Enhanced targeting: Production of filamentous bacteriophage monoclonal antibodies using the major coat protein pVIII as anchor.

Filamentous bacteriophage display technology has been employed in antibody discovery, drug screening, and protein-protein interaction study across various fields, including food safety, agricultural pollution, and environmental monitoring. Antifilamentous bacteriophage antibodies for identifying filamentous bacteriophage are playing a pivotal role in this technology. However, the existing antifilamentous bacteriophage antibodies lack sensitivity and specificity, and the antibodies preparation methods are cumbersome and hyposensitive. The major coat protein pVIII of filamentous bacteriophage has an advantage in quantification, which is benefit for detecting signal amplification but its full potential remains underutilized. In this study, the partial polypeptide CT21 of the major coat protein pVIII of filamentous bacteriophage was intercepted as the targeted immunogen or coating antigen to prepare antifilamentous bacteriophage antibodies. Six filamentous bacteriophage-specific monoclonal antibodies (mAbs) M5G8, M9A2, P6B5, P6D2, P8E4, and P10D4 were obtained. The limit of detections of the prepared six mAbs for detecting filamentous bacteriophage was 1.0 × 10 7  pfu mL -1 . These mAbs stayed stable under different pH, temperature, and exhibited high specificity in real application. This study not only provides a new idea for simplifying the preparation of antifilamentous bacteriophage antibodies which could apply in filamentous bacteriophage display, but it also presents a novel strategy for preparing antibodies against protein-specific epitopes with high sensitivity.