Results 161 to 170 of about 1,282,687 (189)
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Cold Spring Harbor Protocols, 2006
INTRODUCTIONStaining yeast cells for the presence and localization of antigens has been particularly challenging because of several factors. The yeast cells are small, making the resolution of any antigen difficult; they have a thick cell wall that antibodies cannot penetrate and that is difficult to remove; and they grow in suspension, making handling
Ed, Harlow, David, Lane
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INTRODUCTIONStaining yeast cells for the presence and localization of antigens has been particularly challenging because of several factors. The yeast cells are small, making the resolution of any antigen difficult; they have a thick cell wall that antibodies cannot penetrate and that is difficult to remove; and they grow in suspension, making handling
Ed, Harlow, David, Lane
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Microbial & Comparative Genomics, 1998
To achieve coordinate gene regulation, yeast (Saccharomyces cerevisiae) appears to have exploited two distinct multifunction "operon" schemas: one, by concatenating originally separate functional domains into single polypeptides, and two, by linking opposite strand genes through common promoter elements.
X, Zhang, T F, Smith
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To achieve coordinate gene regulation, yeast (Saccharomyces cerevisiae) appears to have exploited two distinct multifunction "operon" schemas: one, by concatenating originally separate functional domains into single polypeptides, and two, by linking opposite strand genes through common promoter elements.
X, Zhang, T F, Smith
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The FASEB Journal, 1989
The three families of double‐stranded RNA (dsRNA) viruses and two families of retroviruses (retrotransposons) of the yeast Saccharomyces cerevisiae are all transmitted between cells only by cell fusion, probably reflecting the high frequency of mating of yeast cells in nature. One dsRNA virus
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The three families of double‐stranded RNA (dsRNA) viruses and two families of retroviruses (retrotransposons) of the yeast Saccharomyces cerevisiae are all transmitted between cells only by cell fusion, probably reflecting the high frequency of mating of yeast cells in nature. One dsRNA virus
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Biochimica et Biophysica Acta (BBA) - General Subjects, 1999
Many advances in our understanding of fungal sphingolipids have been made in recent years. This review focuses on the types of sphingolipids that have been found in fungi and upon the genes in Saccharomyces cerevisiae, the common baker's yeast, that are necessary for sphingolipid metabolism.
R C, Dickson, R L, Lester
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Many advances in our understanding of fungal sphingolipids have been made in recent years. This review focuses on the types of sphingolipids that have been found in fungi and upon the genes in Saccharomyces cerevisiae, the common baker's yeast, that are necessary for sphingolipid metabolism.
R C, Dickson, R L, Lester
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Dermatologic Clinics, 1996
Yeasts are unicellular fungi that reproduce by the process of budding in which daughter cells are produced from parents by outpouching of the cell membrane and wall, migration of cytoplasm into the new structure thus formed, and then separation from the parent cell.
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Yeasts are unicellular fungi that reproduce by the process of budding in which daughter cells are produced from parents by outpouching of the cell membrane and wall, migration of cytoplasm into the new structure thus formed, and then separation from the parent cell.
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2001
(microorganism used as biocatalyst for the reduction of carbonyl groups and double bonds,1 either under fermenting conditions, immobilized, or ultrasonically stimulated) Solubility: insol cold and warm H2O; used as a slurry. Form Supplied in: yellowish pressed cakes, commercially available as cubes from bakeries or supermarkets, usually ...
E. Santaniello +2 more
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(microorganism used as biocatalyst for the reduction of carbonyl groups and double bonds,1 either under fermenting conditions, immobilized, or ultrasonically stimulated) Solubility: insol cold and warm H2O; used as a slurry. Form Supplied in: yellowish pressed cakes, commercially available as cubes from bakeries or supermarkets, usually ...
E. Santaniello +2 more
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Antonie van Leeuwenhoek, 1987
The purpose of this paper is to set the scene for the session by highlighting historical and recent developments in the physiology, biochemistry and genetics of the methylotrophic yeasts from both a basic scientific, as well as an applied point of view.
WEGNER, GH, HARDER, W
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The purpose of this paper is to set the scene for the session by highlighting historical and recent developments in the physiology, biochemistry and genetics of the methylotrophic yeasts from both a basic scientific, as well as an applied point of view.
WEGNER, GH, HARDER, W
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Yeast, 1987
Significant progress has been made toward understanding the roles played by conserved centromere DNA sequences in both mitotic and meiotic chromosome segregation. We are just beginning to formulate a picture of what a yeast kinetochore actually looks like and what components other than CEN DNA are necessary for function.
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Significant progress has been made toward understanding the roles played by conserved centromere DNA sequences in both mitotic and meiotic chromosome segregation. We are just beginning to formulate a picture of what a yeast kinetochore actually looks like and what components other than CEN DNA are necessary for function.
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2007
Osmoregulation is the active control of the cellular water balance and encompasses homeostatic mechanisms crucial for life. The osmoregulatory system in the yeast Saccharomyces cerevisiae is particularly well understood. Key to yeast osmoregulation is the production and accumulation of the compatible solute glycerol, which is partly controlled by the ...
Stefan, Hohmann +2 more
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Osmoregulation is the active control of the cellular water balance and encompasses homeostatic mechanisms crucial for life. The osmoregulatory system in the yeast Saccharomyces cerevisiae is particularly well understood. Key to yeast osmoregulation is the production and accumulation of the compatible solute glycerol, which is partly controlled by the ...
Stefan, Hohmann +2 more
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Hospital Practice, 1991
Yeast is an apparently strange "model" for the human genome, but it works because of the high degree of conservation in evolution between the primitive eukaryote and mammals. Moreover, the genic concentration in yeast--with almost no noncoding introns--packs the entire yeast genome into 16 chromosomes with only 10% of the DNA of one human chromosome.
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Yeast is an apparently strange "model" for the human genome, but it works because of the high degree of conservation in evolution between the primitive eukaryote and mammals. Moreover, the genic concentration in yeast--with almost no noncoding introns--packs the entire yeast genome into 16 chromosomes with only 10% of the DNA of one human chromosome.
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