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Undecaprenyl phosphate translocases confer conditional microbial fitness

Members of the DUF368-containing and DedA transmembrane protein families have conditional roles in undecaprenyl phosphate translocation in Gram-negative and Gram-positive bacteria and may have a widely conserved function in the biogenesis of microbial cell surface glycopolymers.

Brandon Sit
Veerasak Srisuknimit
Matthew K. Waldor
ResearchOpen Access30 Nov 2022
Nature

Volume: 613, P: 721-728
Lipid II overproduction allows direct assay of transpeptidase inhibition by β-lactams

The isolation of Lipid II, accumulated as a result of chemical probe treatment, enables the reconstitution of crosslinked peptidoglycan biosynthesis and a direct transpeptidase assay for PBP2 inhibition by β-lactams.

Yuan Qiao
Veerasak Srisuknimit
Daniel Kahne
Research29 May 2017
Nature Chemical Biology

Volume: 13, P: 793-798
A tRNA modification with aminovaleramide facilitates AUA decoding in protein synthesis

A tRNA modification, named 2-aminovaleramididine (ava²C), has been discovered in plant organelles and bacteria. Structural analysis shows specific codon recognition by this modification, highlighting the evolutionary diversity of the essential tRNA modifications.

Kenjyo Miyauchi
Satoshi Kimura
Tsutomu Suzuki
ResearchOpen Access19 Sept 2024
Nature Chemical Biology

Volume: 21, P: 522-531
Sequential action of a tRNA base editor in conversion of cytidine to pseudouridine

C-to-Ψ conversion is a previously uncharacterized form of base editing. Here, the authors describe how the TrcP enzyme catalyzes this process in a stepwise fashion and how this editing process is controlled by a network of modifications and nutrient availability to optimize translation efficiency.

Satoshi Kimura
Veerasak Srisuknimit
Matthew K. Waldor
ResearchOpen Access11 Oct 2022
Nature Communications

Volume: 13, P: 1-15
Genome-wide mutant profiling predicts the mechanism of a Lipid II binding antibiotic

Use of a combined Tn-seq and machine-learning approach for predicting mechanisms and targets of antibiotic action in Staphylococcus aureus shows that the natural product lysocin E (LysE) binds Lipid II on the cell surface and damages the membrane.

Marina Santiago
Wonsik Lee
Suzanne Walker
Research16 Apr 2018
Nature Chemical Biology

Volume: 14, P: 601-608
Structure of the peptidoglycan polymerase RodA resolved by evolutionary coupling analysis

Evolutionary coupling-enabled molecular replacement determination of the structure of Thermus thermophilus RodA reveals a highly conserved cavity in its transmembrane domain, and mutagenesis experiments in Bacillus subtilis and Escherichia coli show that perturbation of this cavity abolishes RodA function.

Megan Sjodt
Kelly Brock
Andrew C. Kruse
Research28 Mar 2018
Nature

Volume: 556, P: 118-121

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Undecaprenyl phosphate translocases confer conditional microbial fitness

Lipid II overproduction allows direct assay of transpeptidase inhibition by β-lactams

A tRNA modification with aminovaleramide facilitates AUA decoding in protein synthesis

Sequential action of a tRNA base editor in conversion of cytidine to pseudouridine

Genome-wide mutant profiling predicts the mechanism of a Lipid II binding antibiotic

Structure of the peptidoglycan polymerase RodA resolved by evolutionary coupling analysis

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