Determination of a nucleotide sequence in bacteriophage f1 DNA by primed synthesis with DNA polymerase

Abstract

A method is described for the determination of nucleotide sequences in DNA by using specific oligonucleotides as primers for copying specific regions by DNA polymerase. The method was applied to bacteriophage f1 DNA using the synthetic octanucleotide A-C-C-A-T-C-C-A as primer and a sequence (sequence A) of 81 nueleotides was determined. Synthesis was carried out in the presence of manganese and with one of the deoxyribotriphosphates (dCTP or dGTP) replaced by the corresponding ribotriphosphate so that mixed oligonucleotides were found which could be specifically split at the ribonucleotide residues by the appropriate ribonuclease or by alkali. The relative order of the digestion products was determined by fractionating the undigested oligonucleotides according to size on a two-dimensional system and digesting the isolated products. In the presence of rGTP the octanucleotide appeared to prime at a second site giving rise to a second sequence (B) besides sequence A. The complementary sequence to sequence A, which corresponds to the plus strand of f1 DNA and to the messenger RNA, contains five nonsense codons, four of which are in the same phase, and two possible initiation codons. It also contains a repetitive sequence which suggests its evolutionary origin by duplication.