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Disruption of ADR1, a positive regulatory gene in the yeast Saccharomyces cerevisiae, abolished derepression of ADH2 but did not affect glucose repression of ADH2 or cell viability. The ADR1 mRNA was 5 kilobases long and had an unusually long leader containing 509 nucleotides. ADR1 mRNA levels were regulated by the carbon source in a strain-dependent fashion. beta-Galactosidase levels measured in strains carrying an ADR1-lacZ gene fusion paralleled ADR1 and ADR1-lacZ mRNA levels, indicating a lack of translational regulation of ADR1 mRNA. ADH2 was regulated by the carbon source to the same extent in all strains examined and showed complete dependence on ADR1 as well. The expression of ADR1 mRNA and an ADR1-beta-galactosidase fusion protein during glucose repression suggested that the activity of the ADR1 protein is regulated at the posttranslational level to properly regulate ADH2 expression. The ADR1-beta-galactosidase fusion protein was able to activate ADH2 expression during glucose repression but showed significantly higher levels of activation upon derepression. A similar result was obtained when ADR1 was present on a multicopy plasmid. These results suggest that low-level expression of ADR1 is required to maintain glucose repression of ADH2 and are consistent with the hypothesis that ADR1 is regulated at the posttranslational level.  相似文献   

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The DNA segments containing the ADR1 gene and a mutant allele, ADR1-5c, have been isolated by complementation of function in Saccharomyces cerevisiae. The ADR1 gene is required for synthesis of the glucose-repressible alcohol dehydrogenase (ADHII) when S. cerevisiae cells are grown on a nonfermentable carbon source, whereas the ADR1-5c allele allows ADHII synthesis even during glucose repression. A plasmid pool consisting of yeast DNA fragments isolated from a strain carrying the ADR1-5c allele was used to transform a strain containing the adr1-1 allele, which prevents ADHII depression. Transformants were isolated which expressed ADHII during glucose repression. A plasmid isolated from one of these transformants was shown to carry the ADR1-5c allele by its ability to integrate at the chromosomal adr1-1 locus. The wild-type ADR1 gene was isolated by colony hybridization, using the cloned ADR1-5c gene as a probe. The ADR1-5c and ADR1 DNA segments were indistinguishable by restriction site mapping. A partial ADR1 phenotype could be conferred by a 1.9-kilobase region, but DNA outside of this region appeared to be necessary for normal activation of ADHII by the ADR1 gene.  相似文献   

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The ADR1 protein recognizes a six base-pair consensus DNA sequence using two zinc fingers and an adjacent accessory motif. Kinetic measurements were performed on the DNA-binding domain of ADR1 using surface plasmon resonance. Binding by ADR1 was characterized to two known native binding sequences from the ADH2 and CTA1 promoter regions, which differ in two of the six consensus positions. In addition, non-specific binding by ADR1 to a random DNA sequence was measured. ADR1 binds the native sites with nanomolar affinities. Remarkably, ADR1 binds non-specific DNA with affinities only approximately tenfold lower than the native sequences. The specific and non-specific binding affinities are conferred mainly by differences in the association phase of DNA binding. The association rate for the complex is strongly influenced by the proximal accessory region, while the dissociation reaction and specificity of binding are controlled by the two zinc fingers. Binding kinetics of two ADR1 mutants was also examined. ADR1 containing an R91K mutation in the accessory region bound with similar affinity to wild-type, but with slightly less sequence specificity. The R91K mutation was observed to increase binding affinity to a suboptimal sequence by decreasing the complex dissociation rate. L146H, a change-of-specificity mutation at the +3 position of the second zinc finger, bound its preferred sequence with a slightly higher affinity than wild-type. The L146H mutant indicates that beneficial protein-DNA contacts provide similar levels of stabilization to the complex, whether they are hydrogen-bonding or van der Waals interactions.  相似文献   

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The amount of glucose-repressible alcohol dehydrogenase is regulated by the amount of its functional messenger RNA. ADHII2 protein was detected by a radioimmune assay and differentiated from ADHI, the classical ADH isozyme, by limited proteolysis with Staphylococcus aureus protease. When yeast containing the wild-type alleles for ADR2 (the ADH II structural locus) and for ADR1 (its positive regulatory gene) were pulse-labeled with [35S]methionine during derepression, radioactive label accumulated in the antibody-precipitated ADHII coterminously with the appearance of ADHII activity. The kinetics of functional ADHII mRNA appearance during derepression in this strain were shown to be the same as those for ADHII protein synthesis in vivo when RNA, extracted from derepressed cells, was translated in a wheat germ cell-free translation system.The role of the positive regulatory gene, ADR1, in ADHII expression was analyzed using two strains mutated at that locus. Yeast containing the adr1-1 allele are incapable of derepressing ADHII activity. When this strain was pulselabeled with [35S]methionine during derepression, approximately one-tenth to one-twentieth the level of ADHII protein synthesis was detected as in the wild-type strain. When RNA was extracted during derepression from cells containing the udr1-1 allele and translated in a wheat germ cell-free system, little functional ADHII mRNA was found to be present.The role of the ADR1 gene was further analyzed using a strain containing the ADR1-5c allele, which allows constitutive synthesis of ADHII activity. In this strain during glucose repression. ADHII protein synthesis and amount of functional mRNA were at levels comparable to those found for the wild-type strain after complete derepression. Similar kinetics of ADHII protein synthesis and of mRNA accumulation during derepression were observed in the strain carrying the ADR1-5c allele when compared to that carrying the ADR1 allele, but the absolute amounts were greater by three- to fourfold in cells containing the ADR1-5c allele. These results indicate that the ADR1 gene acts to increase the level of functional ADHII mRNA during derepression.  相似文献   

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L. Karnitz  M. Morrison    E. T. Young 《Genetics》1992,132(2):351-359
Using a new selection protocol we have identified and preliminarily characterized three new loci (ADR7, ADR8 and ADR9) which affect ADH2 (alcohol dehydrogenase isozyme II) expression. Mutants were selected which activate ADH2 expression in the presence of an over-expressed, normally inactive ADR1 allele. The mutants had very similar phenotypes with the exception that one was temperature sensitive for growth. In the absence of any ADR1 allele, the mutants allowed ADH2 to partially escape glucose repression. However, unlike wildtype strains deleted for ADR1, the mutants were able to efficiently derepress ADH2. The mutations allowed a small escape from glucose repression for secreted invertase, but had no effect on the glucose repression of isocitrate lyase or malate dehydrogenase. The mutations were shown to be nonallelic to a wide variety of previously characterized mutations, including mutations that affect other glucose-repressed enzymes.  相似文献   

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