Curing of Saccharomyces cerevisiae 2-μm DNA by transformation Elke ErhartCornelis P. Hollenberg OriginalPaper Pages: 83 - 89
A novel mutation that affects utilization of galactose in Saccharomyces cerevisiae II. A partial aneuploid for chromosome II isolated as a revertant of the mutant Y. NogiT. Fukasawa OriginalPaper Pages: 91 - 96
Physical evidence for recombination of chloroplast dna in hybrid progeny of Chlamydomonas eugametos and C. moewusii Claude LemieuxMonique TurmelRobert W. Lee OriginalPaper Pages: 97 - 103
Control of organelle transmission in Chlorophytum Kevin C. VaughnDonald L. KimpelKenneth G. Wilson OriginalPaper Pages: 105 - 108
Cytoplasmic mixing in Saccharomyces cerevisiae: Studies on a grande X neutral petite mating and implications for the mechanism of neutrality Elissa P. SenaMarsha PapayRosi Kuerti OriginalPaper Pages: 109 - 118
Evidence for transcriptional regulation of dihydroorotic acid dehydrogenase in Saccharomyces cerevisiae G. LoisonR. JundF. Lacroute OriginalPaper Pages: 119 - 123
Unequal sister-strand recombination within yeast ribosomal DNA does not require the RAD 52 gene product Timothy J. ZambThomas D. Petes OriginalPaper Pages: 125 - 132
Putative frameshift suppressors in Schizosaccharomyces pombe H. HottingerU. Leupold OriginalPaper Pages: 133 - 143
Developmental genetics of Coprinus cinereus: Genetic evidence that carpophores and sclerotia share a common pathway of initiation David Moore OriginalPaper Pages: 145 - 150
Plasmid-like DNA is part of mitochondrial DNA in Podospora anserina Ulrich KückUlf StahlKarl Esser OriginalPaper Pages: 151 - 156
Gene organization of the mitochondrial DNA of yeasts: Kluyveromyces lactis and Saccharomycopsis lipolytica Micheline WésolowskiAngela AlgeriHiroshi Fukuhara OriginalPaper Pages: 157 - 162
Nucleotide modification of tRNA in. the yeast Saccharomyces cerevisiae is not Affected by the ψ factor which modulates suppression efficiency Diane ColbyFred Sherman Short Communication Pages: 163 - 165