The linkage relationship of the cytoplasmic drug-resistance factors in Saccharomyces cerevisiae

A dozen mutants of Succhnroniyces cerevisiue, resistant to C8-ATC have been characterized. CR-ATC was previously established as a biologically toxic compound. Frequency of mutants (lo-') was typical for spontaneou? mutations. One very stable mutant was characterized extensively. The genetical analys

The pattern of somatic segregation of the cytoplasmic factors confering resistances to chloramphenicol, erythromycin and oligomyin in S. cerevisiae was studied. The fractions of the zygotes heterozygous for the chloramphenicol-resistance factor and for the erythromycin-resistance factor decreased ex

Using allelism tests, two diuron (DIU1, DIU2), one funiculosin (FUN1), and two antimycin (ANA1, ANA2) resistance loci are resolved into two mitochondrial drug-resistant genetic loci. DIU1 is alelic to ANA2 and FUN1. DIU2 is allelic to ANA1.

Protein synthesis by ribosomes from several cryptopleurine-resistant yeast mutants is also resistant to emetine and tubulosine. These mutants can be classified into two different types: Class I mutants which display high levels of resistance to emetine and tubulosine and Class II mutants that are on

Expression kinetics of the human Epidermal Growth Factor (hEGF) from the a-factor prepro region in a 2-pm based plasmid was studied in Saccharomyces cerevisiae. Production o f hEGF was highly medium dependent as a chemically defined, nonenriched media had a significantly lower yield than did enriche