Zheng Lei, Baumann Ulrich, Reymond Jean-Louis
Department of Chemistry and Biochemistry, University of Berne, Freiestrasse 3, CH-3012 Berne, Switzerland.
Nucleic Acids Res. 2004 Aug 10;32(14):e115. doi: 10.1093/nar/gnh110.
We have developed a new primer design method based on the QuickChange site-directed mutagenesis protocol, which significantly improves the PCR amplification efficiency. This design method minimizes primer dimerization and ensures the priority of primer-template annealing over primer self-pairing during the PCR. Several different multiple mutations (up to 7 bases) were successfully performed with this partial overlapping primer design in a variety of vectors ranging from 4 to 12 kb in length. In comparison, all attempts failed when using complete-overlapping primer pairs as recommended in the standard QuickChange protocol. Our protocol was further extended to site-saturation mutagenesis by introducing randomized codons. Our data indicated no specific sequence selection during library construction, with the randomized positions resulting in average occurrence of each base in each position. This method should be useful to facilitate the preparation of high-quality site saturation libraries.
我们基于QuickChange定点诱变方案开发了一种新的引物设计方法,该方法显著提高了PCR扩增效率。这种设计方法将引物二聚体化降至最低,并确保在PCR过程中引物与模板退火优先于引物自身配对。使用这种部分重叠引物设计,在长度为4至12 kb的各种载体中成功进行了几种不同的多位点突变(多达7个碱基)。相比之下,按照标准QuickChange方案推荐使用完全重叠引物对时,所有尝试均失败。通过引入随机密码子,我们的方案进一步扩展到位点饱和诱变。我们的数据表明在文库构建过程中没有特定的序列选择,随机化位置导致每个位置上每个碱基的平均出现频率。这种方法应有助于制备高质量的位点饱和文库。