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1. Variable Inhibition of DNA Unwinding Rates Catalyzed by the SARS-CoV-2 Helicase Nsp13 by Structurally Distinct Single DNA Lesions.

2. A Repurposed Drug Interferes with Nucleic Acid to Inhibit the Dual Activities of Coronavirus Nsp13.

3. Bacterial J-Domains with C-Terminal Tags Contact the Substrate Binding Domain of DnaK and Sequester Chaperone Activity.

4. Counteracting antibiotic resistance enzymes and efflux pumps.

5. Peptide-based molecules for the disruption of bacterial Hsp70 chaperones.

6. Preference of Bacterial Rhamnosyltransferases for 6-Deoxysugars Reveals a Strategy To Deplete O-Antigens.

7. Feedback Inhibition of Bacterial Nucleotidyltransferases by Rare Nucleotide l-Sugars Restricts Substrate Promiscuity.

8. Expanding the Substrate Scope of a Bacterial Nucleotidyltransferase via Allosteric Mutations.

9. An allosteric inhibitor of bacterial Hsp70 chaperone potentiates antibiotics and mitigates resistance.

10. Protein Cofactor Mimics Disrupt Essential Chaperone Function in Stressed Mycobacteria.

11. Complementary protocols to evaluate inhibitors against the DnaK chaperone network.

12. Chemical Biology Tools for Modulating and Visualizing Gram-Negative Bacterial Surface Polysaccharides.

13. Modulation of a Mycobacterial ADP-Ribosyltransferase to Augment Rifamycin Antibiotic Resistance.

14. Nonredundant functions of Mycobacterium tuberculosis chaperones promote survival under stress.

15. Activity-Based Protein Profiling Reveals That Cephalosporins Selectively Active on Non-replicating Mycobacterium tuberculosis Bind Multiple Protein Families and Spare Peptidoglycan Transpeptidases.

16. Exploiting Existing Molecular Scaffolds for Long-Term COVID Treatment.

17. ATP hydrolysis-coupled peptide translocation mechanism of Mycobacterium tuberculosis ClpB.

18. Targeting the Proteostasis Network for Mycobacterial Drug Discovery.

19. Reconstitution of a Mycobacterium tuberculosis proteostasis network highlights essential cofactor interactions with chaperone DnaK.

20. Cofactor bypass variants reveal a conformational control mechanism governing cell wall polymerase activity.

21. Reconstitution of peptidoglycan cross-linking leads to improved fluorescent probes of cell wall synthesis.

22. Lipoprotein activators stimulate Escherichia coli penicillin-binding proteins by different mechanisms.

23. Forming cross-linked peptidoglycan from synthetic gram-negative Lipid II.

24. Non-proteinogenic amino acids in lacticin 481 analogues result in more potent inhibition of peptidoglycan transglycosylation.

25. Haloduracin α binds the peptidoglycan precursor lipid II with 2:1 stoichiometry.

26. Transpeptidase-mediated incorporation of D-amino acids into bacterial peptidoglycan.

27. Primer preactivation of peptidoglycan polymerases.

28. Lipoprotein cofactors located in the outer membrane activate bacterial cell wall polymerases.

29. Studying a cell division amidase using defined peptidoglycan substrates.

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