ABM: To construct a random peptide phage display library and search for peptides that specifically bind to the PreS region of hepatitis B virus (HBV). METHODS: A phage display vector, pFuse8, based on the gene 8 product (pⅧ) of M13 phage was made and used to construct a random peptide library. Ecoli derived thioredoxin-PreS was purified with Thio-bond beads, and exploited as the bait protein for library screening. Five rounds of bio-panning were performed. The PreS-binding specificities of enriched phages were characterized with phage ELISA assay. RESULTS: A phage display vector was successfully constructed as demonstrated to present a pⅧ fused HBV PreSl epitope on the phage surface with a high efficiency. A cysteine confined random peptide library was constructed containing independent clones exceeding 5±108 clone forming unit (CFU). A pool of phages showing a PreS-binding specificity was obtained after the screening against thio-PreS with an enrichment of approximately 400 times. Five phages with high PreS-binding specificities were selected and characterized. Sequences of the peptides displayed on these phages were determined. CONCLUSION: A phage library has been constructed, with random peptides displaying as pVIII-fusion proteins. Specific PreS-binding peptides have been obtained, which may be useful for developing antivirals against HBV infection. ABM: To construct a random peptide phage display library and search for peptides that specifically bind to the PreS region of hepatitis B virus (HBV). METHODS: A phage display vector, pFuse8, based on the gene 8 product (pⅧ) of M13 phage was made and used to construct a random peptide library. Ecoli derived thioredoxin-PreS was purified with Thio-bond beads, and exploited as the bait protein for library screening. Five rounds of bio-panning were performed. The PreS-binding specificities of enriched phages were characterized with phage ELISA assay. RESULTS: A phage display vector was successfully constructed as demonstrated to present a pⅧ fused HBV PreSl epitope on the phage surface with a high efficiency. A cysteine ​​confined random peptide library was constructed containing independent clones exceeding 5 ± 108 clone forming unit (CFU). A pool of phages showing a PreS-binding specificity was obtained after screening against thio-PreS with an enrichment of approximately 400 times Sequences of the peptides displayed on these phages were determined. CONCLUSION: A phage library has been constructed, with random peptides displaying as pVIII-fusion proteins. Specific PreS-binding peptides have has obtained, which may be useful for developing antivirals against HBV infection.