Results 171 to 180 of about 76,221 (224)

Dissecting the cell cycle regulation, DNA damage sensitivity and lifespan effects of caffeine in fission yeast. [PDF]

Microb Cell
Alao JP, Kumar J, Stamataki D, Rallis C.
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Mitochondrial Translation Inhibition Triggers an Rst2-Controlled Transcriptional Reprogramming of Carbon Metabolism in Stationary-Phase Cells of Fission Yeast. [PDF]

Biomolecules
Luo Y, Hassan S, Raut S, Bähler J.
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Genome-Wide Profiling of Histone Modifications in Fission Yeast Using CUT&Tag. [PDF]

Methods Mol Biol
Torres-Garcia S, Huang Y, Dewornu FS, Tong P, Yeboah R, Allshire R, Shukla M.   +6 more
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Single-molecule sequencing maps replication dynamics across the fission yeast genome, including centromeres

Díez-Santos I, Thiyagarajan S, Rogers AM, Watson AT, Carr AM, Nieduszynski CA.   +5 more
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Correction for Hoshikawa et al., Formation of giant ER sheets by pentadecanoic acid causes lipotoxicity in fission yeast. [PDF]

Proc Natl Acad Sci U S A
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Fission yeast cell polarity

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Phosphoproteome Analysis of Fission Yeast

Journal of Proteome Research, 2008
Phosphorylation is a key regulator of many events in eukaryotic cells. The acquisition of large-scale phosphorylation data sets from model organisms can pinpoint conserved regulatory inputs and reveal kinase-substrate relationships. Here, we provide the first large-scale phosphorylation analysis of the fission yeast, Schizosaccharomyces pombe.
Joshua T, Wilson-Grady, Judit, Villén, Steven P, Gygi   +2 more
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Cryoelectron Microscopy of Fission Yeast

Cold Spring Harbor Protocols, 2017
Fission yeast cells can be prepared for electron microscopy (EM) in the frozen-hydrated state. This eliminates the requirement for dehydration and heavy metal staining when preparing samples for EM. As with room temperature imaging, however, the yeast must be sectioned to make them thin enough for transmission of the electron beam.
Mary K, Morphew, Thomas H, Giddings, J Richard, McIntosh   +2 more
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Sexual differentiation in fission yeast

Trends in Genetics, 1990
The regulation of sexual reproduction in yeast constitutes the highest level of differentiation observed in these unicellular organisms. The various ramifications of this system involve DNA rearrangement, transcriptional control, post-translational modification (such as protein phosphorylation) and receptor/signal processing.
R, Egel, O, Nielsen, D, Weilguny
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TOR Signaling in Fission Yeast

Critical Reviews in Biochemistry and Molecular Biology, 2008
Fission yeast has two TOR kinases, Tor1 and Tor2. Recent studies have indicated that this microbe has a TSC/Rheb/TOR pathway like higher eukaryotes. Two TOR complexes, namely TORC1 and TORC2, have been identified in this yeast, as in budding yeast and mammals.
Yoko, Otsubo, Masayuki, Yamamato
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