한국미생물생명공학회:학술대회논문집 (Proceedings of the Korean Society for Applied Microbiology Conference)
- 한국미생물생명공학회 2001년도 Proceedings of 2001 International Symposium
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- Pages.77-80
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- 2001
Generation of Protein Lineages with new Sequence Spaces by Functional Salvage Screen
- Kim, Geun-Joong (Department of Molecular Science and Technology, Ajou University) ;
- Cheon, Young-Hoon (Department of Biological Sciences, Korea Advanced Institute of Science and Technology) ;
- Park, Min-Soon (Department of Biological Sciences, Korea Advanced Institute of Science and Technology) ;
- Park, Hee-Sung (Department of Biological Sciences, Korea Advanced Institute of Science and Technology) ;
- Kim, Hak-Sung (Department of Biological Sciences, Korea Advanced Institute of Science and Technology)
- 발행 : 2001.06.01
초록
A variety of different methods to generate diverse proteins, including random mutagenesis and recombination, are currently available, and most of them accumulate the mutations on the target gene of a protein, whose sequence space remains unchanged. On the other hand, a pool of diverse genes, which is generated by random insertions, deletions, and exchange of the homologous domains with different lengths in the target gene, would present the protein lineages resulting in new fitness landscapes. Here we report a method to generate a pool of protein variants with different sequence spaces by employing green fluorescent protein (GFP) as a model protein. This process, designated functional salvage screen (FSS), comprises the following procedures: a defective GFP template expressing no fluorescence is firstly constructed by genetically disrupting a predetermined region(s) of the protein, and a library of GFP variants is generated from the defective template by incorporating the randomly fragmented genomic DNA from E. coli into the defined region(s) of the target gene, followed by screening of the functionally salvaged, fluorescence-emitting GFPs. Two approaches, sequence-directed and PCR-coupled methods, were attempted to generate the library of GFP variants with new sequences derived from the genomic segments of E. coli. The functionally salvaged GFPs were selected and analyzed in terms of the sequence space and functional property. The results demonstrate that the functional salvage process not only can be a simple and effective method to create protein lineages with new sequence spaces, but also can be useful in elucidating the involvement of a specific region(s) or domain(s) in the structure and function of protein.
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