4ok7 Citations

Structure of bacteriophage SPN1S endolysin reveals an unusual two-module fold for the peptidoglycan lytic and binding activity.

Park Y, Lim JA, Kong M, Ryu S, Rhee S
Mol Microbiol 92 316-25 (2014)
Cited: 15 times
EuropePMC logo PMID: 24641441

Abstract

Bacteriophage SPN1S infects the pathogenic Gram-negative bacterium Salmonella typhimurium and expresses endolysin for the release of phage progeny by degrading peptidoglycan of the host cell walls. Bacteriophage SPN1S endolysin exhibits high glycosidase activity against peptidoglycans, resulting in antimicrobial activity against a broad range of outer membrane-permeabilized Gram-negative bacteria. Here, we report a crystal structure of SPN1S endolysin, indicating that unlike most endolysins from Gram-negative bacteria background, the α-helical protein consists of two modular domains, a large and a small domain, with a concave groove between them. Comparison with other structurally homologous glycoside hydrolases indicated a possible peptidoglycan binding site in the groove, and the presence of a catalytic dyad in the vicinity of the groove, one residue in a large domain and the other in a junction between the two domains. The catalytic dyad was further validated by antimicrobial activity assay against outer membrane-permeabilized Escherichia coli. The three-helix bundle in the small domain containing a novel class of sequence motif exhibited binding affinity against outer membrane-permeabilized E. coli and was therefore proposed as the peptidoglycan-binding domain. These structural and functional features suggest that endolysin from a Gram-negative bacterial background has peptidoglycan-binding activity and performs glycoside hydrolase activity through the catalytic dyad.

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  3. Genomic Analysis of a Novel Phage Infecting the Turkey Pathogen Escherichia coli APEC O78 and Its Endolysin Activity. Deng S, Xu Q, Fu Y, Liang L, Wu Y, Peng F, Gao M. Viruses 13 1034 (2021)
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Reviews citing this publication (5)

  1. Breaking barriers: expansion of the use of endolysins as novel antibacterials against Gram-negative bacteria. Briers Y, Lavigne R. Future Microbiol 10 377-390 (2015)
  2. Bacteriophage endolysins: applications for food safety. Schmelcher M, Loessner MJ. Curr Opin Biotechnol 37 76-87 (2016)
  3. Catalytic diversity and cell wall binding repeats in the phage-encoded endolysins. Broendum SS, Buckle AM, McGowan S. Mol Microbiol 110 879-896 (2018)
  4. Carbohydrate recognition and lysis by bacterial peptidoglycan hydrolases. Alcorlo M, Martínez-Caballero S, Molina R, Hermoso JA. Curr Opin Struct Biol 44 87-100 (2017)
  5. A comprehensive review of the applications of bacteriophage-derived endolysins for foodborne bacterial pathogens and food safety: recent advances, challenges, and future perspective. Khan FM, Chen JH, Zhang R, Liu B. Front Microbiol 14 1259210 (2023)

Articles citing this publication (4)

  1. Modular endolysin of Burkholderia AP3 phage has the largest lysozyme-like catalytic subunit discovered to date and no catalytic aspartate residue. Maciejewska B, Źrubek K, Espaillat A, Wiśniewska M, Rembacz KP, Cava F, Dubin G, Drulis-Kawa Z. Sci Rep 7 14501 (2017)
  2. The Holin-Endolysin Lysis System of the OP2-Like Phage X2 Infecting Xanthomonas oryzae pv. oryzae. Wu Z, Zhang Y, Xu X, Ahmed T, Yang Y, Loh B, Leptihn S, Yan C, Chen J, Li B. Viruses 13 1949 (2021)
  3. Letter Dissecting the structure-function relationship in lysozyme domain of mycobacteriophage D29-encoded peptidoglycan hydrolase. Joshi H, Seniya SP, Suryanarayanan V, Patidar ND, Singh SK, Jain V. FEBS Lett 591 3276-3287 (2017)
  4. Development of a Magnetic Bead-Based Method for Specific Detection of Enterococcus faecalis Using C-Terminal Domain of ECP3 Phage Endolysin. Choi YJ, Kim S, Kim J. J Microbiol Biotechnol 33 964-972 (2023)


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