AIM: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 produc...AIM: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.展开更多
基金Supported by Basic Research Program from Ministry of Science and Technology of China, No. G1999054105special funds for Sino-France Center for Life Science and Genome Research from Chinese Academy of Sciences and Pasteur Institute in France
文摘AIM: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.