Heterogenomic Recombinants from Compatible Nocardiae

Abstract

Recombinants obtained from matings of Nocardia erythropolis × N. canicruria were tested for their genetic stability by comparing phenotypes from direct selection with the same population after unselected growth. Contraselective loci were employed in various combinations in order that all of the mapped characters might be subjected to unselected analysis. Some recombinant class types appeared as stable haploids, whereas others behaved as heterozygous diploids, segregating out new phenotypes. All regions of the parental genomes were found to be involved in segregation, implying that the entire mapped region can become merozygotic under standard mating conditions. On the basis of segregating phenotypes, the genetic potentials of these compatible nocardiae were ascertained as follows: the formation of a diploid with subsequent segregation of parental or haploid recombinant genomes or both; persistence of the diploid through many generations; continuing reassortment of genetic information by multiple matings between parental or recombinant organisms; and, very probably, second-round recombinations within the diploid. A considerable difference in the nuclear division time between the parental organisms was postulated to have significant effects on the nature of the unselected segregants.