Interactions of the N-terminal Domain of Ribosomal Protein L11 with Thiostrepton and rRNA

Bausch, Sarae L.; Полякова, Е. П.; Draper, David E.

doi:10.1074/jbc.m504182200

Cited by 30 publications

(39 citation statements)

References 53 publications

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“…TclQ is a homolog of 50S ribosomal protein L11, which is located near the ribosomal GTPase center (32,33) and is known to be involved in the mechanism of action of MP1 (9). We hypothesized that TclQ confers immunity by replacing native L11 to protect ribosomes from MP1.…”

Section: Resultsmentioning

confidence: 99%

Characterization of a Novel Plasmid-Borne Thiopeptide Gene Cluster in Staphylococcus epidermidis Strain 115

et al. 2014

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bThiopeptides are small (12-to 17-amino-acid), heavily modified peptides of bacterial origin. This antibiotic family, with more than 100 known members, is characterized by the presence of sulfur-containing heterocyclic rings and dehydrated residues within a macrocyclic peptide structure. Thiopeptides, including micrococcin P1, have garnered significant attention in recent years for their potent antimicrobial activity against bacteria, fungi, and even protozoa. Micrococcin P1 is known to target the ribosome; however, like those of other thiopeptides, its biosynthesis and mechanisms of self-immunity are poorly characterized. We have discovered an isolate of Staphylococcus epidermidis harboring the genes for thiopeptide production and self-protection on a 24-kb plasmid. Here we report the characterization of this plasmid, identify the antimicrobial peptide that it encodes, and provide evidence of a target replacement-mediated mechanism of self-immunity.

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Section: Resultsmentioning

confidence: 99%

Characterization of a Novel Plasmid-Borne Thiopeptide Gene Cluster in Staphylococcus epidermidis Strain 115

et al. 2014

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“…[24] The K D determined for thiostrepton (1) under homogenous equilibrium conditions with T. thermophilus L11 refines earlier nm estimates. [7,21,22] Nosiheptide (2) was found to bind twice as tightly as thiostrepton (1), whereas micrococcin (3) is an order of magnitude weaker.…”

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confidence: 98%

A Fluorescent Probe for the 70 S‐Ribosomal GTPase‐Associated Center

et al. 2009

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“…Unexpectedly, during the yield optimization process, we observed a distinct minor product (2′), which appeared with the major product 1′ on day 2 but disappeared over the following fermentation period ( We then scaled up the 4′-supplemented fermentation of SL1102 and accumulated a sufficient quantity of 2′ for structural elucidation. Consequently, 1D, 2D, and 19 F NMR analyses of the extract from 500 L of the culture broth confirmed the identity of 2′ to 6′-fluoro-7′, 8′-epoxy-TSR (SI Appendix, Fig. S6), which possesses a thiopeptide framework that is identical to that of 1′ in amino acid composition and modification as well as 6′-fluoro-QA attachment (Fig.…”

Section: Resultsmentioning

confidence: 89%

“…The mechanism by which QA is incorporated to construct the side-ring system of TSR remains poorly understood (17). Unlike current clinically used chemotherapeutics that target the bacterial ribosome (18), many thiopeptides, including TSR, display potent activity against various drugresistant pathogens by perturbing translation factor binding and subsequent protein synthesis, largely upon the occupation of the common thiopeptide framework within a cleft located between the L11 protein and the 23S rRNA of the large ribosomal subunit (19). Although a total of only 14% of the surface…”

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confidence: 99%

An α/β-hydrolase fold protein in the biosynthesis of thiostrepton exhibits a dual activity for endopeptidyl hydrolysis and epoxide ring opening/macrocyclization

Zheng

Wang

Duan

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Thiostrepton (TSR), an archetypal bimacrocyclic thiopeptide antibiotic that arises from complex posttranslational modifications of a genetically encoded precursor peptide, possesses a quinaldic acid (QA) moiety within the side-ring system of a thiopeptide-characteristic framework. Focusing on selective engineering of the QA moiety, i.e., by fluorination or methylation, we have recently designed and biosynthesized biologically more active TSR analogs. Using these analogs as chemical probes, we uncovered an unusual indirect mechanism of TSR-type thiopeptides, which are able to act against intracellular pathogens through host autophagy induction in addition to direct targeting of bacterial ribosome. Herein, we report the accumulation of 6′-fluoro-7′, 8′-epoxy-TSR, a key intermediate in the preparation of the analog 6′-fluoro-TSR. This unexpected finding led to unveiling of the TSR maturation process, which involves an unusual dual activity of TsrI, an α/β-hydrolase fold protein, for cascade C-N bond cleavage and formation during side-ring system construction. These two functions of TsrI rely on the same catalytic triad, Ser72-His200-Asp191, which first mediates endopeptidyl hydrolysis that occurs selectively between the residues Met-1 and Ile1 for removal of the leader peptide and then triggers epoxide ring opening for closure of the QA-containing side-ring system in a regio- and stereo-specific manner. The former reaction likely requires the formation of an acyl-Ser72 enzyme intermediate; in contrast, the latter is independent of Ser72. Consequently, C-6′ fluorination of QA lowers the reactivity of the epoxide intermediate and, thereby, allows the dissection of the TsrI-associated enzymatic process that proceeds rapidly and typically is difficult to be realized during TSR biosynthesis.

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Interactions of the N-terminal Domain of Ribosomal Protein L11 with Thiostrepton and rRNA

Cited by 30 publications

References 53 publications

Characterization of a Novel Plasmid-Borne Thiopeptide Gene Cluster in Staphylococcus epidermidis Strain 115

Characterization of a Novel Plasmid-Borne Thiopeptide Gene Cluster in Staphylococcus epidermidis Strain 115

A Fluorescent Probe for the 70 S‐Ribosomal GTPase‐Associated Center

An α/β-hydrolase fold protein in the biosynthesis of thiostrepton exhibits a dual activity for endopeptidyl hydrolysis and epoxide ring opening/macrocyclization

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