Interspecific protoplast fusion ofSaccharomyces cerevisiaeandSaccharomyces mellis

Saccharomyces cerevisiae hisl trp2 resistant to acriflavine and able to ferment galactose and of Saccharomyces fermentati arg resistant to DL-pfluorophenylalanine and able to ferment lactose were fused. As a result of fusion two types of prototrophic hybrids were obtained. Type 1 hybrids were able t

The protoplast fusion technique provides a useful method For improving industrial yeasts and a~olutinant anents like polyethylene qlycol (PEP) MY! 4000 and Ca ++ ions are widely used to stimulate the fusion process. Commercial Baker's yeast Soc~omwce3 c~euX3iae and Sacchc~omycEs dx~a6Y~uticcu~ were

Auxotrophic mutants of Saccharomyces cerevisiae and Candida utilis were hybridized through protoplast fusion. Spontaneous, UV- and FPA-induced mitotic segregation indicated that after cell fusion, exclusion of the S. cerevisiae nucleus or nuclear fusion followed by preferential loss of S. cerevisiae

Hypocotyl derived protoplasts of B. juncea cv. RLM-198 were fused with mesophyll protoplasts of B. spinescens using polyethylene glycol to produce interspecific hybrids. Fusion products could be microscopically identified by characteristics of the protoplasts of both parents in the hybrid cells; the