Further studies on recombination in diploid clones from Bacillus subtilis protoplast fusion.

Diploid prototrophs were obtained from protoplast fusion of Bacillus subtilis strains. They are unstable but upon further cultivation they stabilize retaining diploidy but are genetically inactive. It has been suggested that recombination between the parental chromosomes is involved in the production of stable prototrophs and recombinants. In this work the occurrence of this recombination was searched for by determining genetic linkages in transformation experiments. In prototrophs two alleles: hisH2 and trpE8 carried originally on each parental chromosome, were shown to be 48% co-transformable in a stable clone whereas they were only cotransformed in 10% of the unstable colonies. For Trp- recombinants (the most frequent type of a Leu- Met- Thr- x Ade- Ura- Trp- fusion pair) lysed protoplasts were used as donor DNA for the transformations. High values of co-transfer for Ura+ Met+ were obtained. These results confirm the occurrence of recombination in stable diploid clones, prototrophs or recombinants.