Itay Levin scite author profile

Gram-negative bacteria deliver a cadre of virulence factors directly into the cytoplasm of eukaryotic host cells to promote pathogenesis and/or commensalism. Recently, families of virulence proteins have been recognized that function as E3 Ubiquitin-ligases. How these bacterial ligases integrate into the ubiquitin (Ub) signaling pathways of the host and how they differ functionally from endogenous eukaryotic E3s is not known. Here we show that the bacterial E3 SspH2 from S. typhimurium selectively binds the human UbcH5 ∼ Ub conjugate recognizing regions of both UbcH5 and Ub subunits. The surface of the E2 UbcH5 involved in this interaction differs substantially from that defined for other E2/E3 complexes involving eukaryotic E3-ligases. In vitro, SspH2 directs the synthesis of K48-linked poly-Ub chains, suggesting that cellular protein targets of SspH2-catalyzed Ub transfer are destined for proteasomal destruction. Unexpectedly, we found that intermediates in SspH2-directed reactions are activated poly-Ub chains directly tethered to the UbcH5 active site (UbcH5 ∼ Ub n ). Rapid generation of UbcH5 ∼ Ub n may allow for bacterially directed modification of eukaryotic target proteins with a completed poly-Ub chain, efficiently tagging host targets for destruction.

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FolM, A New Chromosomally Encoded Dihydrofolate Reductase in Escherichia coli

Giladi

Altman-Price

Levin

et al. 2003

J Bacteriol

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An alternative pathway for reduced folate biosynthesis in bacteria and halophilic archaea

Levin¹,

Giladi²,

Altman-Price³

et al. 2004

Molecular Microbiology

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Whereas tetrahydrofolate is an essential cofactor in all bacteria, the gene that encodes the enzyme dihydrofolate reductase (DHFR) could not be identified in many of the bacteria whose genomes have been entirely sequenced. In this communication we show that the halophilic archaea Halobacterium salinarum and Haloarcula marismortui contain genes coding for proteins with an N-terminal domain homologous to dihydrofolate synthase (FolC) and a C-terminal domain homologous to dihydropteroate synthase (FolP). These genes are able to complement a Haloferax volcanii mutant that lacks DHFR. We also show that the Helicobacter pylori dihydropteroate synthase can complement an Escherichia coli mutant that lacks DHFR. Activity resides in an N-terminal segment that is homologous to the polypeptide linker that connects the dihydrofolate synthase and dihydropteroate synthase domains in the haloarchaeal enzymes. The purified recombinant H. pylori dihydropteroate synthase was found to be a flavoprotein.

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A Salmonella typhimurium-translocated Glycerophospholipid:Cholesterol Acyltransferase Promotes Virulence by Binding to the RhoA Protein Switch Regions

LaRock

Brzović

Levin

et al. 2012

Journal of Biological Chemistry

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Evolution in Microfluidic Droplet

Levin

Aharoni

2012

Chemistry & Biology

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High-throughput screening (HTS) of enzymatic activity is important for directed evolution-based enzyme engineering. However, substrate and product diffusion can severely compromise these HTS assays. In this issue of Chemistry & Biology, Kintses and coworkers describe a microfluidic platform for the directed evolution of enzymes in droplets that allows for the screening of 10(7) mutants per round of evolution.

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Itay Levin

Identification of an unconventional E3 binding surface on the UbcH5 ∼ Ub conjugate recognized by a pathogenic bacterial E3 ligase.

FolM, A New Chromosomally Encoded Dihydrofolate Reductase in Escherichia coli

An alternative pathway for reduced folate biosynthesis in bacteria and halophilic archaea

A Salmonella typhimurium-translocated Glycerophospholipid:Cholesterol Acyltransferase Promotes Virulence by Binding to the RhoA Protein Switch Regions

Evolution in Microfluidic Droplet

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