Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The two regulatory pathways appear to come together at the IME1 gene. It is clearly regulated by mating type and induced by starvation as well. Overexpression of IME1 completely overcomes MAT defects but may not circumvent all nutritional control. Kassir et al. (1988) found that overexpression of IME1 allowed sporulation in the presence of glucose and nitrogen. They also have found a meiotic level of message in temperature-sensitive cdc25 diploids shifted to high temperature in rich medium (Simchen and Kassir, 1989). Smith and Mitchell (1989) found that overexpression of IME1 induced an early meiotic event (recombination) in rich medium, but later meiotic events did not occur (i.e., they detected no spore formation). Mitchell (personal communication) has suggested that the difference may be due to differences in the amount of nitrogen present in the two experiments. Thus, while it is clear that IME1 is a necessary positive regulator of meiosis, responding both to mating type and nutritional conditions, it is not clear if it is sufficient. It is possible that other genes are involved in the response to starvation. One interpretation is that a separate nutritional control is exerted for events starting with meiosis I. Much of the regulatory pathway that allows yeast cells to enter meiosis has been determined. As in the case in many sensory transduction pathways, the initial signal for starvation is not yet known, nor is the nature of the proposed downstream phosphorylated effector. Given the power of yeast molecular genetics, answers to both these questions seem attainable. Another area that remains unclear is the difference between responses to nitrogen starvation versus carbon source. Many of the experiments discussed above do not address this question. The strategies used by yeast may be utilized in the developmental decisions used by other, more complex eukaryotes. Certainly several of the gene products involved in nutritional control in yeast have homologies in mammalian systems. For example, the human H-ras gene can substitute for yeast RAS; the relationship is sufficiently close that dominant Ha-ras mutations that inhibit CDC25 have been found (Powers et al., 1989). Furthermore, these dominant Ha-ras mutations have the appropriate phenotype in mammalian cells, suggesting the presence of a CDC25-like protein. Although the major components of mating type control appear to have been defined, the mechanism of the RME1-IME transcriptional control remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Dual regulation of meiosis in yeast. 218 88

We have compared the nucleosomal organization of c-Ha-rasVal 12 oncogene-transformed NIH-3T3 fibroblasts with that of normal fibroblasts by using micrococcal nuclease (MNase) as a probe for the chromatin structure. The bulk chromatin from asynchronously and exponentially growing ras-transformed cells was much more sensitive to MNase digestion than chromatin from the normal cells. Southern hybridization analyses of the MNase digests with probes specific for the ornithine decarboxylase (odc) and c-myc genes showed that the coding and/or 3' end regions of these growth-inducible genes carry a nucleosomal organization both in ras-transformed and normal cells. Studies with cells synchronized by serum starvation showed that in both cell lines the nucleosomal organization of chromatin is relatively condensed at the quiescent state, becomes highly decondensed during the late G1 phase of the cell cycle, and starts again to condense during the S phase. However, in ras-transformed cells the decondensation state stayed much longer than in normal cells. Moreover, irrespective of the phase of the cell cycle the bulk chromatin as well as that of the odc and c-myc genes was more sensitive to MNase digestion in the ras-transformed cell than in the normal fibroblast. Decondensation of the chromatin was also observed in the normal c-Ha-ras protooncogene-transfected cells, but to a lesser extent than in the mutant ras-transformed cells. Whether the increased degree of chromatin decondensation plays a regulatory role in the increased expression of many growth-related genes in the ras-transformed cells remains an interesting object of further study.
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PMID:c-Ha-rasVal 12 oncogene-transformed NIH-3T3 fibroblasts display more decondensed nucleosomal organization than normal fibroblasts. 219 41

We have further investigated the function of the ras1 and byr1 genes, which were previously shown to be critical for sexual differentiation in fission yeast cells. Several physiological similarities between strains containing null alleles of these genes supports the idea that ras1 and byr1 are functionally closely related. Furthermore, we have found that byr1 is allelic to ste1, one of at least 10 genes which when mutated can cause sterility. Since ras1 had previously been found to be allelic to ste5, both ras and byr genes are now clearly shown to be a part of the ste gene family, thus confirming their close functional relationship. The observation that the mating-type loci could overcome the sporulation block of ras1 and byr1 mutant strains prompted investigation of the role of the ras-byr pathway in the induction of the mating-type gene transcripts upon nitrogen starvation. By Northern analysis of RNA preparations from strains carrying wild-type or mutant ras1 alleles and grown to different stages of the growth cycle, we have shown that ras1 plays an important role in inducing the Pi transcript of the mating-type loci and the mei3 gene transcript. These observations provide a molecular basis for the role of the ste gene family, including ras1 and byr1, in meiosis and indicate that further characterization of other ste genes would be very useful for elucidating the mechanism of ras1 function in fission yeast cells.
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PMID:Schizosaccharomyces pombe ras1 and byr1 are functionally related genes of the ste family that affect starvation-induced transcription of mating-type genes. 230 54

The cheek pouch of the Syrian hamster is an excellent model for the experimental study of oral carcinogenesis. The carcinogenic chemical 7,12-dimethylbenz[a]anthracene consistently produces epidermoid carcinomas in the cheek pouch of the Syrian hamster, giving rise to characteristic histopathological lesions in a time-dependent manner. We now present experimental evidence that c-Ki-ras mRNA can be detected in all 7,12-dimethylbenz[a]anthracene-induced tumors examined (in vivo and in vitro) in this experimental oral cancer model while no detectable c-Ki-ras mRNA can be found in the normal hamster cheek pouch epithelium. Cellular synchronization experiments using a cell line (hamster cheek pouch carcinoma cell line 1) derived from one of these 7,12-dimethylbenz[a]anthracene-induced hamster oral tumors revealed that the c-Ki-ras protooncogene is expressed during the G1 phase of the cell cycle (proliferation dependent). Serum starvation and RNA synthesis inhibition experiments using hamster cheek pouch carcinoma cell line 1 cells suggest that the c-Ki-ras protooncogene is indeed quiescent in the normal hamster cheek pouch epithelium and that failure to detect its mRNA is not related to the slower proliferation of the normal epithelial cells. These results suggest that the transcription of the c-Ki-ras protooncogene is associated with malignant transformation in the cheek pouch of the Syrian hamster.
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PMID:Detection of Ki-ras messenger RNA in normal and chemically transformed hamster oral keratinocytes. 250 Oct 28

The yeast Saccharomyces cerevisiae contains two functionally redundant genes RAS1 and RAS2, which are homologous to the mammalian ras gene family and are required for vegetative growth. We isolated and characterized five temperature-sensitive alleles of RAS2. In a ras1 strain, these alleles cause growth arrest at the G1 stage of the cell cycle. Revertants capable of growth at the nonpermissive temperature define four recessive, extragenic complementation groups. Suppressors in one complementation group (designated yak1) are particularly intriguing because they appear to alleviate only the growth defect of the temperature-sensitive ras mutants and do not show any of the phenotypes, such as heat shock sensitivity or starvation sensitivity, associated with increased production of cAMP. The YAK1 gene has been cloned, and disruptions generated in vitro reveal that it is not essential for growth and that its loss confers growth to a strain deleted for tpk1, tpk2, and tpk3, the structural genes for the catalytic subunit of the cAMP-dependent protein kinase. These results place Yak1 downstream from, or on a parallel pathway to, the kinase step in the Ras/cAMP pathway. Finally, the coding region predicts a protein with significant homology to the family of protein kinases, suggesting that loss of cAMP-dependent protein kinase function can be suppressed by the loss of a second protein kinase.
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PMID:Loss of Ras activity in Saccharomyces cerevisiae is suppressed by disruptions of a new kinase gene, YAKI, whose product may act downstream of the cAMP-dependent protein kinase. 255 53

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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PMID:The ras-like yeast YPT1 gene is itself essential for growth, sporulation, and starvation response. 330 75

The rap1 gene of Dictyostelium discoideum is a member of the ras-gene superfamily of low molecular weight GTPase proteins. The rap1 gene is expressed both during growth and development in D. discoideum. To examine the action of the Rap1 protein in D. discoideum, the rap1 cDNA was expressed under the control of the inducible discoidin promoter. Treatment with conditioned media, which induces the discoidin promoter, increased Rap1 protein levels in vegetative cells approximately six fold. Overexpression of the Rap1 protein correlated with the appearance of morphologically aberrant vegetative amoebae: cells were extensively spread and flattened. The distribution of F-actin was altered in these cells, with an increase in actin staining around the cell periphery. Induction of the discoidin promoter by starvation in the rap1 transformants also resulted in spread flat cells. When starved D. discoideum amoebae are refed with HL5 media, the cells rapidly respond by rounding up. By contrast, the rap1 transformant cells showed a pronounced delay in rounding up. Rapid tyrosine phosphorylation of a p45 protein occurred in both control cells and the rap1 transformant upon refeeding, implying that the signal transduction pathway leading to tyrosine phosphorylation remained functional in the rap1 transformant. We propose that the Rap1 protein functions in the regulation of cell morphology in D. discoideum.
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PMID:Altered morphology of vegetative amoebae induced by increased expression of the Dictyostelium discoideum ras-related gene rap1. 750 18

The tax gene of human T lymphotropic virus type I has been implicated in the genesis of adult T cell leukemia (ATL). It has been reported that expression of tax induces neoplastic transformation in the rat fibroblast cell line Rat-1, and that co-expression with the ras gene can transform rat embryo fibroblasts. Possible activation of cellular oncogenes including c-myc and c-fos by tax has been implicated in these tax functions. In this study, comparative analysis of biological properties of tax and cellular nuclear oncogenes c-myc and c-fos was performed in Rat-1 cells. While all three oncogenes could transform Rat-1 cells, significant differences in the sensitivity to induction of apoptosis were observed between cells transformed with each oncogene. Induction of apoptosis by serum starvation was observed in tax-transfected Rat-1 cells but to a lesser extent than that in those transfected with c-myc or c-fos. In contrast, exposure to a DNA-damaging agent, etoposide, resulted in enhanced apoptotic death only in c-myc-transfected Rat-1 cells. Our findings indicate that the pathways for apoptosis induction may not be identical among these three oncogenes, and that the relatively low apoptosis-inducing activity and sufficient transforming capacity of tax might be associated with transformation of T cells and the low susceptibility of the transformed T cells (ATL cells) to chemotherapeutic agents.
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PMID:Differences in sensitivity to induction of apoptosis among rat fibroblast cells transformed by HTLV-I tax gene or cellular nuclear oncogenes. 762 22

The activated c-Ha-rasVal12 oncogene is often involved in the genesis of human malignancies. We show here that in c-Ha-rasVal12 oncogene-transformed mouse NIH 3T3 fibroblasts the copy number and expression level of the mutant ras oncogene correlates with the degree of chromatin decondensation, as assessed by micrococcal nuclease (MNase) and DNase I digestion. MNase and DNase I analyses further revealed that the nucleosomal repeat lengths were different in the normal and ras oncogene-transformed cells, 162.3 bp and 178.1 bp, respectively. These chromatin changes were accompanied by alterations in the content of histone H1 zero. Furthermore, using DNase I as a probe, we discovered that serum stimulation of normal and transformed cells, synchronized by serum starvation, induces rapid reversible changes in the structure of bulk chromatin that may be linked to transcriptional activation. Our data thus indicate that cell transformation by ras is associated with specific changes in chromatin structure that make it more vulnerable, and prone to additional mutations characteristic of cancer development in vivo.
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PMID:Cell transformation by c-Ha-rasVal12 oncogene is accompanied by a decrease in histone H1 zero and an increase in nucleosomal repeat length. 772 50

Recent studies have demonstrated the existence of a physical complex containing p21ras (RAS), p74raf-1 (RAF-1), and MEK-1. Although it is clear that formation of this complex depends on the activation state of RAS, it is not known whether this complex is regulated by the activation state of the cell and whether MEK-2 is also present in the complex. To analyze the regulation and specificity of this complex, we utilized immobilized RAS to probe lysates of cultured NIH 3T3 fibroblasts and analyzed the proteins complexing with RAS following serum starvation or stimulation. Complex formation among RAS, RAF-1, and MEK-1 was dependent only on RAS:GMP-PNP and not on cell stimulation. Incubations of lysates with immobilized RAS depleted all RAF-1 from the lysate but bound only a small fraction of cytosolic MEK-1, and further MEK-1 could bind immobilized RAS only if exogenous RAF-1 was added to the lysate. This indicates that binding of MEK-1 to RAS depends on the presence of RAF-1 or an equivalent protein. In contrast to MEK-1, MEK-2 was not detected in the RAS signalling complex. A proline-rich region of MEK-1 containing a phosphorylation site appears to be essential for signalling complex formation. Consistent with the preferential binding of MEK-1 to RAS:RAF-1, the basal activity of MEK-1 in v-ras-transformed cells was found to be elevated sixfold, whereas MEK-2 was elevated only twofold, suggesting that the RAS signalling pathway favors MEK-1 activation.
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PMID:RAS and RAF-1 form a signalling complex with MEK-1 but not MEK-2. 796 58


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