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Regulation of Mating and Meiosis in Yeast by the Mating-Type Region   总被引:30,自引:12,他引:30       下载免费PDF全文
A supposed sporulation-deficient mutation of Saccharomyces cerevisiae is found to affect mating in haploids and in diploids, and to be inseparable from the mating-type locus by recombination. The mutation is regarded as a defective a allele and is designated a*. This is confirmed by its dominance relations in diploids, triploids, and tetraploids. Tetrad analysis of tetraploids and of their sporulating diploid progeny suggests the existence of an additional locus, RME, which regulates sporulation in yeast strains that can mate. Thus the recessive homozygous constitution rme/rme enables the diploids a*/α, a/a*, and α/α to go through meiosis. Haploids carrying rme show apparent premeiotic DNA replication in sporulation conditions. This new regulatory locus is linked to the centromere of the mating-type chromosome, and its two alleles, rme and RME, are found among standard laboratory strains.  相似文献   

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胁迫应答基因的转录激活是细胞应答胁迫作用的关键步骤。转录激活因子与启动子顺式作用元件结合是胁迫应答基因转录激活的关键环节。进化保守的Gal4是半乳糖代谢相关基因的转录激活因子。酵母Gal4通过其N端的DNA结合结构域识别并结合启动子UAS,通过其C端的激活结构域与转录因子作用,起始RNA聚合酶Ⅱ复合体的组装和转录。该过程不仅受转录调控因子Gal80和Gal3的调节,还与Gal4二聚体的形成有关。概述了酵母半乳糖代谢相关基因转录激活因子Gal4的研究进展。  相似文献   

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The TSC/Rheb/TOR signaling pathway plays important roles in growth and cell cycle regulation. The main player TOR belongs to the PI3K-related protein kinase family. Recent studies utilizing fission yeast Tor2 have led to the identification of a number of amino acid changes that lead to inactivation as well as activation of TOR kinase. Also, constitutive active mutations in its upstream regulator, Rheb, have been identified. Isolation and characterization of temperature sensitive Tor2 mutants have established that this kinase functions as a key switch that determines cell fate between growth and sexual development. Introduction of Tor2 activating mutations into mTOR conferred nutrient independent activation of mTOR. Interestingly, these studies point to regions of TOR kinase important for its function.  相似文献   

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《Cell reports》2020,30(10):3240-3249.e4
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Membrane trafficking is essential to eukaryotic life and is controlled by a complex network of proteins that regulate movement of proteins and lipids between organelles. The GBF1/GEA family of Guanine nucleotide Exchange Factors (GEFs) regulates trafficking between the endoplasmic reticulum and Golgi by catalyzing the exchange of GDP for GTP on ADP Ribosylation Factors (Arfs). Activated Arfs recruit coat protein complex 1 (COP-I) to form vesicles that ferry cargo between these organelles. To further explore the function of the GBF1/GEA family, we have characterized a fission yeast mutant lacking one copy of the essential gene gea1 (gea1+/−), the Schizosaccharomyces pombe ortholog of GBF1. The haploinsufficient gea1+/− strain was shown to be sensitive to the GBF1 inhibitor brefeldin A (BFA) and was rescued from BFA sensitivity by gea1p overexpression. No overt defects in localization of arf1p or arf6p were observed in gea1+/− cells, but the fission yeast homolog of the COP-I cargo sac1 was mislocalized, consistent with impaired COP-I trafficking. Although Golgi morphology appeared normal, a slight increase in vacuolar size was observed in the gea1+/− mutant strain. Importantly, gea1+/− cells exhibited dramatic cytokinesis-related defects, including disorganized contractile rings, an increased septation index, and alterations in septum morphology. Septation defects appear to result from altered secretion of enzymes required for septum dynamics, as decreased secretion of eng1p, a β-glucanase required for septum breakdown, was observed in gea1+/− cells, and overexpression of eng1p suppressed the increased septation phenotype. These observations implicate gea1 in regulation of septum breakdown and establish S. pombe as a model system to explore GBF1/GEA function in cytokinesis.  相似文献   

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A surveillance mechanism, the S phase checkpoint, blocks progression into mitosis in response to DNA damage and replication stress. Segregation of damaged or incompletely replicated chromosomes results in genomic instability. In humans, the S phase checkpoint has been shown to constitute an anti-cancer barrier. Inhibition of mitotic cyclin dependent kinase (M-CDK) activity by Wee1 kinases is critical to block mitosis in some organisms. However, such mechanism is dispensable in the response to genotoxic stress in the model eukaryotic organism Saccharomyces cerevisiae. We show here that the Wee1 ortholog Swe1 does indeed inhibit M-CDK activity and chromosome segregation in response to genotoxic insults. Swe1 dispensability in budding yeast is the result of a redundant control of M-CDK activity by the checkpoint kinase Rad53. In addition, our results indicate that Swe1 is an effector of the checkpoint central kinase Mec1. When checkpoint control on M-CDK and on Pds1/securin stabilization are abrogated, cells undergo aberrant chromosome segregation.  相似文献   

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AJS. Klar  M. J. Bonaduce    R. Cafferkey 《Genetics》1991,127(3):489-496
The interconversion of cell type in the fission yeast, Schizosaccharomyces pombe, is initiated by a double-stranded break (DSB) found at the mating type locus (mat1). A heritable site- and strand-specific DNA "imprinting" event at mat1 was recently hypothesized to be required to make the mat1 locus cleavable, and the DSB was suggested to be produced one generation before the actual switching event. It is known that only one cell among four granddaughters of a cell ever switches, and the sister of the recently switched cell switches efficiently in consecutive cell divisions. The feature of consecutive switching creates a major difficulty of having to replicate chromosomes possessing the DSB. The mat1 cis-acting leaky mutation, called smt-s, reduces the level of the DSB required for switching and is shown here to be a 27-bp deletion located 50 bp away from the cut site. Determination of the pattern and frequency of switching of the mutant allele by cell lineage studies has allowed us to conclude the following: (1) the chromosome with the DSB is sealed and replicated, then one of the specific chromatids is cleaved again to generate switching-competent cells in consecutive cell divisions and (2) the smt-s mutation affects DNA cleavage and not the hypothesized DNA imprinting step.  相似文献   

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