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The 5S RNA genes of Schizosaccharomyces pombe.   总被引:10,自引:8,他引:2       下载免费PDF全文
The genomic arrangement and sequences of S. pombe 5S RNA genes are reported here. The 5S gene sequences appear to be dispersed within the genome, and are found independently of other rRNA genes. The sequences of two 5S genes examined show identical coding regions of 119 base pairs but have widely varying flanking sequences. A tRNAAsp gene is found in the 3' flanking region of one of the 5S genes. The tRNAAsp gene is faithfully transcribed in an X. laevis in vitro system, while the 5S genes are not transcribed in this system. The phylogenetic position of S. pombe is examined through comparison of 5S RNA sequences.  相似文献   

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Novel YPT1-related genes from Schizosaccharomyces pombe.   总被引:5,自引:1,他引:4       下载免费PDF全文
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《Gene》1997,187(2):259-266
In the course of the Schizosaccharomyces pombe cDNA project, we succeeded in cloning all the genes encoding translation elongation factors EF-1α, EF-1β, EF-1γ, EF-2 and EF-3. With the exception of the EF-1γ gene, the nucleotide (nt) sequence of S. pombe elongation factors has not been previously reported. For EF-1α, we found three genes whose amino acid (aa) sequences are quite homologous each other (99.5%), but whose 3′ untranslated regions (UTRs) are completely different. Southern blot indicated that those three EF-1α genes are located at different loci. Northern analysis indicated that one of three EF-1α genes was inducible with UV-irradiation, while the level of expression for another of three EF-1α genes was repressed by UV and heat-shock (HS) treatments. The aa sequence predicted from the nt sequence of the S. pombe EF-1β cDNA clone covered almost all the coding sequence (CDS) of EF-1β except the first methionine which has 55.4% identity with that of S. cerevisiae. We also identified two copies of S. pombe EF-2 genes. Their aa sequences deduced from nt sequences are identical (100%), but they have different 3′ UTRs. The location of these two EF-2 genes in different loci was proved by Southern analysis. The S. pombe EF-3 cDNA clone encoded only a third of the CDS from the C-terminal and its deduced aa sequence has a 76% identity with those of other yeasts and fungi.  相似文献   

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The wall structure of Schizosaccharomyces pombe   总被引:6,自引:0,他引:6  
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Yeasts have proven to be invaluable, genetically tractable systems to study various fundamental biological processes including programmed cell death. Recent advances in the elucidation of the molecular pathways underlying apoptotic cell death in yeasts have revealed remarkable similarities to mammalian apoptosis at cellular, organelle and macromolecular levels, thus making a strong case for the relevance of yeast models of regulated cell death. Programmed cell death has been reported in fission yeast Schizosaccharomyces pombe, primarily in the contexts of perturbed intracellular lipid metabolism, defective DNA replication, improper mitotic entry, chronological and replicative aging. Here we review the current understanding of the programmed cell death in fission yeast, paying particular attention to lipid-induced cell death. We discuss our recent findings that fission yeast exhibits plasticity of apoptotic and non-apoptotic modes of cell death in response to different lipid stimuli and growth conditions, and that mitochondria, reactive oxygen species and novel cell death mediators including metacaspase Pca1, SpRad9 and Pck1 are involved in the lipotoxic cell death. We also present perspectives on how various aspects of the cell and molecular biology of this organism can be explored to shed light on the governing principles underlying lipid-mediated signaling and cell demise.  相似文献   

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Screening for genes homologous to ras in Schizosaccharomyces pombe resulted in the isolation of a homolog of Saccharomyces cerevisiae YPT1. This S. pombe gene, named ypt3, has a coding capacity of 214 amino acids interrupted by two introns, and is essential for cell growth. Two more YPT1 homologs were isolated from S. pombe using a part of the ypt3 gene as the probe. One of them, named ypt1, is highly homologous to S. cerevisiae YPT1 and mouse ypt1 and is essential for cell growth. This gene has four introns and encodes 203 amino acids. Its cDNA placed downstream of the S. cerevisiae GAL7 promoter could complement S. cerevisiae ypt1-, indicating that Sp ypt1 and Sc YPT1 are functionally homologous. The other isolate, named ryh1, and a fourth homolog, ypt2, have been characterized by Gallwitz and co-workers. The ypt1, ypt2 and ypt3 genes, but not ryh1, constitute a family, their products having double cysteine as their C terminus and serine in place of a glycine residue highly conserved in ras proteins (mammalian Gly-12 or S. pombe Gly-17). The physiological roles of these genes appear to be distinct because each of them is indispensable for cell growth.  相似文献   

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Summary Schizosaccharomyces pombe has been grown in parasynchronous culture to study the synthesis of cell wall material. After a lag period of 2.5h following inoculation the cells began to grow, as measured by optical density, dry weight and cell size. The cell number remained constant until 4.5h after inoculation when approximately 70% of the population divided synchronously. Immunofluorescence studies of the growing cells have shown that new wall material is inserted at the cell apices from 2.5 h after inoculation; this result is supported by radio-isotope labelling data which indicated that synthesis of new cell wall material also commenced 2.5 h after inoculation. The incorporation experiments also demonstrated an interruption in cell wall synthesis during the cell separation stage. The composition of the cell wall material varied during the growth cycle, with maximum nitrogen levels at inoculation and following cell division. No serological differences could be detected in the cell walls during the growth cycle.  相似文献   

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Recent studies of the LTR-retrotransposons of Schizosaccharomyces pombe have shed considerable light on their evolution and function. The sequencing of the S. pombe genome allowed analysis of its transposon content. This analysis provides information about the maintenance and loss of transposons in the genome. The results of transposition assays and biochemical analyses demonstrate that the N-terminal protein of Tf1 is functionally equivalent to the Gag proteins of retroviruses and retrotransposons. Despite this conservation of function, the N-terminal protein of Tf1 lacks any sequence similarity to other known Gag proteins. Sequence analysis and experimental data also indicate that the Tf1 transposons of S. pombe target their integration into specific sites in the host genome. Transposition events resulting from the expression of Tf1 reveal a strong preference for intergenic regions, specifically at pol II promoters in a window 100-400 bp upstream of open reading frames. The complete and partial copies of Tf transposons in the sequenced genome of S. pombe show the same association of integration with promoter regions. This body of work explores how the transposon interacts with the host, the balance between the transposons propagation and loss, and how different families of transposons evolve.  相似文献   

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Dikaryons, cells with two haploid nuclei contributed by the members of a mating pair, are part of the life cycle of many filamentous fungi, but the molecular mechanisms underlying the division of dikaryons are largely unknown. We found that the fission yeast Schizosaccharomyces pombe has a latent ability to divide as a dikaryon. Cells capable of restarting the mitotic cycle with two nuclei were prepared by transient inactivation of the septation initiation network. Close pairing of the two nuclei before mitosis was dependent on minus-end-directed kinesin Klp2p and was essential for propagation as a dikaryon. The two spindles extended in opposite directions, keeping their old spindle pole bodies at the prospective site of cell division until the mid-anaphase. The spindles then overlapped, exchanging the inner nuclei. Finally, twin mitosis was followed by a single cytokinesis, producing two daughter dikaryons carrying copies of the original pair of nuclei.  相似文献   

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The single mitochondrial type I [2Fe-2S] ferredoxin of the fission yeast Schizosaccharomyces pombe is produced as the carboxy terminal part of the electron-transfer-protein 1 (etp1) and cleaved off during mitochondrial import [Biochemistry 41 (2002) 2311-2321]. The UV/Vis (UV-visible) spectrum of the purified recombinant ferredoxin domain (etp1(fd)) expressed in Escherichia coli is similar to those of bovine Adx in the oxidized as well as in the reduced state. EPR (electronic paramagnetic resonance) studies revealed a correctly incorporated iron-sulfur cluster of the axial type. The redox potential of this protein was determined to be -353 mV, which is considerably lower than that of adrenodoxin (Adx, -273 mV). Several lines of evidence indicate that the protein forms dimers under physiological and denaturating conditions. Interestingly, the fission yeast ferredoxin could be shown to be active as an electron carrier in heterologous redox systems. It is able to transfer electrons to horse heart cytochrome c and to bovine cytochromes P450(scc) (CYP11A1) and P450(11 beta) (CYP11B1), thereby receiving electrons from bovine NADPH-dependent Adx reductase. The kinetics of substrate conversion in the etp1(fd)-supported CYP11A1 and CYP11B1-dependent systems mediated was studied.  相似文献   

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H Yamano  J Gannon    T Hunt 《The EMBO journal》1996,15(19):5268-5279
A cell-free system derived from Xenopus eggs was used to identify the 'destruction box' of the Schizosaccharomyces pombe B-type cyclin, Cdc13, as residues 59-67: RHALDDVSN. Expression of indestructible Cdc13 from a regulated promoter in S.pombe blocked cells in anaphase and inhibited septation, showing that destruction of Cdc13 is necessary for exit from mitosis, but not for sister chromatid separation. In contrast, strong expression of a polypeptide comprising the N-terminal 70 residues of Cdc13, which acts as a competitive inhibitor of destruction box-mediated proteolysis, inhibited both sister chromatid separation and the destruction of Cdc13, whereas an equivalent construct with a mutated destruction box did not. Appropriately timed expression of this N-terminal fragment of Cdc13 overcame the G1 arrest seen in cdc10 mutant strains, suggesting that proteins required for the initiation of S phase are subject to destruction by the same proteolytic machinery as cyclin.  相似文献   

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