The origin of mutant cells: mechanisms by whichSaccharomyces cerevisiae produces cells homoplasmic for new mitochondrial mutations James S. BackerC. William Birky Jr. OriginalPaper Pages: 627 - 640
Mitochondrial suppression of a yeast nuclear mutation which affects the translation of the mitochondrial apocytochrome b transcript Gerhard RödelAndreas KörteFritz Kaudewitz OriginalPaper Pages: 641 - 648
The use of mitochondrial mutants in hybridization of industrial yeast strains J. F. T. SpencerC. BizeauDorothy M. Spencer OriginalPaper Pages: 649 - 652
Efficient expression of theEscherichia coli leuB gene in yeast J. B. McNeilR. K. StormsM. Smith OriginalPaper Pages: 653 - 660
Identification and characterization of mitochondrial translation products in various yeasts and inPrototheca zopfii M. Winnann EwingDonald W. Deters OriginalPaper Pages: 661 - 670
Deleted forms of plastid DNA in albino plants from cereal anther culture Anil DayT. H. Noel Ellis OriginalPaper Pages: 671 - 678
Linear mitochondrial plasmid inBrassica has terminal protein L. EricksonW. D. BeversdorfK. P. Pauls OriginalPaper Pages: 679 - 682
Transcriptional organization and possible function of mustard plastid DNA regions expressed in vivo Gabriele DietrichGerhard Link OriginalPaper Pages: 683 - 692
Either one of the two yeast EF-1α genes is required for cell viability Patrick CottrelleMarc CoolPierre Fromageot Short communication Pages: 693 - 697
Phenylalanine and tyrosine transfer RNAs encoded byTetrahymena pyriformis mitochondrial DNA: primary sequence, post-transcriptional modifications, and gene localization Murray N. SchnareTaisto Y. K. HeinonenMichael W. Gray Erratum Pages: 698 - 698