A GENERAL-METHOD OF POLYMERASE-CHAIN-REACTION-ENABLED PROTEIN DOMAIN MUTAGENESIS - CONSTRUCTION OF A HUMAN PROTEIN-S OSTEONECTIN GENE

Polymerase chain reaction (PCR) amplification was employed to construct a mosaic gene consisting of the propeptide region of protein S and the glutamic acid-rich domain of osteonectin. The strategy is straightforward, results in large amounts of material, and is universally applicable for the generation of protein domain chimeras. In some cases 10% dimethyl sulfoxide aided the amplification. Four base CCGC "clamp" sequences adjacent to BamHI restriction sites at the ends of the PCR products were used to enhance the ligation of products. A hybrid inverse complement oligonucleotide primer composed of sequences containing 20 nucleotides of protein S and 16 nucleotides of osteonectin was used in the first round of PCR. An additional osteonectin sequence was added to the initial amplified product by performing PCR using a second "boot-strap" primer containing 18 nucleotides of osteonectin. Primers used to amplify osteonectin encompassed the 146-amino-acid NH2-terminal half of osteonectin. The double-stranded first-round fragments of protein S-osteonectin and osteonectin were subsequently mixed together and one elongation cycle of PCR was performed. Annealing occurred as the result of the 34-base-pair overlap region composed of osteonectin sequence. Taq polymerase was used for elongation with subsequent recombinant DNA synthesis. After elongation, external primers were added to amplify the protein S-osteonectin gene construct. The protocol we have developed allows noncoding and coding segments of DNA to be linked, GC-rich areas of DNA to be amplified, hybridization temperatures to be increased, annealing times to be reduced, and PCR of products to be subcloned. © 1991.