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Query: UNIPROT:P06889 (Mol)
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The SAD mutation, an extra mating type cassette, has been shown to arise from an unequal mitotic crossover between the MAT and HMR loci, resulting in the formation of a hybrid cassette and a duplication of the MAT-HMR interval. The SAD cassette contains the "a" information and left-hand flanking regions from the parental HMRa cassette and the right-hand flanking sequences of the parental MAT cassette. This arrangement of flanking sequences causes a leaky but reproducible mating phenotype correlated with a low-level expression of the cassette as measured by RNA blotting. This weak expression is attributed to the loss of one flanking control site normally present at the silent HM storage loci.
Mol Cell Biol 1984 Jul
PMID:Structure of the SAD mutation and the location of control sites at silent mating type genes in Saccharomyces cerevisiae. 609 58

The mechanism of hCG-induced desensitization of the cAMP system was studied in Percoll-purified mouse Leydig cells. Pretreatment of Leydig cells with hCG resulted in a time- and dose-dependent decrease in the capacity of hCG-induced cAMP formation. Maximal desensitization (approximately 90%) was induced by only partial prior stimulation. Desensitization, however, was not observed without a prior increase in cAMP or testosterone production. Pretreatment of the cells with N6,O2'-dibutyryl cAMP (DBcAMP) also induced a dose- and time-dependent densensitization. cAMP was only effective in the presence of the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine (MIX). Cholera toxin desensitized the hormone-induced cAMP response as drastically as hCG. Cholera toxin was unable to reverse the refractory state induced by one of the agonists. hCG-induced desensitization was not associated with a loss in [125I]hCG binding or an increase in maximal phosphodiesterase activity, and appeared not to be dependent on protein synthesis. Membranes from hCG, cholera toxin of DBcAMP-desensitized cells showed an impaired adenylate cyclase activity in response to hCG, hCG plus beta-gamma-imidoguanosine 5'-triphosphate (GPPNP) and NaF. In conclusion, hCG-induced desensitization of the adenylate cyclase system in mouse Leydig cells can be mimicked by cholera toxin, DBcAMP and cAMP, indicating a cAMP-mediated process. The site of the 'lesion' has to be localized to the guanine nucleotide regulatory protein-adenylate cyclase complex rather than to its uncoupling from the hormone receptor.
Mol Cell Endocrinol 1984 Jan
PMID:Desensitization of the cAMP system in mouse Leydig cells by hCG, cholera toxin, dibutyryl cAMP and cAMP: localization of the 'lesion' to the guanine nucleotide regulatory protein-adenylate cyclase complex. 619 38

The relationships between membrane fluidity as induced by drug addition and the stimulation of adenylate cyclase by hormones (mainly catecholamines), GTP, Gpp(NH)p and NaF are reviewed. In particular, the data corresponding to pigeon erythrocyte membranes are reviewed and compared with other data published in the literature. A brief summary of the theories involved in fluidity measurements and their significance at the molecular level is also given for anisotropy of fluorescence and electron spin resonance. One of the conclusions is that the cationic drugs and neutral alcohols by perturbing preferentially the inner half-layer of the bilayer induced in pigeon erythrocyte membrane correlated multiphasic changes on fluidity and adenylate cyclase activity. This and other experimental data concerning the regulation of the adenylate cyclase are discussed in regard to a new interpretation of cyclase stimulation: the repressor hypothesis. In cell membrane the catalytic unit C is repressed by its association with a repressor complex made of the hormone receptor R and the regulatory protein N. The activation of cyclase activity is the dissociation of the catalytic unit C from the repressor complex R.N according to the equilibrium: R.N.C (inactive) in equilibrium R.N + C (active). Hormones, metal ions (magnesium), and nucleotides (GTP) are the allosteric ligands which shift this equilibrium towards the dissociation state with the liberation of the active form, membrane-bound, C unit. Gpp(NH)p, fluoride and forskolin will also shift the equilibrium toward the right. GDP and free receptors favour the associated repressed state of the system.
Mol Cell Biochem 1984
PMID:Adenylate cyclase and membrane fluidity. The repressor hypothesis. 632 63

The mating-type switches in the yeast Saccharomyces cerevisiae occur by unidirectional transposition of replicas of unexpressed genetic information, residing at HML or HMR, into the mating-type locus (MAT). The source loci, HML and HMR, remain unchanged. Interestingly, when the HM cassettes are expressed, as in marl strains, the HML and HMR cassettes can also efficiently switch, apparently by obtaining genetic information from either of the other two cassettes (Klar et al., Cell 25:517-524, 1981). We have isolated a novel chromosome III rearrangement in heterothallic (marl ho) strains, which is also produced efficiently in marl HO cells, presumably the consequence of a recombination event between HML and HMR. The fusion results in the loss of sequences which are located distal to HML and to HMR and produces a ring derivative of chromosome III. Cells containing such a ring chromosome are viable as haploids; apparently, no essential loci are located distal to the HM loci. The fusion cassette behaves as a standard HM locus with respect to both regulation by the MAR/SIR control and its role in switching MAT.
Mol Cell Biol 1983 May
PMID:Efficient production of a ring derivative of chromosome III by the mating-type switching mechanism in Saccharomyces cerevisiae. 634 56

Sporulation of Saccharomyces cerevisiae ordinarily requires the a1 function of the a mating type locus. SAD is a dominant mutation that allows strains lacking a1 (MAT alpha/MAT alpha and mata1/MAT alpha diploids) to sporulate. We provide functional and physical evidence that SAD is an extra cassette in the yeast genome, distinct from those at HML, MAT, and HMR. The properties of SAD strains indicate that the a cassette at SAD produces a limited amount of a1 product, sufficient for promoting sporulation but not for inhibiting mating and other processes. These conclusions come from the following observations. (i) SAD did not act by allowing expression of HMRa: mata1/MAT alpha diploids carrying SAD and only alpha cassettes at HML and HMR sporulated efficiently. (ii) SAD acted as an a cassette donor in HML alpha HMR alpha strains and could heal a mata1 mutation to MATa as a result of mating type interconversion. (iii) The genome of SAD strains contained a single new cassette locus, as determined by Southern hybridization. (iv) Expression of a functions from the SAD a cassette was limited by Sir: sir- SAD strains exhibited more extreme phenotypes than SIR SAD strains. This observation indicates that SAD contains not only cassette information coding for a1 (presumably from HMRa) but also sites for Sir action.
Mol Cell Biol 1983 May
PMID:SAD mutation of Saccharomyces cerevisiae is an extra a cassette. 634 59

The frequency of cell fusion during transformation of yeast protoplasts with various yeast plasmids with a chromosome replicon (YRp or YCp) or 2 mu DNA (YEp) was estimated by two methods. In one method, a mixture of protoplasts of two haploid strains with identical mating type and complementary auxotrophic nuclear markers with or without cytoplasmic markers was transformed. When the number of various phenotypic classes of transformants for the nuclear markers was analyzed by equations derived from binominal distribution theory, the frequency of nuclear fusion among the transformants was 42 to 100% in transformations with the YRp or YCp plasmids and 28 to 39% with the YEp plasmids. In another method, a haploid bearing the sir mutation, which allows a diploid (or polyploid) homozygous for the MAT (mating type) locus to sporulate by the expression of the silent mating-type loci HML and HMR, was transformed with the plasmids. Sporulation ability was found in 43 to 95% of the transformants with the YRp or YCp plasmids, and 26 to 31% of the YEp transformants. When cytoplasmic mixing was included with the nuclear fusion, 96 to 100% of the transformants were found to be cell fusants. Based upon these observations, we concluded that transformation of yeast protoplasts is directly associated with cell fusion.
Mol Cell Biol 1984 Apr
PMID:Transformation of protoplasted yeast cells is directly associated with cell fusion. 637 97

The effects of phenytoin (DPH) on folate metabolism have been studied in female Swiss Webster mice. Doses of DPH which produce steady-state plasma levels of DPH in the therapeutic range of 10-20 micrograms/ml were found to decrease plasma folate levels. In addition, the in vivo oxidation rate of [14C] formate and [2-14C] histidine to 14CO2 was increased. The increased metabolic rates were accompanied by a decrease in the hepatic activity of N5, N10-methylenetetrahydrofolate (5, 10-CH2-H4folate) reductase. N5-methyltetrahydrofolate-homocysteine transmethylase (methionine synthase); EC 2.1.1.13) activity in the liver was unchanged. The distribution of folates in the liver was determined by high-pressure liquid chromatography (HPLC) and it was found that the concentration of tetrahydrofolate (H4folate) was increased in DPH-treated mice whereas the concentration of N5-methyltetrahydrofolate was decreased. These effects were observed in mice treated with DPH for 4 days, but not in mice given a single DPH injection 24 hr previously. Decreased activity of hepatic 5, 10-CH2-H4folate reductase is postulated to account for the other effects which were observed. Decreased activity presumably results in increased tissue concentrations of 5, 10-CH2-H4folate, which is in equilibrium with its dissociation products, H4folate and formaldehyde. Increased concentrations of H4folate lead to increases in the oxidation rate of formate and histidine. These effects on folate metabolism may have important implications in the pharmacological and toxicological effects of DPH.
Mol Pharmacol 1984 May
PMID:Decreased hepatic 5, 10-methylenetetrahydrofolate reductase activity in mice after chronic phenytoin treatment. 637 25

The genome of the yeast Saccharomyces cerevisiae contains three complete copies of the genetic information governing cell mating type. Normally, only the information in one of the copies (the MAT locus) is expressed; the other two copies (HML and HMR) are repressed and serve as donors of mating-type sequences that can be transposed to MAT in cells capable of switching mating type. We have mutagenized the silent HMR locus and have found that the repression of this locus requires two sites, one lying on each side of the mating-type sequences at HMR. The regulatory sites are positioned outside of the sequences that are included in the pair of divergent transcripts coded for by HMR, and lie about 1000 base-pairs to either side of the central promoter region of the locus. Deletion of one of the regulatory sites results phenotypically in complete loss of repression, whereas deletion of the other site gives only partial loss of control. Both of the sites are associated with an autonomous replication activity, though the relationship between this activity and the process of repression is unclear.
J Mol Biol 1984 Jul 05
PMID:Regulation of mating-type information in yeast. Negative control requiring sequences both 5' and 3' to the regulated region. 637 90

HML and HMR are the sites of cryptic mating type genes in the yeast Saccharomyces cerevisiae. In the presence of the HO gene, the information from HML or HMR (an a or alpha cassette) is transferred to the mating type locus (MAT). HML, HMR, and MAT are located on chromosome III, yet are widely separated. Similarly, in other yeasts, at least some of the genes involved in mating typing interconversion are linked to the mating type locus. We demonstrate here that a cassette donor (HMR) and the cassette target (MAT) need not be physically linked for successful mating type interconversion. In particular, we show that HMRa on one chromosome can donate an a cassette to the mating type locus on a homologous chromosome III.
Mol Gen Genet 1980
PMID:The trans action of HMRa in mating type interconversion. 700 14

Sexual activity in homothallic strains of Saccharomyces cerevisiae was investigated. We succeeded in culturing homothallic haploid cells without conjugation, by lowering the pH value of the culture medium. In spore cultures of a homothallic strain both a and alpha pheromones were detected. Agglutination substance of a and alpha mating types were detected in homothallic haploid cells from spore cultures in early logarithmic phase regardless of mating type information at the HML and HMR loci, but either a or alpha agglutination substance was detected predominantly in homothallic haploid cells from spore culture in late logarithmic phase, depending on mating type information at the HML and HMR loci.
Mol Gen Genet 1982
PMID:Changes in production of the mating-type-specific glycoproteins, agglutination substances in association with mating type interconversion in homothallic strains of the yeast, Saccharomyces cerevisiae. 704 81

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