Neal Mathias scite author profile

The RUB1/NEDD-8 family of ubiquitin-related genes is widely represented among eukaryotes. Here we report that Cdc53p in Saccharomyces cerevisiae, a member of the Cullin family of proteins, is stably modified by the covalent attachment of a single Rub1p molecule. Two genes have been identified that are required for Rub1p conjugation to Cdc53p. The first gene, designated ENR2, encodes a protein with sequence similarity to the amino-terminal half of the ubiquitin-activating enzyme. By analogy with Aos1p, we infer that Enr2p functions in a bipartite Rub1p-activating enzyme. The second gene is SKP1, shown previously to be required for some ubiquitin-conjugation events. A deletion allele of ENR2 is lethal with temperature-sensitive alleles of cdc34 and enhances the phenotypes of cdc4, cdc53, and skp1, strongly implying that Rub1p conjugation to Cdc53p is required for optimal assembly or function of the E3 complex SCF Cdc4. Consistent with this model, both enr2⌬ and an allele of Cdc53p that is not Rub1p modified, render cells sensitive to alterations in the levels of Cdc4p, Cdc34p, and Cdc53p.

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Cdc53 Targets Phosphorylated G1 Cyclins for Degradation by the Ubiquitin Proteolytic Pathway

Willems

Lanker

Patton

et al. 1996

Cell

283

278

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In budding yeast, cell division is initiated in late G1 phase once the Cdc28 cyclin-dependent kinase is activated by the G1 cyclins Cln1, Cln2, and Cln3. The extreme instability of the Cln proteins couples environmental signals, which regulate Cln synthesis, to cell division. We isolated Cdc53 as a Cln2-associated protein and show that Cdc53 is required for Cln2 instability and ubiquitination in vivo. The Cln2-Cdc53 interaction, Cln2 ubiquitination, and Cln2 instability all depend on phosphorylation of Cln2. Cdc53 also binds the E2 ubiquitin-conjugating enzyme, Cdc34. These findings suggest that Cdc53 is a component of a ubiquitin-protein ligase complex that targets phosphorylated G1 cyclins for degradation by the ubiquitin-proteasome pathway.

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Highly informative compound haplotypes for the human Y chromosome

Mathias

Bayés

Tyler‐Smith

1994

Human Molecular Genetics

191

184

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A collection of polymorphic DNA sequences has been used to analyse the variability of a panel of 91 Y chromosomes. Some sequences (DYZ1 and DYZ2) were highly polymorphic and allowed all of the chromosomes to be distinguished. Other sequences were less polymorphic and were used to construct a haplotype for each chromosome and to assign chromosomes to groups. The best understood of these loci could be used to construct a tree showing the evolutionary relationships between the groups of Y chromosomes. In general, Y chromosomes from different ethnic backgrounds belong to different groups.

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Cdc53p Acts in Concert with Cdc4p and Cdc34p To Control the G₁-to-S-Phase Transition and Identifies a Conserved Family of Proteins

Mathias

Johnson

Winey

et al. 1996

Molecular and Cellular Biology

190

175

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Regulation of cell cycle progression occurs in part through the targeted degradation of both activating and inhibitory subunits of the cyclin-dependent kinases. During G 1 , CDC4, encoding a WD-40 repeat protein, and CDC34, encoding a ubiquitin-conjugating enzyme, are involved in the destruction of these regulators. Here we describe evidence indicating that CDC53 also is involved in this process. Mutations in CDC53 cause a phenotype indistinguishable from those of cdc4 and cdc34 mutations, numerous genetic interactions are seen between these genes, and the encoded proteins are found physically associated in vivo. Cdc53p defines a large family of proteins found in yeasts, nematodes, and humans whose molecular functions are uncharacterized. These results suggest a role for this family of proteins in regulating cell cycle proliferation through protein degradation.

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α-Synuclein Targets the Plasma Membrane via the Secretory Pathway and Induces Toxicity in Yeast

et al. 2005

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A pathological feature of Parkinson's disease is the presence of Lewy bodies within selectively vulnerable neurons. These are ubiquitinated cytoplasmic inclusions containing ␣-synuclein, an abundant protein normally associated with presynaptic terminals. Point mutations in the ␣-synuclein gene (A30P and A53T), as well as triplication of the wild-type (WT) locus, have been linked to autosomal dominant Parkinson's. How these alterations might contribute to disease progression is unclear. Using the genetically tractable yeast Saccharomyces cerevisiae as a model system, we find that both the WT and the A53T isoforms of ␣-synuclein initially localize to the plasma membrane, to which they are delivered via the classical secretory pathway. In contrast, the A30P mutant protein disperses within the cytoplasm and does not associate with the plasma membrane, and its intracellular distribution is unaffected by mutations in the secretory pathway. When their expression is elevated, WT and A53T, but not A30P, are toxic to cells. At moderate levels of expression, WT and A53T induce the cellular stress (heat-shock) response and are toxic to cells bearing mutations in the 20S proteasome. Our results reveal a link between plasma membrane targeting of ␣-synuclein and its toxicity in yeast and suggest a role for the quality control (QC) system in the cell's effort to deal with this natively unfolded protein.

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Neal Mathias

Modification of yeast Cdc53p by the ubiquitin-related protein Rub1p affects function of the SCFCdc4 complex

Cdc53 Targets Phosphorylated G1 Cyclins for Degradation by the Ubiquitin Proteolytic Pathway

Highly informative compound haplotypes for the human Y chromosome

Cdc53p Acts in Concert with Cdc4p and Cdc34p To Control the G₁-to-S-Phase Transition and Identifies a Conserved Family of Proteins

α-Synuclein Targets the Plasma Membrane via the Secretory Pathway and Induces Toxicity in Yeast

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Neal Mathias

Modification of yeast Cdc53p by the ubiquitin-related protein Rub1p affects function of the SCFCdc4 complex

Cdc53 Targets Phosphorylated G1 Cyclins for Degradation by the Ubiquitin Proteolytic Pathway

Highly informative compound haplotypes for the human Y chromosome

Cdc53p Acts in Concert with Cdc4p and Cdc34p To Control the G1-to-S-Phase Transition and Identifies a Conserved Family of Proteins

α-Synuclein Targets the Plasma Membrane via the Secretory Pathway and Induces Toxicity in Yeast

Contact Info

Product

Resources

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Cdc53p Acts in Concert with Cdc4p and Cdc34p To Control the G₁-to-S-Phase Transition and Identifies a Conserved Family of Proteins