DNA sequencing by a subcloning-walking strategy using a specific and semi-random primer in the polymerase chain reaction.

In its basic concept, in vitro DNA amplification by the polymerase chain reaction (PCR) is restricted to those instances in which segments of known sequence flank the fragment to be amplified. Recently, techniques have been developed for amplification of unknown DNA sequences. These techniques, however, are dependent on the presence of suitable restriction endonuclease sites. Here, we describe a strategy for PCR amplification of DNA that lies outside the boundaries of known sequence. It is based on the use of one specific primer, homologous to the known sequence, and one semi-random primer. Restriction sites in the 5' proximal regions of both primers allow for cloning of the amplified DNA in a suitable sequencing vector or any other vector. It was shown by sequence analysis that the cloned DNA fragments represent contiguous DNA fragments that are flanked at one side by the sequence of the specific primer. When omitting the semi-random primer, a single clone was obtained, which originated from PCR amplification of target DNA by the specific primer in both directions.