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1.
Summary Methyl methane sulphonate (MMS) was found to arrest mitotic cells at a specific stage in the cell cycle. Reciprocal double shift experiments involving MMS and temperature shifts in several temperature-sensitive cell-cycle (cdc) mutants have located the MMS-sensitive stage after the cdc7 and cdc8 temperature-sensitive stages and before the cdc13, cdc5 and cdc14 stages. An interdependent relationship was found between the arrests caused by MMS, cdc40 and hydroxyurea. Marked increases in mitotic recombination were induced by MMS, both in diploid and haploid strains. Meiosis is arrested by MMS at a very early stage, before DNA replication.  相似文献   

2.
Control of the initiation of meiosis in yeast was examined in diploids homozygous for one of four different temperature-sensitive mutations that affect “start” of the mitotic cell cycle. Two of the mutations, cdc28 and tra3, bring about deficiencies in the initiation of meiosis, while cdc25 and cdc35 do not prevent initiation of normal meiosis at both permissive and restrictive temperatures. Moreover, diploids homozygous for the latter two mutations are capable of initiating meiosis in rich growth media upon transfer to the high, non-permissive temperature. This unique feature contrasts with the behavior of other yeast strains which require a starvation sporulation medium for initiation of meiosis. It is suggested that the initiation of meiosis includes functions that are shared with “start” of the mitotic cell cycle, as well as functions related to the choice between the two processes. Meiosis in vegetative media at the restrictive temperature (in cdc25 or cdc35 homozygotes) may be important for the study of chemical and physiological phenomena resulting from the meiotic process and not from adaptation to the sporulation medium.  相似文献   

3.
Summary We have isolated new mutants of the yeast Saccharomyces cerevisiae that are defective in mitotic DNA synthesis. This was accomplished by directly screening 1100 newly isolated temperature-sensitive yeast clones for DNA synthesis defects. Ninety-seven different mutant strains were identified. Approximately half had the fast-stop DNA synthesis phenotype; synthesis ceased quickly after shifting an asynchronous population of cells to the restrictive temperature. The other half had an intermediate-rate phenotype; synthesis continued at a reduced rate for at least 3 h at the restrictive temperature. All of the DNA synthesis mutants continued protein synthesis at the restrictivetemperature. Genetic complementation analysis of temperature-sensitive segregants of these strains defined 60 apparently new complementation groups. Thirty-five of these were associated with the fast-stop phenotype, 25 with the intermediate-rate phenotype. The fast-stop groups are likely to include many genes whose products play direct roles in mitotic S phase DNA synthesis. Some of the intermediate-rate groups may be associated with S phase as well. This mutant collection should be very useful in the identification and isolation of gene products necessary for yeast DNA synthesis, in the isolation of the genes themselves, and in further analysis of the DNA replication process in vivo.  相似文献   

4.
When diploid cells of Saccharomyces cerevisiae homozygous for the temperature-sensitive cell division cycle mutation cdc6-1 are grown at a semipermissive temperature they exhibit elevated genomic instability, as indicated by enhanced mitotic gene conversion, mitotic intergenic recombination, chromosomal loss, chromosomal gain, and chromosomal rearrangements. Employing quantitative Southern analysis of chromosomes separated by transverse alternating field gel electrophoresis (TAFE), we have demonstrated that 2N-1 cells monosomic for chromosome VII, owing to the cdc6-1 defect, show slow growth and subsequently yield 2N variants that grow at a normal rate in association with restitution of disomy for chromosome VII. Analysis of TAFE gels also demonstrates that cdc6-1/cdc6-1 diploids give rise to aberrant chromosomes of novel lengths. We propose an explanation for the genomic instability induced by the cdc6-1 mutation, which suggests that hyper-recombination, chromosomal loss, chromosomal gain and chromosomal rearrangements reflect aberrant mitotic division by cdc6-1/cdc6-1 cells containing chromosomes that have not replicated fully.  相似文献   

5.
CDC17: an essential gene that prevents telomere elongation in yeast   总被引:26,自引:0,他引:26  
M J Carson  L Hartwell 《Cell》1985,42(1):249-257
The CDC17 gene product performs an essential stage-specific function during the Saccharomyces cerevisiae cell cycle. When cdc17-1 strains are grown at the maximum permissive temperature, recombination is induced preferentially in the genetic interval of the chromosome closest to the telomere. Telomeres are longer in cdc17 strains than in CDC17 strains at the permissive temperature because of addition of sequence near or in the poly (C1-3A) telomeric DNA and become even longer when cells are propagated at elevated temperatures. The mitotic recombination events require RAD52 function, but telomere growth does not. Long telomeres are maintained for many generations when crossed into a CDC17+ background, suggesting that telomere length is largely conserved during replication. The altered telomere length phenotype of cdc17 mutations is recessive and coreverts and cosegregates with the temperature-sensitive lethal phenotype.  相似文献   

6.
G. Cottarel 《Genetics》1997,147(3):1043-1051
The Schizosaccharomyces pombe cdc2-3w wee1-50 double mutant displays a temperature-sensitive lethal phenotype termed mitotic catastrophe. Six mitotic catastrophe suppressor (mcs1-6) genes were identified in a genetic screen designed to identify regulators of cdc2. Mutations in mcs1-6 suppress the cdc2-3w wee1-50 temperature-sensitive growth defect. Here, the cloning of mcs4 is described. The mcs4 gene product displays significant sequence homology to members of the two-component system response regulator protein family. Strains carrying the mcs4 and cdc25 mutations display a synthetic osmotic lethal phenotype along with an inability to grow on minimal synthetic medium. These phenotypes are suppressed by a mutation in wee1. In addition, the wis1 gene, encoding a stress-activated mitogen-activated protein kinase kinase, was identified as a dosage suppressor in this screen. These findings link the two-component signal transduction system to stress response and cell cycle control in S. pombe.  相似文献   

7.
The levels of cAMP and cGMP were determined throughout the mitotic cycle of two independent strains of the naturally synchronous slime mold, Physarum polycephalum. The normal range of values was approx. 0.5–2.5 pmoles cAMP/ mg protein and 0.01–0.08 pmoles cGMP/mg protein. In our standard laboratory strain, there was no systematic pattern to the variations in the values within the normal range and no unique time in the cycle when values significantly above normal were noted. In the other strain recently cultured from spherules, elevated levels of cGMP, but not cAMP, were observed in late G2 and in the S phase. The data suggest that elevated levels of these cyclic nucleotides are not required for normal progression of the Physarum mitotic cycle which is unperturbed by artificial synchronizing procedures.  相似文献   

8.
Summary The protein serine-threonine kinase p34 cdc2+ plays a central role in the control of the mitotic cell cycle of the fission yeast Schizosaccharomyces pombe. p34 cdc2+ function is required both for the initiation of DNA replication and for entry into mitosis, and is also required for the initiation of the second meiotic nuclear division. Recent extensive analysis of p34 cdc2+ homologue proteins in higher eukaryotes has demonstrated that p34 cdc2+ function is likely to be conserved in all eukaryotic cells. Here we report the isolation and characterisation of five new temperature-sensitive alleles of the cdc 2+ gene. All five have been cloned and sequenced, together with the meiotically defective cdc2-N22 allele, bringing the total of p34 cdc2+ mutants cloned in this and previous reports to seventeen. The five temperature-sensitive alleles define four separate mutations within the p34 cdc2+ protein sequence, two of which give rise to cell cycle arrest in G2 only, when shifted to the restrictive temperature. The nature of the mutation in each protein is described and possible implications for the structure and function of p34 cdc2+ discussed.  相似文献   

9.
The temperature-sensitive mutation cc1 blocks a number of cell cycle processes in Paramecium including macronuclear DNA synthesis, oral morphogenesis, and the later stages of micronuclear mitosis. Oral morphogenesis and micronuclear mitosis also occur in the sexual pathway. This study shows that cc1 cells can proceed through conjugation or autogamy under restrictive conditions; neither stomatogenesis nor micronuclear mitosis is blocked. Fertilization and macronuclear determination occur normally, but DNA synthesis in macronuclear anlagen is blocked. Therefore, this mutation discriminates between oral replacement during meiosis and vegetative prefission stomatogenesis, and between mitotic spindle elongation during the pregamic and postzygotic divisions and spindle elongation during the vegetative cell cycle. These results point to a fundamental regulatory difference between morphogenesis in the vegetative and sexual pathways. © 1994 Wiley-Liss, Inc.  相似文献   

10.
Summary A system is described in which spontaneous and chemically-induced mitotic and meiotic hyperploidy can be assayed in the same diploid culture of Saccharomyces cerevisiae. Monitoring gene dosage changes at two loci on chromosome VIII, the test utilizes a leaky temperature-sensitive allele arg4-8 and low level copper resistance conferred by the single copy allele cup1 s. An extra chromosome VIII provides simultaneous increased dosage for both genes, resulting in colonies that are both prototrophic for arginine at 30° C and copper resistant. During mitotic cell divisions in diploids, spontaneous chromosome VIII hyperploids (trisomes and tetrasomes) occur at a frequency of 6.4×10-6 per viable cell. Among ascospores, the spontaneous chromosome VIII disome frequency is 5.5×10-6 per viable spore. The tubulin-binding reagent methyl benzimidazol-2-yl carbamate (MBC) elicits enhanced levels of mitotic and meiotic aneuploidy relative to control levels. The system represents a novel model for examining chromosome behavior during mitosis and meiosis and provides a sensitive and quantifiable procedure for examining chemically induced aneuploidy.  相似文献   

11.
Summary The same basic ultrastructural features of interphase and mitotic nuclei were found for both the haploid Colonia and the diploid wild type strains of the myxomycete,Physarum polycephalum. Differences in nuclear size and chromocenter numbers were observed, but the nucleolar cycle and the intranuclear and acentriolar type of mitosis characteristic of the plasmodial stage of the diploid is present in haploid plasmodia, ruling out any relation between ploidy level and type of mitotic figure.  相似文献   

12.
Paulson JR 《Chromosoma》2007,116(2):215-225
It is well known that inactivation of Cdk1/Cyclin B is required for cells to exit mitosis. The work reported here tests the hypothesis that Cdk1/Cyclin B inactivation is not only necessary but also sufficient to induce mitotic exit and reestablishment of the interphase state. This hypothesis predicts that inactivation of Cdk1 in metaphase-arrested cells will induce the M to G1-phase transition. It is shown that when mouse FT210 cells (in which Cdk1 is temperature-sensitive) are arrested in metaphase and then shifted to their non-permissive temperature, they rapidly exit mitosis as evidenced by reassembly of interphase nuclei, decondensation of chromosomes, and dephosphorylation of histones H1 and H3. The resulting interphase cells are functionally normal as judged by their ability to progress through another cell cycle. However, they have double the normal number of chromosomes because they previously bypassed anaphase, chromosome segregation, and cytokinesis. These results, taken together with other observations in the literature, strongly suggest that in mammalian cells, inactivation of Cdk1/cyclin B is the trigger for mitotic exit and reestablishment of the interphase state.  相似文献   

13.
Heat shock induces chromosome loss in the yeast Candida albicans   总被引:5,自引:0,他引:5  
Summary The heat shock protocol described in this paper causes mitotic instability in log phase Candida albicans cells. Such instability is induced in diploid, aneuploid and tetraploid strains. The strains analysed are multiple heterozygotes which facilitates the detection of mitotic instability as manifested by the formation of homozygotes. Strains previously shows to be carrying cis linked mutant alleles show coincident segregation of the linked alleles. Conversely, strains which carry unlinked mutant alleles display no such coincident segregation. This segregation of complete linkage groups suggests that heat shock is inducing chromosome some loss in C. albicans. The application of this protocol to the genetics of the imperfect fungus C. albicans has produced evidence of at least three chromosomes.  相似文献   

14.
Summary Streptomycin-independent revertants were selected from streptomycin-dependent mutants. Twenty-five out of 150 such revertants were temperature sensitive. Ribosomal proteins from 18 temperature-sensitive and 10 temperature-insensitive revertants were analysed by SDS-polyacrylamide gel electrophoresis. Seventeen of the former but none of the latter category showed an alteration of protein S4. The mutated rpsD allele of 6 temperature-sensitive revertants was transduced into a rpsL + strain. In all cases an increased suppressibility of T4 amber phages was observed. Such suppressibility was not observed in the original rpsD, rpsL strains. All 18 temperature-sensitive mutants were disturbed in the processing of 17s to 16s RNA at non-permissive temperature and the accumulated 17s RNA was degraded. Temperature-insensitive rpsD revertants could be isolated, which had gained a second alteration in S4. Such revertants, which had lost the temperature-sensitive property, were also unable to suppress growth of T4 amber phages.It is concluded that temperature-sensitive growth, inability to process 17s RNA and to assemble 30S ribosomes at non-permissive temperature as well as increased translational ambiguity are highly correlated properties in rpsD mutants.  相似文献   

15.
Cells of the mature root exhibit arrest within the G1 and G2 periods of the mitotic cycle. The number of cells arrested with a 2C or 4C DNA amount in mature tissue was compared with that in meristems of excised primary root tips deprived of carbohydrate. Results from four plant species are described. Cells in mature tissue of seedling roots of Vicia and Pisum exhibited arrest predominately at the 4C while those of Triticum and Helianthus arrested preponderantly at the 2C DNA level. The proportion of cells arrested at the 2C and 4C levels in mature root tissue was specific for each species tested. In each species the cycle stage where most cells arrested was the same in carbohydrate-deficient root meristems as in mature root tissue; consequently, most meristematic cells are preconditioned or predetermined to arrest in a specific mitotic period. A test system was developed in Pisum in which the predominant period of arrest was altered by the removal of the cotyledons. The predominant arrest period changed from 4C to 2C in both mature root tissue and carbohydrate-deficient root meristems with cotyledon removal and indicated that mature root cells are preconditioned while meristematic as to where they will eventually arrest in the mitotic cycle.  相似文献   

16.
Summary The ligase-defective cdc17-L16 mutant of Schizosaccharomyces pombe var. pombe was tested for genetic recombination and mating-type switching. Mitotic recombination was studied in both haploid and heteroallelic diploid cells. Cells carrying a heteroallelic ade6 duplication constructed by Schuchert and Kohli were tested for ectopic genetic recombination. We have found that cdc17-L16 is a mitotic hyper-rec mutant, as it increases the instability of the duplication by a factor of about 6 even at the permissive temperature of 23° C. In diploid cells, the enhancement of recombination rates detected was to that of cdc17 + cells. The temperature-sensitive cell cycle defect is also associated with a reduced level of mating and sporulation but does not significantly affect mating-type switching and intragenic meiotic recombination. It is supposed that the mitotic hyper-rec phenotype is a secondary result of insufficient repair of DNA breaks, while the lack of influence of the reduced ligase activity on the latter two processes might be attributed to their peculiar initiation mechanisms.  相似文献   

17.
A variety of genes for auxotrophic, morphological and resistance characters of Aspergillus niger have been assigned to eight linkage groups by haploidisation of heterozygous diploids. Methods of linkage group analysis are described that avoid disturbance of linkage data by interference of mitotic crossing-over. Four master strains for linkage group analysis were constructed with markers for the eight linkage groups in such a way that a great variety of mutants can be analysed with one of them. Moreover, over 400 strains with various combinations of more than 70 markers can be used for specific situations. Strategies for analysis of production strains are discussed. The master strains and other strains with genetic markers are available and a list with genotypes can be sent on request. Correspondence to: C. J. Bos  相似文献   

18.
J. D. Hudson  H. Feilotter    P. G. Young 《Genetics》1990,126(2):309-315
In Schizosaccharomyces pombe, cdc25 is a cell cycle regulated inducer of mitosis. wee1 and phenotypically wee alleles of cdc2 are epistatic to cdc25. Mutant alleles of a new locus, stf1 (suppressor of twenty-five), identified in a reversion analysis of conditionally lethal cdr1-76 cdc25-22 and cdr2-96 cdc25-22 double mutant strains, also suppress both temperature-sensitive and gene disruption alleles of cdc25. These mutants, by themselves, are phenotypically indistinguishable from wild type strains; hence they represent the first known mutations that are epistatic to cdc25 and do not display a wee phenotype. stf1 genetically interacts with other elements of mitotic control in S. pombe. stf1-1 is additive with wee1-50, cdc2-1w and cdc2-3w for suppression of cdc25-22. Also, like wee1- and cdc2-w, stf1- suppression of cdc25 is reversed by overexpression of the putative type 1 protein phosphatase bws1+/dis2+. Interaction with various mutants and plasmid overexpression experiments suggest that stf1 does not operate either upstream or downstream of wee1. Similarly, it does not operate through cdc25 since it rescues the disruption. stf1 appears to encode an important new element of mitotic control.  相似文献   

19.
Summary Simple parasexual genetic techniques have been employed to extend the linkage analysis initiated in an earlier study (Coukell, 1975) of developmental mutations (agg mutations) in 40 independently isolated aggregation-deficient mutants of Dictyostelium discoideum. Using these techniques, agg mutations in 28 of the 40 mutants have been assigned to 4 linkage groups: 16 in group II, 1 in group III, 10 in group IV, and 1 in group VI. None of the agg mutations analyzed appear to map in linkage group I. In addition, a new temperature-sensitive growth locus, designated tsgJ, was mapped in group III. It was also found that diploid strains of D. discoideum are readily induced to undergo haploidization when grown on 0.1% p-fluorophenylalanine (PFP) at 25.5 °C. Growth of diploid strains on PFP had no effect on the type of segregant classes obtained (i.e., PFP does not induce mitotic crossing-over), the subsequent growth and/or development of the segregants, or the ability of the segregants to reform stable diploids.  相似文献   

20.
Cyclins in association with the protein kinase p34cdc2and related cyclin-dependent protein kinases (cdks) are key regulatory elements in controlling the cell division cycle. Here, we describe the identification and characterization of a full-length cDNA clone of alfalfa mitotic cyclin, termed CycIIIMs. Computer analysis of known plant cyclin gene sequences revealed that this cyclin belongs to the same structural group as the other known partial alfalfa cyclin sequences. Genetic segregation analysis based on DNA-DNA hybridization data showed that the CycIIIMs gene(s) locates in a single chromosomal region on linkage group 5 of the alfalfa genetic map between RFLP markers UO89A and CG13. The assignment of this cyclin to the mitotic cyclin class was based on its cDNA-derived sequence and its differential expression during G2/M cell cycle phase transition of a partially synchronized alfalfa cell culture. Sequence analysis indicated common motifs with both the A- and B-types of mitotic cyclins similarly to the newly described B3-type of animal cyclins.  相似文献   

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