Article PDF
References
Adams, A M. 1949. A convenient method of obtaining ascospores from bakers' yeast. Can J Res, C, 27, 179–189.
Caputto, R, Leloir, L F, Cardini, C E, and Paladini, A C. 1950. Isolation of the coenzyme of the galactose phosphate -glucose phosphate transformation. J Biol Chem, 184, 333–350.
Caputto, R, Leloir, L F, Trucco, R E, Cardini, C E, and Paladini, A C. 1949. The enzymatic transformation of galactose into glucose derivatives. J Biol Chem, 179, 497–498.
Cardini, C E, Paladini, A C, Caputto, R, Leloir, L F, and Trucco, R E. 1949. The isolation of the coenzyme of phosphoglucomutase. Arch Biochem, 22, 87–100.
Ephrussi, B, and Hottinguer, H. 1951. Cytoplasmic constituents of heredity. Cold Spring Harbor Symp Quant Biol, 16, 75–85.
Ephrussi, B, Hottinguer, H, and Tavlitzki, J. 1949. Action de l'acriflavine sur les levures. II. Etude génétique du mutant “petite colonie”. Ann Inst Past, 76, 419–450.
Gilliland, R B. 1949. A yeast hybrid heterozygotic in four fermentation characters. Ctes rend Lab Carlsberg, Sér Physiol, 24, 347–356.
Leupold, U. 1950. Die Vererbung von Homothallie und Heterothallie bei Schizosaccharomyces Pombe. Ctes rend Lab Carlsberg, Sér Physiol, 24, 381–480.
Leupold, U. Tetraploid inheritance in Saccharomyces. (In press.)
Lindegren, C C. 1949a. Chromosome maps of Saccharomyces. P Int Gen C (8). pp. 338–355.
Lindegren, C C. 1949b. The Yeast Cell, its Genetics and Cytology. Educ. Pub., Incorporated, St Louis.
Lindegren, C C. 1953. Concepts of gene-structure and gene-action derived from tetrad analysis of Saccharomyces. Experientia, 9, 75–80.
Lindegren, C C, and Lindegren, G. 1947. Depletion mutation in Saccharomyces. PNAS, 33, 314–318.
Lindegren, C C, and Lindegren, G. 1951. Tetraploid Saccharomyces. J Gen Microbiol, 5, 885–893.
Lindegren, C C, and Lindegren, G. 1952. Proximity of genes controlling the fermentation of similar carbohydrates in Saccharomyces. Nature, 170, 965–968.
Mundkur, B D. 1949. Evidence, excluding mutations, polysomy, and polyploidy, as possible causes of non-Mendelian segregations in Saccharomyces. Ann Miss Bot Garden, 36, 259–280.
Mundkur, B D. 1950. Irregular segregations in yeast hybrids. Current Sci, 19, 84–85.
Papazian, H G. 1952a. The analysis of tetrad data. Genetics, 37, 175–188.
Papazian, H G. 1952b. Unordered tetrads. Amer Nat, 86, 117–118.
Perkins, D D. 1949. Biochemical mutants in the smut fungus Ustilago may dis. Genetics, 34, 607–626.
Perkins, D D. 1953. The detection of linkage in tetrad analysis. Genetics, 38, 187–197.
Pomper, S. 1952. Isolation of triploid Saccharomyces cerevisiae. Nature, 170, 892–893.
Pomper, S, and Burkholder, P R. 1949. Studies on the biochemical genetics of yeast. PNAS, 35, 456–464.
Roman, H, Hawthorne, D C, and Douglas, H C. 1951. Polyploidy in yeast and its bearing on the occurrence of irregular genetic ratios. PNAS, 37, 79–84.
Spiegelman, S. 1952. Mapping functions in tetrad and recombinant analysis. Science, 116, 510–512.
Tavlitzki, J. 1951. Sur les conditions de la formation de pigment chez une levure rouge. Rev Can Biol, 10, 48–59.
Thorne, R S W. 1951. The genetics of flocculence in Saccharomyces cerevisiae. Ctes rend Lab Carlsberg, Sér Physiol, 25, 101–140.
Trucco, R E, Caputto, R, Leloir, L F, and Mittelman, N. 1948. Galaktokinase. Arch Biochem, 18, 137–146.
Wickerham, L J. 1946. A critical evaluation of the nitrogen assimilation tests commonly used in the classification of yeasts. J Bact, 52, 293–301.
Wickerham, L J, and Burton, K A. 1948. Carbon assimilation tests for the classification of yeasts. J Bact, 56, 363–371.
Whitehouse, H L K. 1950. Mapping chromosome centromeres by the analysis of unordered tetrads. Nature, 165, 893.
Winge, Ø, and Laustsen, O. 1937. On two types of spore germination, and on genetic segregations in Saccharomyces, demonstrated through single-spore cultures. Ctes rend Lab Carlsberg, Sér Physiol, 22, 99–116.
Winge, Ø, and Roberts, C. 1948. Inheritance of enzymatic characters in yeasts, and the phenomenon of long-term adaptation. Ctes rend Lab Carlsberg, Sér Physiol, 24, 263–315.
Winge, Ø, and Roberts, C. 1950a. Non-Mendelian segregation from heterozygotic yeast asci. Nature, 165, 157.
Winge, Ø, and Roberts, C. 1950b. The polymeric genes for maltose fermentation in yeasts, and their mutability. Ctes rend Lab Carlsberg, Sér Physiol, 25, 35–83.
Winge, Ø, and Roberts, C. 1952. The relation between the polymeric genes for maltose, raffinose, and sucrose fermentation in yeasts. Ctes rend Lab Carlsberg, Sér Physiol, 25, 141–171.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Leupold, U., Hottinguer, H. Some data on segregation in Saccharomyces. Heredity 8, 243–258 (1954). https://doi.org/10.1038/hdy.1954.21
Received:
Issue date:
DOI: https://doi.org/10.1038/hdy.1954.21
This article is cited by
-
Genetische Untersuchungen an den Tetraden einer h�heren Pflanze (Salpiglossis Variabilis)
Zeitschrift f�r Vererbungslehre (1962)
-
Genetic analysis of ?-methyl-glucoside fermentation in Saccharomyces
Zeitschrift f�r Vererbungslehre (1959)
-
Recurrent changes in colony morphology dependent on intracolony selection of prototrophs occurring in red yeast
Heredity (1958)
-
The genetics of alpha-methyl-glucoside fermentation in saccharomyces
Heredity (1958)
-
Gene segregation in autotetraploids. II
The Botanical Review (1958)
