Characterization of the DNA Target Site for the Yeast ARGR Regulatory Complex, A Sequence Able to Mediate Repression or Induction by Arginine

UME6 is a protein of 836 amino acids from Saccharomyces cerevisiae that acts as a repressor and activator of several early meiotic genes. UME6 contains, near the C-terminus, the amino acid sequence "7'c-x~-c-x6-c-x6-C-X,-C-X,-C-, in which the spacings of the six Cys residues are identical to those found in 39 N-terminal Cysrich DNA binding subdomains of fungal transcription factors. This sequence has been shown in GAL4 and other proteins to form a zinc binuclear. cluster. In spite of the different location, the C-rich sequence, cloned and overproduced within the last 11 1 amino acid residues of UME6, UME6(11 I), forms a binuclear cluster and exhibits a Zn-dependent binding to the URSl DNA sequence. The latter, TAGCCGCCGA, is required for the repression or activation of meiosis-specific genes by UME6. UME6(111) contains 1.8 k 0.4 mol Zn/mol protein and the Zn can be exchanged for Cd to yield a protein containing 1.9 k 0.1 mol Cd/mol protein.At 5 "C, 1'3Cd2UME6(l 11)shows two Il3Cd NMR signals, with chemical shifts of 699 and 689 ppm, similar to those observed for "3CdzGAL4(149). The magnitude of these chemical shifts suggests that each 'I3Cd nucleus is coordinated to four -S-ligands, compatible with a II3Cdz cluster structure in which two thiolates form bridging ligands. The entire UME6 gene has been cloned and overexpressed and binds more tightly to the URSl sequence than the zinc binuclear cluster domain alone. DNase 1 footprints of UME6 on URS1-containing DNA show that the protein protects the phosphodiesters of the 5'-CCGCCG-3' region within the URSl sequence.

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UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn₂Cys₆binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

Anderson

Steber

Esposito

et al. 1995

Protein Sci.

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Purification and binding properties of the Mal63p activator of Saccharomyces cerevisiae

Sirenko

Needleman

1995

Curr Genet

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Mal63p is a transcriptional activator for maltose fermentation in Saccharomyces cerevisiae. We have purified it to homogeneity from a yeast strain in which the MAL63 gene is under the control of the GAL1-GAL10 promoter. Purification included fractionation of a whole-cell extract by ion-exchange chromatography, chromatography using both non-specific DNA-affinity (calf thymus), and sequence-specific DNA-affinity chromatography. Mal63p activity was assayed by its binding to a fragment of the MAL61-MAL62 promoter, using both filter-binding and electrophoretic-mobility shift assays. DNase-I footprinting identified a new binding site (site 3) between the two previously known sites (sites 1 and 2). Mal63p is a dimer, and methylation-protection experiments identify the recognition motif as: c/a GC N9 c/a GC/g.

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PDR3, a new yeast regulatory gene, is homologous toPDR1 and controls the multidrug resistance phenomenon

Delaveau¹,

Delahodde²,

et al. 1994

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The Saccharomyces cerevisiae PDR3 gene, located near the centromere of chromosome II, has been completely sequenced and characterised. Mutations pdr3-1 and pdr3-2, which confer resistance to several antibiotics can be complemented by a wild-type allele of the PDR3 gene. The sequence of the wild-type PDR3 gene revealed the presence of a long open reading frame capable of encoding a 976-amino acid protein. The protein contains a single Zn(II)2Cys6 binuclear-type zinc finger homologous to the DNA-binding motifs of other transcriptional activators from lower eukaryotes. Evidence that the PDR3 protein is a transcriptional activator was provided by demonstrating that DNA-bound LexA-PDR3 fusion proteins stimulate expression of a nearby promoter containing LexA binding sites. The use of LexA-PDR3 fusions revealed that the protein contains two activation domains, one localised near the N-terminal, cysteine-rich domain and the other localised at the C-terminus. The salient feature of the PDR3 protein is its similarity to the protein coded by PDR1, a gene responsible for pleiotropic drug resistance. The two proteins show 36% amino acid identity over their entire length and their zinc finger DNA-binding domains are highly conserved. The fact that the absence of both PDR1 and PDR3 (simultaneous disruption of the two genes) enhances multidrug sensitivity strongly suggests that the two transcriptional factors have closely related functions.

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Characterization of the DNA Target Site for the Yeast ARGR Regulatory Complex, A Sequence Able to Mediate Repression or Induction by Arginine

Cited by 21 publications

References 69 publications

UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn₂Cys₆binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn₂Cys₆binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

Purification and binding properties of the Mal63p activator of Saccharomyces cerevisiae

PDR3, a new yeast regulatory gene, is homologous toPDR1 and controls the multidrug resistance phenomenon

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Characterization of the DNA Target Site for the Yeast ARGR Regulatory Complex, A Sequence Able to Mediate Repression or Induction by Arginine

Cited by 21 publications

References 69 publications

UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn2Cys6binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn2Cys6binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

Purification and binding properties of the Mal63p activator of Saccharomyces cerevisiae

PDR3, a new yeast regulatory gene, is homologous toPDR1 and controls the multidrug resistance phenomenon

Contact Info

Product

Resources

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UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn₂Cys₆binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner

UME6, a negative regulator of meiosis insaccharomyces cerevisiae, contains a C-terminal Zn₂Cys₆binuclear cluster that binds the URS1 DNA sequence in a zinc-dependent manner