Candice Carlile scite author profile

Lys63-linked polyubiquitin chains participate in nonproteolytic signaling pathways, including regulation of DNA damage tolerance and NF-kappaB activation. E2 enzymes bound to ubiquitin E2 variants (UEV) are vital in these pathways, synthesizing Lys63-linked polyubiquitin chains, but how these complexes achieve specificity for a particular lysine linkage has been unclear. We have determined the crystal structure of an Mms2-Ubc13-ubiquitin (UEV-E2-Ub) covalent intermediate with donor ubiquitin linked to the active site residue of Ubc13. In the structure, the unexpected binding of a donor ubiquitin of one Mms2-Ubc13-Ub complex to the acceptor-binding site of Mms2-Ubc13 in an adjacent complex allows us to visualize at atomic resolution the molecular determinants of acceptor-ubiquitin binding. The structure reveals the key role of Mms2 in allowing selective insertion of Lys63 into the Ubc13 active site and suggests a molecular model for polyubiquitin chain elongation.

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Prm1 Prevents Contact-Dependent Lysis of Yeast Mating Pairs

Jin

Carlile

Nolan

et al. 2004

Eukaryot Cell

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Membrane fusion requires localized destabilization of two phospholipid bilayers, but unrestrained membrane destabilization could result in lysis. prm1 mutant yeast cells have a defect at the plasma membrane fusion stage of mating that typically results in the accumulation of prezygotes that have fingers of membranebound cytoplasm projecting from one cell of each pair into its mating partner in the direction of the osmotic gradient between the cells. However, some prm1 mating pairs fuse successfully whereas the two cells in other prm1 mating pairs simultaneously lyse. Lysis only occurs if both mating partners are prm1 mutants. Osmotic stabilization does not protect prm1 mating pairs from lysis, indicating that lysis is not caused by a cell wall defect. prm1 mating pairs without functional mitochondria still lyse, ruling out programmed cell death. No excess lysis was found after pheromone treatment of haploid prm1 cells, and lysis did not occur in mating pairs when prm1 was combined with the fus1 and fus2 mutations to block cell wall remodeling. Furthermore, short (<1 m) cytoplasmic microfingers indicating the completion of cell wall remodeling appeared immediately before lysis. In combination, these results demonstrate that plasma membrane contact is a prerequisite for lysis. Cytoplasmic microfingers are unlikely to cause lysis since most prm1 mating pairs with microfingers do not lyse, and microfingers were also detected before fusion in some wild-type mating pairs. The lysis of prm1 mutant mating pairs suggests that the Prm1 protein stabilizes the membrane fusion event of yeast mating.

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Synthesis of Free and Proliferating Cell Nuclear Antigen-bound Polyubiquitin Chains by the RING E3 Ubiquitin Ligase Rad5

Carlile

Pickart

Matunis

et al. 2009

Journal of Biological Chemistry

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In replicating yeast, lysine 63-linked polyubiquitin (polyUb) chains are extended from the ubiquitin moiety of monoubiquitinated proliferating cell nuclear antigen (monoUb-PCNA) by the E2-E3 complex of (Ubc13-Mms2)-Rad5. This promotes errorfree bypass of DNA damage lesions. The unusual ability of Ubc13-Mms2 to synthesize unanchored Lys 63 -linked polyUb chains in vitro allowed us to resolve the individual roles that it and Rad5 play in the catalysis and specificity of PCNA polyubiquitination. We found that Rad5 stimulates the synthesis of free polyUb chains by Ubc13-Mms2 in part by enhancing the reactivity of the Ubc13ϳUb thiolester bond. Polyubiquitination of monoUb-PCNA was further enhanced by interactions between the N-terminal domain of Rad5 and PCNA. Thus, Rad5 acts both to align monoUb-PCNA with Ub-charged Ubc13 and to stimulate Ub transfer onto Lys 63 of a Ub acceptor. We also found that Rad5 interacts with PCNA independently of the number of monoubiquitinated subunits in the trimer and that it binds to both unmodified and monoUb-PCNA with similar affinities. These findings indicate that Rad5-mediated recognition of monoUb-PCNA in vivo is likely to depend upon interactions with additional factors at stalled replication forks.DNA is susceptible to chemical alteration by many endogenous and exogenous agents. To counter this threat and maintain genome integrity, eukaryotic cells employ three main strategies: DNA repair pathways that directly reverse DNA damage, cell cycle checkpoints that allow time to repair the damage prior to replication, and DNA damage tolerance (DDT), 2 which is a method of bypassing DNA damage lesions during the DNA replication phase of the cell cycle.Proliferating cell nuclear antigen (PCNA) is a key regulatory protein in DNA replication and repair (1). At the replication fork, DNA is encircled by PCNA, a homotrimeric protein that promotes processive movement of the replicative DNA polymerase. Upon DNA damage and subsequent stalling of the replicative polymerase, Ub modifications of PCNA signal DDT, which allows a cell to bypass the lesion and proceed past this potential block in replication (2-4).In the DDT pathway, as in other Ub-dependent pathways, Ub is conjugated to a substrate by the actions of three enzymes, an E1 activating enzyme, an E2 conjugating enzyme, and an E3 ligase (5). The E1 enzyme initiates the pathway in a two-step reaction that utilizes ATP hydrolysis to activate the C terminus of Ub, culminating in the formation of an E1ϳUb thiolester. Subsequent transthiolation to the active site cysteine of the E2 generates an E2ϳUb thiolester. An E3 ligase then brings a substrate into close proximity to the E2ϳUb intermediate, thereby catalyzing the formation of an isopeptide bond between the amino group of a substrate lysine and the C-terminal glycine of Ub. Polyubiquitination occurs when this substrate is another Ub, either free or as part of a Ub-protein conjugate.The DDT pathway is characterized by distinct ubiquitination events on PCNA that occur in two stages (3,4,6). T...

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Candice Carlile

Mms2–Ubc13 covalently bound to ubiquitin reveals the structural basis of linkage-specific polyubiquitin chain formation

Prm1 Prevents Contact-Dependent Lysis of Yeast Mating Pairs

Synthesis of Free and Proliferating Cell Nuclear Antigen-bound Polyubiquitin Chains by the RING E3 Ubiquitin Ligase Rad5

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