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. 2002 Oct 2;99(21):13549–13553. doi: 10.1073/pnas.222243999

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Copyright © 2002, The National Academy of Sciences

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Construction of a combinatorial library for the pyrE gene and selection in E. coli strain RK1032. The entire sequence of the E. coli OPRTase gene was simplified stepwise in 22 rounds of mutagenesis and phenotype selection. In steps 1–3, a genetic library was constructed by a strategy similar to that of Huang et al. (15). (Step 1) A target nucleotide sequence on pUC119 was replaced with a linker containing a SalI restriction site to eliminate wild-type DNA contamination in the following library constructions. E. coli CJ236 was transformed with the resulting plasmid, and then uracil-containing single-stranded DNA was isolated. A synthetic oligonucleotide designed to replace the linker sequence and generate several types of amino acid substitutions within the target segment was annealed to the single-stranded DNA. (Step 2) Second strands were synthesized, and the resulting double-stranded plasmid mixture was amplified in E. coli JM109. (Step 3) In rounds 1–15, the amplified plasmid DNA variants were digested with HindIII and EcoRI to excise the pyrE gene variants with the combinatorial sequence, and the HindIII–EcoRI fragments were inserted into low copy-number plasmid pSTV29. The resulting plasmids were amplified again in E. coli JM109. The phenotype selection was through steps 4–5. (Step 4) The amplified plasmid mixture was used to transform the ΔpyrE E. coli strain RK1032. (Step 4′) In rounds 16–22, the pyrE gene variants were not cloned into the low copy-number plasmid. The mutated pyrE genes inserted into pUC119 were used to transform E. coli RK1032. The RK1032 transformants were spread on M9 medium agar plates without uracil and incubated for 2 days at 37°C. (Step 5) On average, 12 of the largest colonies then were selected from the plates. The plasmid DNA variants were prepared from the colonies and used for the subsequent PCR amplification of the pyrE genes. The amplified PCR products were sequenced directly to determine the amino acid sequence within the mutagenized region. Based on the sequence analyses, the positions where the reduced-set residues are tolerated were determined. Thus a simplified amino acid sequence was generated within the targeted segment on pUC119. (Step 6) The resulting sequence variant on the plasmid was subjected to the next round of mutagenesis.