| Hemolysin of uropathogenic Escherichia coli: A cloak or a dagger? LC Ristow, RA Welch Biochimica et Biophysica Acta (BBA)-Biomembranes 1858 (3), 538-545, 2016 | 115 | 2016 |
| The β3‐integrin ligand of Borrelia burgdorferi is critical for infection of mice but not ticks LC Ristow, HE Miller, LJ Padmore, R Chettri, N Salzman, MJ Caimano, ... Molecular microbiology 85 (6), 1105-1118, 2012 | 72 | 2012 |
| Integrin binding by Borrelia burgdorferi P66 facilitates dissemination but is not required for infectivity LC Ristow, M Bonde, YP Lin, H Sato, M Curtis, E Wesley, BL Hahn, ... Cellular microbiology 17 (7), 1021-1036, 2015 | 58 | 2015 |
| Intravital imaging of vascular transmigration by the Lyme spirochete: requirement for the integrin binding residues of the B. burgdorferi P66 protein D Kumar, LC Ristow, M Shi, P Mukherjee, JA Caine, WY Lee, P Kubes, ... PLoS pathogens 11 (12), e1005333, 2015 | 56 | 2015 |
| Adhesion Mechanisms of Borrelia burgdorferi S Antonara, L Ristow, J Coburn Bacterial Adhesion: Chemistry, Biology and Physics, 35-49, 2011 | 54 | 2011 |
| Effect of Borrelia burgdorferi OspC at the site of inoculation in mouse skin S Antonara, L Ristow, J McCarthy, J Coburn Infection and immunity 78 (11), 4723-4733, 2010 | 31 | 2010 |
| RTX Toxins Ambush Immunity’s First Cellular Responders LC Ristow, RA Welch Toxins 11 (12), 720, 2019 | 30 | 2019 |
| The granuloma in cryptococcal disease LC Ristow, JM Davis PLoS Pathogens 17 (3), e1009342, 2021 | 22 | 2021 |
| The Extracellular Domain of the β2 Integrin β Subunit (CD18) Is Sufficient for Escherichia coli Hemolysin and Aggregatibacter actinomycetemcomitans Leukotoxin … LC Ristow, V Tran, KJ Schwartz, L Pankratz, A Mehle, JD Sauer, ... MBio 10 (4), 10.1128/mbio. 01459-19, 2019 | 20 | 2019 |
| Insight into the mechanism of human herpesvirus 7 U21-mediated diversion of class I MHC molecules to lysosomes NL Glosson, P Gonyo, NA May, CL Schneider, LC Ristow, Q Wang, ... Journal of Biological Chemistry 285 (47), 37016-37029, 2010 | 20 | 2010 |
| Intravital imaging-based genetic screen reveals the transcriptional network governing Candida albicans filamentation during mammalian infection RS Wakade, LC Ristow, M Wellington, DJ Krysan Elife 12, e85114, 2023 | 19 | 2023 |
| Cryptococcus neoformans adapts to the host environment through TOR-mediated remodeling of phospholipid asymmetry LC Ristow, AJ Jezewski, BJ Chadwick, MA Stamnes, X Lin, DJ Krysan Nature Communications 14 (1), 6587, 2023 | 11 | 2023 |
| The NDR/LATS kinase CBK1 regulates a specific subset of ACE2 functions and suppresses the hypha-to-yeast transition in candida albicans RS Wakade, LC Ristow, MA Stamnes, A Kumar, DJ Krysan MBio 11 (4), 10.1128/mbio. 01900-20, 2020 | 11 | 2020 |
| Live attenuated Borrelia burgdorferi targeted mutants in an infectious strain background protect mice from challenge infection BL Hahn, LJ Padmore, LC Ristow, MW Curtis, J Coburn Clinical and Vaccine Immunology 23 (8), 725-731, 2016 | 11 | 2016 |
| The RAM signaling pathway links morphology, thermotolerance, and CO2 tolerance in the global fungal pathogen Cryptococcus neoformans BJ Chadwick, T Pham, X Xie, LC Ristow, DJ Krysan, X Lin Elife 11, e82563, 2022 | 9 | 2022 |
| Carbon Dioxide Potentiates Flucytosine Susceptibility in Cryptococcus neoformans AJ Jezewski, LC Ristow, DJ Krysan Microbiology spectrum 11 (2), e04783-22, 2023 | 3 | 2023 |
| FKS1 Is Required for Cryptococcus neoformans Fitness In Vivo: Application of Copper-Regulated Gene Expression to Mouse Models of Cryptococcosis SR Beattie, AJ Jezewski, LC Ristow, M Wellington, DJ Krysan Msphere 7 (3), e00163-22, 2022 | 1 | 2022 |
Jenifer CoburnMedical College of Wisconsin在 mcw.edu 的电子邮件经过验证
