Exopolysaccharide biosynthetic glycoside hydrolases can be utilized to disrupt and prevent Pseudomonas aeruginosa biofilms P Baker, PJ Hill, BD Snarr, N Alnabelseya, MJ Pestrak, MJ Lee, ... Science advances 2 (5), e1501632, 2016 | 283 | 2016 |
Pseudomonas aeruginosa rugose small-colony variants evade host clearance, are hyper-inflammatory, and persist in multiple host environments MJ Pestrak, SB Chaney, HC Eggleston, S Dellos-Nolan, S Dixit, ... PLoS pathogens 14 (2), e1006842, 2018 | 120 | 2018 |
Characterization of the Pseudomonas aeruginosa glycoside hydrolase PslG reveals that its levels are critical for Psl polysaccharide biosynthesis and biofilm formation P Baker, GB Whitfield, PJ Hill, DJ Little, MJ Pestrak, H Robinson, ... Journal of Biological Chemistry 290 (47), 28374-28387, 2015 | 87 | 2015 |
Treatment with the Pseudomonas aeruginosa glycoside hydrolase PslG combats wound infection by improving antibiotic efficacy and host innate immune activity MJ Pestrak, P Baker, S Dellos-Nolan, PJ Hill, D Passos da Silva, H Silver, ... Antimicrobial agents and chemotherapy 63 (6), 10.1128/aac. 00234-19, 2019 | 81 | 2019 |
Investigation of synovial fluid induced Staphylococcus aureus aggregate development and its impact on surface attachment and biofilm formation MJ Pestrak, TT Gupta, DH Dusane, DV Guzior, A Staats, J Harro, ... PLoS One 15 (4), e0231791, 2020 | 51 | 2020 |
Staphylococcus aureus aggregates on orthopedic materials under varying levels of shear stress TT Gupta, NK Gupta, MJ Pestrak, DH Dusane, JM Harro, AR Horswill, ... Applied and environmental microbiology 86 (19), e01234-20, 2020 | 20 | 2020 |
Exopolysaccharide biosynthetic glycoside hydrolases can be utilized to disrupt and prevent Pseudomonas aeruginosa biofilms. Sci Adv 2: e1501632 P Baker, PJ Hill, BD Snarr, N Alnabelseya, MJ Pestrak, MJ Lee, ... J Phys Chem B 117, 10492-10503, 2016 | 20 | 2016 |
Th17 responses to collagen type V, kα1-tubulin, and vimentin are present early in human development and persist throughout life JA Sullivan, E Jankowska-Gan, S Hegde, MA Pestrak, VV Agashe, ... American Journal of Transplantation 17 (4), 944-956, 2017 | 16 | 2017 |
Controlling the Growth of the Skin Commensal Staphylococcus epidermidis Using d-Alanine Auxotrophy D Dodds, JL Bose, MD Deng, GR Dubé, TH Grossman, A Kaiser, ... Msphere 5 (3), 10.1128/msphere. 00360-20, 2020 | 12 | 2020 |
Regulation of Cyclic di-GMP Signaling in Pseudomonas aeruginosa MJ Pestrak, DJ Wozniak Microbial Cyclic Di-Nucleotide Signaling, 471-486, 2020 | 2 | 2020 |
Pseudomonas aeruginosa pulmonary infection results in S100A8/A9-dependent cardiac dysfunction N Kumar, MJ Pestrak, Q Wu, OS Ahumada, S Dellos-Nolan, ... PLoS pathogens 19 (8), e1011573, 2023 | 1 | 2023 |
Genetics and regulation of EPS formation in Pseudomonas aeruginosa MJ Pestrak, HC Eggleston, DJ Wozniak The Perfect Slime: Microbial Extracellular Polymeric Substances (EPS), 79, 2016 | 1 | 2016 |
Abstract P3080: S100A8/9 Is A Key Regulator For Normal Heart Function During Pseudomonas Aeruginosa Infection N Kumar, MJ Pestrak, Q Wu, S Dellos-Nolan, R Shukla, CF Mitchem, L Yu, ... Circulation Research 131 (Suppl_1), AP3080-AP3080, 2022 | | 2022 |
Pseudomonas aeruginosa pulmonary infection results in S100A8/A9-dependent cardiac dysfunction M Rajaram, N Kumar, M Pestrak, Q Wu, OS Ahumada, S Dellos-Nolan, ... | | 2022 |
Outer Membrane Vesicle From Pseudomonas Aeruginosa Causes Inflammation and Cardiac Dysfunction N Kumar, M Pestrak, Q Wu, S Dellos-Nolan, L Yu, W Lafuse, L Ganesan, ... Circulation Research 127 (Suppl_1), A457-A457, 2020 | | 2020 |
MicroRNA-155 promotes cardiac inflammation, fibrosis, and impairs heart function during Pseudomonas aeruginosa infection M Rajaram, M Pestrak, N Murphy, Q Wu, E Lubbers, S Dellos-Nolan, ... The Journal of Immunology 204 (1_Supplement), 67.14-67.14, 2020 | | 2020 |
Investigation of the Pseudomonas aeruginosa biofilm exopolysaccharide Psl and its role during infection MJ Pestrak The Ohio State University, 2018 | | 2018 |