Cornelia Rumpf scite author profile

SummaryBackgroundAccurate chromosome segregation depends on the establishment of correct—amphitelic—kinetochore orientation. Merotelic kinetochore orientation is an error that occurs when a single kinetochore attaches to microtubules emanating from opposite spindle poles, a condition that hinders segregation of the kinetochore to a spindle pole in anaphase. To avoid chromosome missegregation resulting from merotelic kinetochore orientation, cells have developed mechanisms to prevent or correct merotelic attachment. A protein called Pcs1 has been implicated in preventing merotelic attachment in mitosis and meiosis II in the fission yeast S. pombe.ResultsWe report that Pcs1 forms a complex with a protein called Mde4. Both Pcs1 and Mde4 localize to the central core of centromeres. Deletion of mde4+, like that of pcs1+, causes the appearance of lagging chromosomes during the anaphases of mitotic and meiosis II cells. We provide evidence that the kinetochores of lagging chromosomes in both pcs1 and mde4 mutant cells are merotelically attached. In addition, we find that lagging chromosomes in cells with defective centromeric heterochromatin also display features consistent with merotelic attachment.ConclusionsWe suggest that the Pcs1/Mde4 complex is the fission yeast counterpart of the budding yeast monopolin subcomplex Csm1/Lrs4, which promotes the segregation of sister kinetochores to the same pole during meiosis I. We propose that the Pcs1/Mde4 complex acts in the central kinetochore domain to clamp microtubule binding sites together, the centromeric heterochromatin coating the flanking domains provides rigidity, and both systems contribute to the prevention of merotelic attachment.

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High-throughput knockout screen in fission yeast

Gregáň

Rabitsch

Rumpf

et al. 2006

Nat Protoc

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We have designed the most efficient strategy to knock out genes in fission yeast Schizosaccharomyces pombe on a large scale. Our technique is based on knockout constructs that contain regions homologous to the target gene cloned into vectors carrying dominant drug-resistance markers. Most of the steps are carried out in a 96-well format, allowing simultaneous deletion of 96 genes in one batch. Based on our knockout technique, we designed a strategy for cloning knockout constructs for all predicted fission yeast genes, which is available in a form of a searchable database http://mendel.imp.ac.at/Pombe_deletion/. We validated this technique in a screen where we identified novel genes required for chromosome segregation during meiosis. Here, we present our protocol with detailed instructions. Using this protocol, one person can knock out 96 S. pombe genes in 8 days.

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Casein kinase 1 is required for efficient removal of Rec8 during meiosis I

et al. 2010

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Segregation of chromosomes during meiosis depends on separase cleavage of Rec8, the meiosis-specific alpha-kleisin subunit of cohesin. We mapped Rec8 phosphorylation sites by mass spectrometry and show that, in fission yeast, Rec8 phosphorylation is required for proper chromosome disjunction during meiosis. We further show that the fission yeast casein kinase 1 (CK1) delta/epsilon isoforms Hhp1 and Hhp2 are required for full levels of Rec8 phosphorylation and for efficient removal of Rec8 at the onset of anaphase I. Our data are consistent with the model that Hhp1/Hhp2-dependent phosphorylation of Rec8 is required for separase-mediated cleavage of Rec8 during meiosis I.

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Generation of a set of conditional analog-sensitive alleles of essential protein kinases in the fission yeastSchizosaccharomyces pombe

et al. 2011

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Construction of conditional analog-sensitive kinase alleles in the fission yeast Schizosaccharomyces pombe

et al. 2007

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Reversible protein phosphorylation is a major regulatory mechanism in a cell. A chemical-genetic strategy to conditionally inactivate protein kinases has been developed recently. Mutating a single residue in the ATP-binding pocket confers sensitivity to small-molecule inhibitors. The inhibitor can only bind to the mutant kinase and not to any other wild-type kinase, allowing specific inactivation of the modified kinase. Here, we describe a protocol to construct conditional analogsensitive kinase alleles in the fission yeast Schizosaccharomyces pombe. This protocol can be completed in about 3 weeks and should be applicable to other organisms as well.

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Tandem affinity purification of functional TAP-tagged proteins from human cells

et al. 2007

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Tandem affinity purification (TAP) is a generic two-step affinity purification protocol for isolation of TAP-tagged proteins together with associated proteins. We used bacterial artificial chromosome to heterologously express TAP-tagged murine Sgo1 protein in human HeLa cells. This allowed us to test the functionality of the Sgo1-TAP protein by RNA interference-mediated depletion of the endogenous human Sgo1. Here, we present an optimized protocol for purification of TAP-tagged Sgo1 protein as well as KIAA1387 from HeLa cells with detailed instructions. The purification protocol can be completed in 1 day and it should be applicable to other proteins.

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S. pombegenome deletion project: An update

Špı́rek¹,

Benkő²,

Čarnecká³

et al. 2010

Cell Cycle

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IntroductionAlthough forward genetic screens have provided many important insights into various aspects of cell biology, they are limited by the large numbers of mutants that must be analyzed and inherent biases in mutagenesis techniques. Systematic reverse genetic screens using genome-wide gene deletion collections or RNAi libraries provide a powerful alternative to forward genetic screens (reviewed in refs. 1-5). Studies with the budding yeast Saccharomyces cerevisiae have shown the usefulness of such gene deletion collection for numerous studies including drug discovery (reviewed in refs. 6-9). The fission yeast S. pombe is an important model organism sharing many features with cells of higher eukaryotes. The availability of the S. pombe genome sequence 10 and PCR-based gene deletion technology 11 allowed researchers involved in the S. pombe genome deletion project (KRIBB-Bioneer-CRUK consortium) to generate a set of 4.836 heterozygous diploid deletion mutants covering 98.4% of the fission yeast open reading frames (Kim et al., in press). However, for some genes a deletion could either not be constructed or the analysis of mutant phenotypes gave ambiguous results. Here we use an efficient knock-out strategy to delete 29 of these genes. ResultsWe speculated that some of the genes which could not be deleted by the KRIBB-Bioneer-CRUK consortium may require longer regions of homology for efficient gene targeting 12,13 and may be the fission yeast Schizosaccharomyces pombe is a model organism used widely to study various aspects of eukaryotic biology. A collection of heterozygous diploid strains containing individual deletions in nearly all S. pombe genes has been created using a pCr based strategy. However, deletion of some genes has not been possible using this methodology.Here we use an efficient knockout strategy based on plasmids that contain large regions homologous to the target gene to delete an additional 29 genes. the collection of deletion mutants now covers 99% of the fission yeast open reading frames.

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Pichia pastoris ‘just in time’ alternative respiration

Kern

Hartner

Freigaßner

et al. 2007

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Alternative oxidases (Aox or Aod) are present in the mitochondria of plants, fungi and many types of yeast. These enzymes transfer electrons from the ubiquinol pool directly to oxygen without contributing to the proton transfer across the mitochondrial membrane. Alternative oxidases are involved in stress responses, programmed cell death and maintenance of the cellular redox balance. The alternative oxidase gene of the methylotrophic yeast Pichia pastoris was isolated and cloned to study its regulation and the effects of deregulation of the alternative respiration by overexpression or disruption of the gene. Both disruption and overexpression had negative effects on the biomass yield; however, the growth rate and substrate uptake rate of the strain overexpressing the alternative oxidase were slightly increased. These effects were even more pronounced when higher glucose concentrations were used. The occurrence of free intracellular radicals and cell death phenomena was investigated using dihydrorhodamine 123 and the TUNEL test. The results suggest a major contribution of the alternative oxidase to P. pastoris cell viability. The negative effects of deregulated alternative respiration clearly indicated the importance of precise regulation of the alternative oxidase in this yeast.

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Cornelia Rumpf

The Kinetochore Proteins Pcs1 and Mde4 and Heterochromatin Are Required to Prevent Merotelic Orientation

High-throughput knockout screen in fission yeast

Casein kinase 1 is required for efficient removal of Rec8 during meiosis I

Generation of a set of conditional analog-sensitive alleles of essential protein kinases in the fission yeastSchizosaccharomyces pombe

Construction of conditional analog-sensitive kinase alleles in the fission yeast Schizosaccharomyces pombe

Tandem affinity purification of functional TAP-tagged proteins from human cells

S. pombegenome deletion project: An update

Pichia pastoris ‘just in time’ alternative respiration

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