The ras-like yeast YPT1 gene is itself essential for growth, sporulation, and starvation response.

The Saccharomyces cerevisiae gene YPT1 encodes a protein that exhibits significant homology to the mammalian ras proteins. Using gene disruption techniques, we have shown that the intact YPT1 gene is required for spore viability. Lethality caused by loss of YPT1 function, unlike that caused by loss of the yeast ras homologs RAS1 and RAS2 function, is not suppressed by the bcy1 mutation, suggesting that YPT1 does not act through the adenylate cyclase regulatory system. A cold-sensitive allele, ypt1-1, was constructed. At the nonpermissive temperature, mutants died, exhibiting aberrant nuclear morphology, as well as abnormal distribution of actin and tubulin. The mutant cells died without exhibiting classical cell-cycle-specific arrest; nevertheless, examination of cellular DNA content suggests that the YPT1 function is required, particularly after S phase. Cells carrying the ypt1-1 mutation died upon nitrogen starvation even at a temperature permissive for growth; diploid cells homozygous for ypt1-1 did not sporulate. The YPT1 gene is thus involved in nutritional regulation of the cell cycle as well as in normal progression through the mitotic cell cycle.

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Myt1 Kinase Couples Mitotic Cell Cycle Exit with Differentiation in Drosophila

SSRN Electronic Journal ◽

10.2139/ssrn.3493830 ◽

2019 ◽

Author(s):

Reegan Josiah Willms ◽

Jie Zeng ◽

Shelagh D. Campbell

Keyword(s):

Cell Cycle ◽

Mitotic Cell ◽

Mitotic Cell Cycle ◽

Cell Cycle Exit

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The Short Life Span of Saccharomyces cerevisiae sgs1 and srs2 Mutants Is a Composite of Normal Aging Processes and Mitotic Arrest Due to Defective Recombination

Genetics ◽

10.1093/genetics/157.4.1531 ◽

2001 ◽

Vol 157 (4) ◽

pp. 1531-1542 ◽

Cited By ~ 4

Author(s):

Mitch McVey ◽

Matt Kaeberlein ◽

Heidi A Tissenbaum ◽

Leonard Guarente

Keyword(s):

Cell Cycle ◽

Life Span ◽

Mitotic Cell ◽

Dna Helicase ◽

Premature Aging ◽

Growth Defect ◽

Short Life Span ◽

Single Strand Annealing ◽

Late Generation ◽

Strand Annealing

Abstract Evidence from many organisms indicates that the conserved RecQ helicases function in the maintenance of genomic stability. Mutation of SGS1 and WRN, which encode RecQ homologues in budding yeast and humans, respectively, results in phenotypes characteristic of premature aging. Mutation of SRS2, another DNA helicase, causes synthetic slow growth in an sgs1 background. In this work, we demonstrate that srs2 mutants have a shortened life span similar to sgs1 mutants. Further dissection of the sgs1 and srs2 survival curves reveals two distinct phenomena. A majority of sgs1 and srs2 cells stops dividing stochastically as large-budded cells. This mitotic cell cycle arrest is age independent and requires the RAD9-dependent DNA damage checkpoint. Late-generation sgs1 and srs2 cells senesce due to apparent premature aging, most likely involving the accumulation of extrachromosomal rDNA circles. Double sgs1 srs2 mutants are viable but have a high stochastic rate of terminal G2/M arrest. This arrest can be suppressed by mutations in RAD51, RAD52, and RAD57, suggesting that the cell cycle defect in sgs1 srs2 mutants results from inappropriate homologous recombination. Finally, mutation of RAD1 or RAD50 exacerbates the growth defect of sgs1 srs2 cells, indicating that sgs1 srs2 mutants may utilize single-strand annealing as an alternative repair pathway.

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Cell Cycle Kinetics of Aerated, Hypoxic and Re-Aerated Cells In Vitro Using Flow Cytometric Determination of Cellular Dna and Incorporated Bromodeoxyuridine

Cell Proliferation ◽

10.1111/j.1365-2184.1985.tb00707.x ◽

1985 ◽

Vol 18 (6) ◽

pp. 641-651

Author(s):

D. C. Shrieve ◽

A. C. Begg

Keyword(s):

Cell Cycle ◽

Cell Cycle Kinetics ◽

Flow Cytometric ◽

Cellular Dna ◽

Kinetics Of

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Ethylisopropylamiloride-sensitive pH control mechanisms modulate vascular smooth muscle cell growth

AJP Cell Physiology ◽

10.1152/ajpcell.1991.260.3.c581 ◽

1991 ◽

Vol 260 (3) ◽

pp. C581-C588 ◽

Cited By ~ 90

Author(s):

A. Bobik ◽

A. Grooms ◽

P. J. Little ◽

E. J. Cragoe ◽

S. Grinpukel

Keyword(s):

Cell Cycle ◽

Smooth Muscle ◽

Smooth Muscle Cells ◽

Muscle Cells ◽

Mitotic Cell ◽

Ph Control ◽

S Phase ◽

Control Mechanisms ◽

Aortic Smooth Muscle ◽

Exchange Activity

The reported effects of alterations in Na-H exchange activity on mitogenesis are variable and appear dependent on the cell type examined. We examined the effects of reductions in ethylisopropylamiloride (EIPA)-sensitive pH-regulating mechanisms including Na-H exchange and alterations in intracellular pH (pHi) on the growth characteristics of rat aortic smooth muscle cells (RASM) cultured in serum-containing bicarbonate-buffered medium. Exposure of RASM replicating in bicarbonate-containing medium to the Na-H exchange inhibitors EIPA, dimethylamiloride (DMA), or amiloride (A) attenuated their replication rate. The order of potency of the inhibitors (EIPA greater than DMA much greater than A) was similar to their documented effects on Na-H exchange activity and to their order of potency for inhibiting recovery from CO2-induced acidosis in these cells. Reductions in pHi induced by lowering extracellular pH also attenuated the incorporation of [3H]-thymidine into DNA, while increases in pHi were associated with an acceleration in the rate of incorporation of [3H]thymidine into DNA. The effects of the Na-H exchange inhibitors on RASM replication were due to a reduction in the ability of the smooth muscle cells to enter the S phase of the mitotic cell cycle. This appeared predominantly the consequence of effects late within the G1 phase of the cell cycle. Concentrations of EIPA that markedly reduced the ability of RASM to enter S phase and to replicate also attenuated the increase in protein synthesis occurring 6-8 h after exposure to serum.(ABSTRACT TRUNCATED AT 250 WORDS)

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Paclitaxel inhibits osteoclast formation and bone resorption via influencing mitotic cell cycle arrest and RANKL-induced activation of NF-κB and ERK

Journal of Cellular Biochemistry ◽

10.1002/jcb.23423 ◽

2012 ◽

Vol 113 (3) ◽

pp. 946-955 ◽

Cited By ~ 14

Author(s):

Estabelle S. M. Ang ◽

Nathan J. Pavlos ◽

Shek Man Chim ◽

Hao Tian Feng ◽

Robin M. Scaife ◽

...

Keyword(s):

Cell Cycle ◽

Bone Resorption ◽

Cell Cycle Arrest ◽

Mitotic Cell ◽

Osteoclast Formation ◽

Mitotic Cell Cycle ◽

Cycle Arrest

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Use of a protein phosphatase inhibitor and human embryonic stem cells to investigate premature chromatic condensation and mitotic cell cycle stage for improved fluorescent in situ hybridization

Fertility and Sterility ◽

10.1016/j.fertnstert.2007.07.517 ◽

2007 ◽

Vol 88 ◽

pp. S396

Author(s):

P. Hassun ◽

N. Acevedo ◽

E. Motta ◽

P. Serafini ◽

G.D. Smith

Keyword(s):

Cell Cycle ◽

Stem Cells ◽

In Situ Hybridization ◽

Human Embryonic Stem Cells ◽

Protein Phosphatase ◽

Fluorescent In Situ Hybridization ◽

Embryonic Stem ◽

Mitotic Cell ◽

Mitotic Cell Cycle

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A murine replication protein accumulates temporarily in the heterochromatic regions of nuclei prior to initiation of DNA replication

Journal of Cell Science ◽

10.1242/jcs.108.3.927 ◽

1995 ◽

Vol 108 (3) ◽

pp. 927-934 ◽

Cited By ~ 2

Author(s):

M. Starborg ◽

E. Brundell ◽

K. Gell ◽

C. Larsson ◽

I. White ◽

...

Keyword(s):

Cell Cycle ◽

Dna Replication ◽

Mammalian Cells ◽

Mitotic Cell ◽

Yeast Cells ◽

Metaphase Chromosomes ◽

Licensing Factor ◽

Mammalian Homologue ◽

Initiation Of Dna Replication

We have analyzed the expression of the murine P1 gene, the mammalian homologue of the yeast MCM3 protein, during the mitotic cell cycle. The MCM3 protein has previously been shown to be of importance for initiation of DNA replication in Saccharomyces cerevisiae. We found that the murine P1 protein was present in the nuclei of mammalian cells throughout interphase of the cell cycle. This is in contrast to the MCM3 protein, which is located in the nuclei of yeast cells only between the M and the S phase of the cell cycle. Detailed analysis of the intranuclear localization of the P1 protein during the cell cycle revealed that it accumulates transiently in the heterochromatic regions towards the end of G1. The accumulation of the P1 protein in the heterochromatic regions prior to activation of DNA replication suggests that the mammalian P1 protein is also of importance for initiation of DNA replication. The MCM2-3.5 proteins have been suggested to represent yeast equivalents of a hypothetical replication licensing factor initially described in Xenopus. Our data support this model and indicate that the murine P1 protein could function as replication licensing factor. The chromosomal localization of the P1 gene was determined by fluorescence in situ hybridization to region 6p12 in human metaphase chromosomes.

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Asymmetry of the spindle pole bodies and spg1p GAP segregation during mitosis in fission yeast

Journal of Cell Science ◽

10.1242/jcs.112.14.2313 ◽

1999 ◽

Vol 112 (14) ◽

pp. 2313-2321 ◽

Cited By ~ 22

Author(s):

L. Cerutti ◽

V. Simanis

Keyword(s):

Cell Cycle ◽

Fission Yeast ◽

Spindle Pole Body ◽

Mitotic Cell ◽

Spindle Pole ◽

The Other ◽

Septum Formation ◽

Spindle Pole Bodies ◽

Interphase Cells ◽

Early Mitosis

In the fission yeast Schizosaccharomyces pombe, the onset of septum formation is induced by a signal transduction network involving several protein kinases and a GTPase switch. One of the roles of the spg1p GTPase is to localise the cdc7p protein kinase to the poles of the mitotic spindle, from where the onset of septation is thought to be signalled at the end of mitosis. Immunofluorescence studies have shown that cdc7p is located on both spindle pole bodies early in mitosis, but only on one during the later stages of anaphase. This is mediated by inactivation of spg1p on one pole before the other. The GAP for spg1p is a complex of two proteins, cdc16p and byr4p. Localisation of cdc16p and byr4p by indirect immunofluorescence during the mitotic cell cycle showed that both proteins are present on the spindle pole body in interphase cells. During mitosis, byr4p is seen first on both poles of the spindle, then on only one. This occurs prior to cdc7p becoming asymmetric. In contrast, the signal due to cdc16p decreases to a low level during early mitosis, before being seen strongly on the same pole as byr4p. Double staining indicates that this is the opposite pole to that which retains cdc7p in late anaphase. Examination of the effect of inactivating cdc16p at various stages of the cell cycle suggests that cdc16p, together with cdc2p plays a role in restraining septum formation during interphase. The asymmetric inactivation of spg1p is mediated by recruitment of the cdc16p-byr4p GAP to one of the poles of the spindle before the other, and the asymmetry of the spindle pole bodies may be established early during mitosis. Moreover, the spindle pole bodies appear to be non-equivalent even after division has been completed.

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Genotoxic Effect of a New Water-Soluble Fullerene Derivative C70 and its Effect on the Transcriptional Activity of Genes that Regulate the Cell Cycle, DNA Repair and Apoptosis

Materials Science Forum ◽

10.4028/www.scientific.net/msf.1031.222 ◽

2021 ◽

Vol 1031 ◽

pp. 222-227

Author(s):

Ekaterina A. Savinova ◽

Elizaveta S. Ershova ◽

Olga A. Kraevaya ◽

Pavel A. Troshin ◽

S.V. Kostyuk

Keyword(s):

Cell Cycle ◽

Transcriptional Activity ◽

Water Soluble ◽

Lung Fibroblasts ◽

Fullerene Derivative ◽

Embryonic Lung ◽

Dna Breaks ◽

Human Embryonic Lung ◽

Fullerene Derivatives ◽

Cellular Dna

It is important to take into consideration the new fullerene derivatives genotoxicity. In the present is study, we analyzed the new water-soluble fullerene C70 (F350) effects on the human embryonic lung fibroblasts (HELF) oxidative damage and DNA breaks. We found that the studied compound causes cellular DNA damage and affects the transcriptional activity of cell cycle and cell apoptosis regulating genes.

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