• 제목/요약/키워드: Budding Yeast

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Growth of Budding Yeasts under Optical Trap

  • Im, Kang-Bin;Kim, Hyun-Ik;Kim, Soo-Ki;Kim, Chul-Geun;Oh, Cha-Hwan;Song, Seok-Ho;Kim, Pill-Soo
    • Molecular & Cellular Toxicology
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    • 제3권1호
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    • pp.19-22
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    • 2007
  • Optic tweezer is powerful tool to investigate biologic cells. Of eukaryotic cells, it was poorly documented regarding to optic trapping to manipulate yeasts. In preliminary experiment to explore yeast biology, interferometric optical tweezers was exploited to trap and manipulate budding yeasts. Successfully, several budding yeasts are trapped simultaneously. We found that the budding direction of the daughter cell was almost outward and the daughter cell surrounded by other yeasts grows slowly or fail to grow. Thus it was assumed that neighboring cells around budding yeast may be critical in budding and the growth of daughter cells. This is first report pertaining to the pattern of yeast budding under the optical trap when multiple yeasts were trapped.

Isolation and Characterization of Salt Tolerant Mutations in Budding Yeast Saccharomyces cerevisiae

  • Kim, Yung-Jin;Seo, Soo-Boon;Park, Shi-Young
    • Journal of Life Science
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    • 제9권1호
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    • pp.22-25
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    • 1999
  • In order to study the mechanism for the adaptation to salt stress, we mutagenized budding yeast Saccharomyces cerevisiae with Ethylmethane sulfonate, and isolated salt-tolerant mutants. Among the salt-tolerant mutants, two strains exhibit additional temperature sensitive phenotype. Here, we report that these two salt-tolerant mutants are specific to {TEX}$Na^{+}${/TEX} rather than general osmotic stress. These mutant strains may contain mutations in the genes involved in {TEX}$Na^{+}${/TEX} home-ostasis.

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Cloning of Genomic DNAs of Trametes versicolor Acting as Autonomously Replicating Sequences in Saccharomyces cerevisiae

  • Sora An;Park, Kyoung-Phil;Park, Hyoung-Tae;Kim, Kyu-Joong;Kim, Kyunghoon
    • Journal of Microbiology
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    • 제40권3호
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    • pp.245-247
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    • 2002
  • A genomic DNA library of the fungus Trametes versicolor was constructed in a yeast integration vector which contains the URA3 gene of the budding yeast Saccharomyces cerevisiae and the gene responsible for hygromycin B resistance, and fragments acting as autonomously replicating sequences (ARSes) in the budding yeast were identified from the genomic DNA library. Sixteen recombinant plasmids from the library transformed the budding yeast Saccharomyces cerevisiae to Ura+ at high frequencies. They were maintained stably under selective conditions, but were gradually lost from yeast cells at different rates under nonselective conditions, indicating that they contain eukaryotic origins of DNA replication and exist as extrachromosomal plasmids. Base sequences of four ARS DNAs among the 16 cloned fragments revealed that all or the four contain at least one 11 bp [(A/T)TTTA(T/C)(A/G)TTT(A/T)]consensus sequence of the budding yeast ARS.

Genome-Wide Identification of Haploinsufficiency in Fission Yeast

  • Baek, Seung-Tae;Han, Sang-Jo;Nam, Mi-Young;Kim, Young-Dae;Kim, Li-La;Lee, Hyun-Jee;Heo, Kyung-Sun;Lee, Hye-Mi;Lee, Min-Ho;Park, Song-Kyu;Maeng, Pil-Jae;Park, Young-Woo;Lee, Sung-Hou
    • Journal of Microbiology and Biotechnology
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    • 제18권6호
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    • pp.1059-1063
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    • 2008
  • Abnormal phenotypes resulting from haploinsufficiency (HI) are due to the loss of one allele. Recent studies in budding yeast have shown that HI originates from insufficient protein levels or from a stoichiometric imbalance between subunits of protein complexes. In humans, however, HI often involves transcription factors. Therefore, the species differences in HI and the molecular mechanisms of species-specific HI remain under investigation. In this study, HI in fission yeast was systematically surveyed. HI in fission yeast affected genes related to signaling and to basic cellular processes, as observed in budding yeast. These results suggest that there are species differences in HI and that the HI that occurs in fission yeast is intermediate to HI in budding yeast and humans.

Characterization of a Cadmium-resistant Yeast Strain in Response to Cadmium or Heat Shock Stress

  • Huh, Nam-Eung;Choi, Nack-Shick;Seo, Young-Kyo;Yu, Tae-Shick
    • Journal of Microbiology and Biotechnology
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    • 제4권1호
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    • pp.30-35
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    • 1994
  • A varient strain of budding yeast, Hansenula anomala B-7 which had been identified to be highly resistant to cadmium ions, were observed by transmission electron microscopy. It was shown that the cells accumulated excess amounts of cadmium ions throughout inside the cell rather than on the cell surface. The cell growth in response to cadmium or heat shock stress has also been investigated. It was observed that the cells precultured in the presence of 500 $\mu$ g/ml of Cd ions grew slower than those precultured at 1, 000 $\mu$ g/ml of the metal ions, when they were cultivated in the media containing 1, 000 $\mu$g/ml of the metal ions. Heat shock, however, stimulated the cell growth transiently, when the cells were allowed to grow in the presence of 1, 000 $\mu$g/ml of the metal ions. But the cells given heat shock for more than 100 min received permanent damage to growth. Effects of both stresses on budding rate was also examined. It revealed that the stresses did not change the budding ratio much, which was contradictory to that observed from the same budding yeast, Saccharomyces cerevisiae. Furthermore, the cells treated with 1, 000 $\mu$g/ml of the metal ions not only induced, but also switched off the expression of several new proteins. Some of the cadmium stress-inducible proteins were estimated to be also induced by heat shock stress.

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The Role of Abp140p in Actin Dynamics of Budding Yeast

  • Lim, Bum-Soon;Lee, Yong-Keun;Pon, Liza A.;Yang, Hyeong-Cheol
    • International Journal of Oral Biology
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    • 제30권1호
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    • pp.17-22
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    • 2005
  • In the previous studies of Saccharomyces cerevisiae, Abp140p (actin binding protein 140) fused to GFP has been only a protein that can label actin cables of yeast cells so far. However, the role of Abp140p in actin dynamics was remained elusive. In this study, the function of Abp140p was investigated with a deletion mutant and overexpression of GFP fused Abp140p. The deletion mutant was slightly more susceptible to Latrunculin-A (Lat-A), an actin-monomer sequestering agent, than wild type, although no significant deformation of actin structures was caused by ABP 140 deletion. Overexpression of Abp140p-GFP retarded cell growth, and produced thick and robust actin cables. Lat-A was not able to destabilize the thick actin cables, which suggests that actin dynamics was compromised in the cells with surplus of Abp140p. Therefore, Abp140p seems to stabilize actin cables together with other bundling proteins. Recently, actin cable dynamics of budding yeast was found to have a resemblance to that of filopodial tip of cultured mammalian cells. Retrograde movement of actin cables from buds to mother cells indicated local generation of the cable at bud sites. By using Abp140p-GFP, we traced the steps in the generation of a new actin cable after elimination of old cables by sodium azide. Before the appearance of a new actin cable, Abp140p-GFP concentrated in buds and disappeared, as mother cells became abundant in actin cables. Our observations provide a direct evidence of actin cable formation at buds of budding cells.

Effects of the Myosin ATPase Inhibitor, 2,3-Butanedione-2-Monoxime, on Growth and Dimorphic Switches of Candida albicans

  • Woo, Mi-Young;Jwa, Mi-Ri;Kim, Jin-Mi;Song, Ki-Won
    • Journal of Microbiology and Biotechnology
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    • 제10권5호
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    • pp.606-611
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    • 2000
  • Dimorphic yeast Candida albicans reversibly switches between the form of yeast and hyphae depending on external conditions. We investigated possible roles of the myosin family in the growth and dimorphic switches of C. albicans with a general myosin ATPase inhibitor, 2,3-butanedione-2-monoxime (BDM). Transition to hyphae as well as proliferation by budding was completely inhibited by BDM at 16 mM. Presence of 16 mM BDM did not affect hyphae-to-bud transition but it blocked budding. The effects of BDM on yeast growth and dimorphic switches were reversible. More than 70% of the BDM-treated cells demonstrated defects in the amount and the polarized localization of F-actin as well as in the shape and migration of the nucleus, suggesting that myosin activities are needed in these cellular processes of C. albicans.

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Roles of Budding Yeast Hrr25 in Recombination and Sporulation

  • Lee, Min-Su;Joo, Jeong Hwan;Kim, Keunpil
    • Journal of Microbiology and Biotechnology
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    • 제27권6호
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    • pp.1198-1203
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    • 2017
  • Hrr25, a casein kinase $1{\delta}/{\varepsilon}$ homolog in budding yeast, is essential to set up mono-orientation of sister kinetochores during meiosis. Hrr25 kinase activity coordinates sister chromatid cohesion via cohesin phosphorylation. Here, we investigated the prophase role of Hrr25 using the auxin-inducible degron system and by ectopic expression of Hrr25 during yeast meiosis. Hrr25 mediates nuclear division in meiosis I but does not affect DNA replication. We also found that initiation of meiotic double-strand breaks as well as joint molecule formation were normal in HRR25-deficient cells. Thus, Hrr25 is essential for termination of meiotic division but not homologous recombination.