Publications

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A
Vaz, F, Kounatidis I, Covas G, Parton RM, Harkiolaki M, Davis I, Filipe* SR, Ligoxygakis* P.  2019.  Accessibility to peptidoglycan is important for recognition of Gram-positive bacteria in Drosophila. Cell Reports. 27(8):2480-2492.
de Lencastre, H, Wu SW, Pinho MG, Ludovice AM, Filipe S, Gardete S, Sobral R, Gill S, Chung M, Tomasz A.  1999.  Antibiotic resistance as a stress response: complete sequencing of a large number of chromosomal loci in Staphylococcus aureus strain COL that impact on the expression of resistance to methicillin. Microb. Drug Resist. 5:163-175.
B
Atilano, ML, Pereira PM, Vaz F, Catalão MJ, Reed P, Grilo IR, Sobral RG, Ligoxygakis P, Pinho MG, Filipe SR.  2014.  Bacterial autolysins trim cell surface peptidoglycan to prevent detection by the Drosophila innate immune system. eLife. 3:e02277.
C
Pinho, MG, Filipe SR, de Lencastre H, Tomasz A.  2001.  Complementation of the essential peptidoglycan transpeptidase function of penicillin-binding protein (PBP) 2 by the drug resistance protein PBP2A in Staphylococcus aureus. J. Bacteriol. 183:6525-6531.
M
Aggarwal, SD, Lloyd* AJ, Yerneni SS, Narciso AR, Shepherd J, Roper DI, Dowson C, Filipe* SR, Hiller* NL.  2021.  A Molecular Link between Cell Wall Biosynthesis, Translation Fidelity, and Stringent Response in Streptococcus pneumoniae. Proc. Natl. Acad. Sci. USA. 118(14):e2018089118.
P
Wang, L, Gilbert RJC, Atilano ML, Filipe SR, Gay NJ, Ligoxygakis P.  2008.  Peptidoglycan Recognition Protein-SD provides versatility of receptor formation in Drosophila immunity. Proc. Natl. Acad. Sci. USA. 105:11881-11886.
R
Sherratt, DJ, Soballe B, Barre F-X, Filipe SR, Massey T, Lau I, Yates J.  2004.  Recombination and chromosome segregation. Phil. Trans. R. Soc. Lond. B. 359:61-69.
Filipe, SR, Tomasz A, Ligoxygakis P.  2005.  Requirements of peptidoglycan structure allowing detection by the Drosophila Toll pathway. EMBO Reports. 6:327-333.
Gardete, S, Ludovice AM, Sobral RG, Filipe SR, de Lencastre H, Tomasz A.  2004.  The role of murE in the expression of b-lactam antibiotic resistance in Staphylococcus aureus. J. Bacteriol. 186:1705-1713.
S
Wang, L, Weber AN, Atilano ML, Filipe SR, Gay NJ, Ligoxygakis P.  2006.  Sensing of Gram-positive bacteria in Drosophila: GNBP1 is needed to process and present peptidoglycan to PGRP-SA. EMBO J. 25:5005-5014.
Lau, IF, Filipe SR, Soballe B, Okstad O-A, Barre F-X, Sherratt DJ.  2003.  Spatial and temporal organization of replicating Escherichia coli chromosomes. Mol Microbiol. 49:731-743.
Reed, P, Atilano ML, Alves R, Hoiczyk E, Sher X, Reichmann NT, Pereira PM, Roemer T, Filipe SR, Pereira-Leal JB, Ligoxygakis P, Pinho MG.  2015.  Staphylococcus aureus survives with a minimal peptidoglycan synthesis machinery but sacrifices virulence and antibiotic resistance. PLoS Pathogens. 11:e1004891.
W
Atilano, ML, Yates J, Glittenberg M, Filipe* SR, Ligoxygakis* P.  2011.  Wall teichoic acids of Staphylococcus aureus limit recognition by the Drosophila Peptidoglycan Recognition Protein-SA to promote pathogenicity. PLoS Pathogens. 7:e1002421.