Takashi Toda

The fission yeast dis2+ gene required for chromosome disjoining encodes one of two putative type 1 protein phosphatases

S. pombe dis mutants block mitotic chromosome disjunction in a manner reminiscent of aneuploidy formation, and belong to three distinct genes, dis1-dis3. We cloned two independent genomic DNAs that complemented both the cold-sensitive and caffeine-hypersensitive phenotype of dis2-11. These genes, dis2+ and a suppressor sds21+, encode proteins (calculated MW 37,000) with similar predicted amino acid sequences. dis2+ and sds21+ have overlapping functions, and disruptants are lethal only when both genes are disrupted. The gene products identified by anti-dis2 serum are enriched in nuclei. By hybridization, we obtained two cDNA clones from mouse and one genomic clone from S. cerevisiae; the latter complements S. pombe dis2-11. These dis2+ and similar polypeptides of yeasts and mouse are found to be highly homologous (75%-90% identical) to rabbit protein phosphatase 1. The implications of these findings are discussed with regard to mitotic control.

The NDA3 gene of fission yeast encodes β-tubulin: A cold-sensitive nda3 mutation reversibly blocks spindle formation and chromosome movement in mitosis

The cells of a cold-sensitive mutant nda3-KM311 of the fission yeast Schizosaccharomyces pombe were arrested highly synchronously at a step similar to mitotic prophase when incubated at a restrictive temperature. DAPI staining and indirect immunofluorescence microscopy showed three condensed chromosomes but no spindle. Six minutes after the temperature shifted to a permissive one, the spindle appeared and elongated. The chromosomes were separated at a constant speed (relative velocity 1 micron/min), and the spindle disappeared after the chromosomes reached opposite ends of the cell. The NDA3 gene of S. pombe was cloned by transformation. The 2.6 kb Hind III genomic DNA that complemented the nda3 mutations had only one coding frame split with five short introns. The predicted amino acid sequence contained 448 residues, and was 75% homologous to that of chicken beta-tubulin.

Cold-sensitive and caffeine-supersensitive mutants of the Schizosaccharomyces pombe dis genes implicated in sister chromatid separation during mitosis.

We isolated novel classes of Schizosaccharomyces pombe cold‐sensitive dis mutants that block mitotic chromosome separation (nine mapped in the dis1 gene and one each in the dis2 and dis3 genes). Defective phenotype at restrictive temperature is similar among the mutants; the chromosomes condense and anomalously move to the cell ends in the absence of their disjoining so that they are unequally distributed at the two cell ends. Synchronous culture analyses indicate that the cells can enter into mitosis at normal timing but become lethal during mitosis. In comparison with the wild‐type mitosis, defects are found in the early spindle structure, the mitotic chromosome structure, the poleward chromosome movement by the spindle elongation and the telophase spindle degradation. The dis mutants lose at permissive temperature an artificial minichromosome at higher rates than occur in the wild type. We found that all the dis mutants isolated are supersensitive to caffeine at permissive temperature. Furthermore, the mutant cells in the presence of caffeine produce a phenotype similar to that obtained at restrictive temperature. We suggest that the dis genes are required for the sister chromatid separation at the time of mitosis and that caffeine might affect the dis gene expression. We cloned, in addition to the dis2+ and dis3+ genes, multicopy extragenic suppressor sequences which complement dis1 and dis2 mutations. A complex regulatory system may exist for the execution of the dis+ gene functions.

Identification of the pleiotropic cell division cycle gene NDA2 as one of two different α-tubulin genes in schizosaccharomyces pombe

Mutations in a cell-cycle gene NDA2 of Schizosaccharomyces pombe have pleiotropic effects on nuclear division, nuclear location, and thiabendazole sensitivity ( Toda et al., 1983). By transformation and nucleotide sequence determination, we identified NDA2 as one of two alpha-tubulin genes present in the genome of S. pombe. Two cloned sequences complemented cold-sensitive and thiabendazole-supersensitive nda2 mutations; one was derived from NDA2 that encodes alpha 1-tubulin, the other from an unidentified locus encoding alpha 2-tubulin. The predicted amino acid sequences showed that the alpha 1- and alpha 2-tubulins had respective residues of 455 and 449 (molecular weights 51,200 and 50,600). The homology to porcine alpha-tubulin was 76% in both cases. Frequent alterations took place in the two restricted regions. The alpha 1-tubulin (NDA2) clone had a 90 bp intervening sequence, the alpha 2-tubulin clone did not. RNA blot hybridization experiments indicated that both genes are transcribed. S. pombe tubulin was isolated by cycles of assembly and disassembly. Presumed alpha- and beta-tubulin polypeptide bands reacted with monoclonal antibodies specific for chicken alpha- and beta-tubulins.

Two cell division cycle genes NDA2 and NDA3 of the fission yeast Schizosaccharomyces pombe control microtubular organization and sensitivity to anti-mitotic benzimidazole compounds

Two genes, nda2 and nda3, previously defined by cold sensitive nuclear division arrest (nda) mutations in the fission yeast Schizosaccharomyces pombe were studied. A mutant nda2-KM52 was found to be supersensitive (at the permissive temperature) to the tubulin-binding drugs such as thiabendazole, methylbenzimidazol-2yl carbamate and nocodazole. A single mutation in nda2 appears to cause both drug supersensitivity and cold sensitivity. The defective phenotypes of nda2-KM52 with a low concentration of the drugs were characterized by nuclear displacement and anomalously situated spindle pole bodies. The allele of the other mutant, nda3-KM311, was sh216 to be linked closely to the ben1 locus, which determines resistance to the drug. The identity of ben1 and nda3 genes was proved by a newly isolated mutant ben1-TB1005; it manifests ben1 resistance and the cold sensitive nda3 phenotype. At 22 degrees C, ben1-TB1005 showed cell branching and deformation characteristic of nda3-KM311. Eleven mutants supersensitive to thiabendazole were newly isolated by replica plating. Four strains were mapped in nda2, while the other four were in nda3. Most of the isolated mutants were blocked at nuclear division in the presence of a low concentration of the drug. Thus, the products of genes nda2 and nda3 (ben1) interact directly or indirectly with the drugs and control, in different ways, microtubular organization in the cells of S. pombe.

Two novel protein kinase C-related genes of fission yeast are essential for cell viability and implicated in cell shape control.

Two novel protein kinase C (PKC)‐like genes, pck1+ and pck2+ were isolated from fission yeast by PCR. Both contain common domains of PKC‐related molecules, but lack a putative Ca(2+)‐binding domain so that they may belong to the nPKC group. Gene disruption of pck1+ and pck2+ establishes that they share an overlapping essential function for cell viability. Cells of a single pck2 deletion display severe defects in cell shape; they are irregular and sometimes pear‐like instead of cylindrical. In contrast, the induced overexpression of pck2+ is lethal, producing multiseptated and branched cells. These results suggest that fission yeast PKC‐like genes are involved in the polarity of cell growth control. We show that pck2 is allelic to sts6, a locus we have previously identified by its supersensitivity to staurosporine, a potent protein kinase inhibitor [Toda et al. (1991) Genes Dev., 5, 60–73]. In addition, the lethal overexpression of pck2+ can be suppressed by staurosporine, indicating that fission yeast pck1 and pck2 are molecular targets of this inhibitor.

Requirement for PP1 phosphatase and 20S cyclosome/APC for the onset of anaphase is lessened by the dosage increase of a novel gene sds23+.

Ubiquitin‐dependent proteolysis is required for the onset of anaphase. We show that protein dephosphorylation by protein phosphatase 1 (PP1) is also essential for initiating anaphase in fission yeast. PP1 may directly or indirectly regulate the 20S cyclosome/APC (anaphase‐promoting complex) required for anaphase‐promoting proteolysis. Using anti‐phosphopeptide antibodies, PP1 is shown to be dephosphorylated at the C‐terminus, upon the onset of anaphase, for reactivation. sds23+, a novel gene, is a multicopy suppressor for mutations in PP1 and the 20S cyclosome/APC, implying that the gene dosage increase can relieve the requirement for PP1 and the cyclosome/APC for the onset of anaphase. The sds23+ gene is not essential for cell viability, but a mutant with the gene deleted cannot form colonies at 22 and 36 degrees C. In the sds23 deletion mutant, the progression of anaphase and cytokinesis is retarded and cell shape is aberrant. These defects are overcome by plasmids carrying the genes encoding subunits of the 20S cyclosome/APC or PP1. These results demonstrate functions other than promoting anaphase for the components of the 20S cyclosome/APC and also a close functional relationship of Sds23 with PP1 and 20S cyclosome/APC.

Differential expressions of essential and nonessential alpha-tubulin genes in Schizosaccharomyces pombe.

The fission yeast Schizosaccharomyces pombe has two alpha-tubulin genes and one beta-tubulin gene. Gene disruption experiments showed that the alpha 1-tubulin gene (NDA2) is essential whereas the alpha 2 gene is dispensable. The alpha 2-disrupted cells missing alpha 2 transcript and alpha 2 polypeptide could grow and sporulate normally. The alpha 2 gene, however, was expressed in the wild type and the alpha 1 mutant. Alpha 2-Tubulin was distinguished as an electrophoretic band and was assembled into microtubules. The alpha 2-disrupted cells had an increased sensitivity to an antimicrotubule drug thiabendazole, and the alpha 1(cold-sensitive [cs]) alpha 2 (disrupted) cells became not only cs but also temperature sensitive. Northern blot experiments indicated that alpha 2 transcription was minor and constitutive whereas alpha 1 transcription was major and modulated, depending on the gene copy number of the alpha 2 gene. The amounts of alpha 1 and alpha 2 polypeptides estimated by beta-galactosidase activities of the lacZ-fused genes integrated on the chromosome and by intensities of the electrophoretic bands in crude tubulin fractions, however, were comparable, indicating that alpha 2 tubulin is not a minor subtype. We assume that the cells of Schizosaccharomyces pombe have no excess tubulin pool. alpha 1 mutants would then be blocked in the cell cycle because only half the amount of functional alpha-tubulin required for growth can be produced by the alpha 2 gene. On the other hand, the alpha 2-disrupted cells became viable because the synthesis of alpha 1 tubulin was increased by transcriptional or translational modulation or both. The real cause for essential alpha 1 and dispensable alpha 2 genes seems to be in their regulatory sequences instead of the coding sequences.

Visualization of chromosomes in mitotically arrested cells of the fission yeast Schizosaccharomyces pombe.

SummaryThree sets of mitotic chromosomes were observed in wild type or cdc mutants (nda3-KM311 and nda2-KM52) of the fission yeast S. pombe by the DAPI staining method. The block of microtubular functions by thiabendazole or by the mutations caused their individual appearance in mitotically arrested cells. The chromosomes have a characteristic size; the length ratio of short, medium and long ones was roughly 1:2:3, consistent with the previous genetical data (Kohli et al. 1977). Double staining with ethidium bromide and DAPI showed that the nucleolus was always associated with the shortest chromosome. Pair-like structures resembling sister chromatids were also seen.

Mapping of rRNA genes by integration of hybrid plasmids in Schizosaccharomyces pombe.

SummaryThe major rRNA genes of the fission yeast Schizosaccharomyces pombe were mapped on chromosome III by plasmid integration. The integration vector YIp33 containing S. cerevisiae LEU2 gene was combined with the S. pombe rDNA. Since LEU2 complements S. pombe leu1 deficiency, it could be used as the genetic marker for integration. The 10.4 kb rDNA repeat contained ARS sequence, and therefore 2.4 kb and 0.7 kb subfragments not containing ARS were subcloned into YIp33 and transformed leu1 S. pombe cells to Leu+. Genetic analyses of the transformants indicated that the integrated rDNA resides in the long arm of the shortest chromosome III, tightly linked to ade5 (1.4 cM). This result is consistent with our previous finding that the DAPI-stained smallest chromosomes were associated with the nucleolus (Umesono et al. 1983).