4 CFU/mL, which is 16-fold lower than that of FbBio-ELISA and similar to FbP-ELISA. Moreover, a fenobody and nanobody sandwich chemiluminescent enzyme immunoassay (FbNb-CLISA) was developed by replacing the TMB chromogenic substrate with luminal, resulting in a 12-fold reduction in the LOD. Overall, the ferritin-displayed technology represents a promising methodology for enhancing the detection performance of nanobody-based sandwich ELISAs, thereby expanding the applicability of Nbs in food detection and other fields requiring multivalent modification.- Published
- 2024
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