Polarity of localised conversion in Streptococcus pneumoniae transformation

Abstract

Localised conversion in pneumococcal transformation is a process that spans a few nucleotides when the 5′-ATTAAT/3′-TAAGTA configuration occurs at the pairing step. It was first observed in two-point crosses between an amiA mutation (amiA36) carrying this sequence and other closely linked mutants of the locus. The yield of the amiA resistance allele conversion to wild type is 20%. In order to characterize this process, which differs from longpatch conversion by the length of DNA repair, gene requirements and sequence specificity, we devised expreriments to detect the reciprocal conversion, AmiA⁺ to AmiA^r. For this purpose we examined the suppressibility by a pneumococcal informational suppressor of several nonsense mutations at the locus. Amber (UAG) and ochre (UAA) mutations are suppressed whereas UGA is not suppressed. In this genetic background, where amiA36 is partly suppressed, it was possible to select for double mutants in a cross between amiA36 and a closely linked non-suppressible marker. Direct isolation of such double mutants was also performed without any screening in crosses between amiA36 and the same linked marker in cloned DNA. The frequency of double mutants was very low (1/175) suggesting that there is no conversion of wild-type to mutant alleles. Thus conversion is a polarized process changing specifically A to C.