Bile Salts and Glycine as Cogerminants for Clostridium difficile Spores JA Sorg, AL Sonenshein Journal of bacteriology 190 (7), 2505-2512, 2008 | 851 | 2008 |
Clostridium difficile spore biology: sporulation, germination, and spore structural proteins D Paredes-Sabja, A Shen, JA Sorg Trends in microbiology 22 (7), 406-416, 2014 | 509 | 2014 |
Inhibiting the Initiation of Clostridium difficile Spore Germination using Analogs of Chenodeoxycholic Acid, a Bile Acid JA Sorg, AL Sonenshein Journal of bacteriology 192 (19), 4983-4990, 2010 | 376 | 2010 |
Bile Acid Recognition by the Clostridium difficile Germinant Receptor, CspC, Is Important for Establishing Infection MB Francis, CA Allen, R Shrestha, JA Sorg PLoS pathogens 9 (5), e1003356, 2013 | 322 | 2013 |
Chenodeoxycholate Is an Inhibitor of Clostridium difficile Spore Germination JA Sorg, AL Sonenshein Journal of bacteriology 191 (3), 1115-1117, 2009 | 251 | 2009 |
Metabolism of bile salts in mice influences spore germination in Clostridium difficile JL Giel, JA Sorg, AL Sonenshein, J Zhu PloS one 5 (1), e8740, 2010 | 242 | 2010 |
Clostridioides difficile Biology: Sporulation, Germination, and Corresponding Therapies for C. difficile Infection D Zhu, JA Sorg, X Sun Frontiers in cellular and infection microbiology 8, 29, 2018 | 172 | 2018 |
Laboratory Maintenance of Clostridium difficile JA Sorg, SS Dineen Current protocols in microbiology 12 (1), 9A. 1.1-9A. 1.10, 2009 | 159 | 2009 |
Spore cortex hydrolysis precedes dipicolinic acid release during Clostridium difficile spore germination MB Francis, CA Allen, JA Sorg Journal of bacteriology 197 (14), 2276-2283, 2015 | 119 | 2015 |
Small molecule inhibitor of lipoteichoic acid synthesis is an antibiotic for Gram-positive bacteria SG Richter, D Elli, HK Kim, APA Hendrickx, JA Sorg, O Schneewind, ... Proceedings of the National Academy of Sciences 110 (9), 3531-3536, 2013 | 113 | 2013 |
Genetic Manipulation of Clostridium difficile Firmicutes (Low G+C Gram Positive) L Bouillaut, SM McBride, JA Sorg Current protocols in microbiology 20 (1), 9A. 2.1-9A. 2.17, 2011 | 102 | 2011 |
Using CRISPR-Cas9-mediated genome editing to generate C. difficile mutants defective in selenoproteins synthesis KN McAllister, L Bouillaut, JN Kahn, WT Self, JA Sorg Scientific reports 7 (1), 14672, 2017 | 98 | 2017 |
Identification of a Novel Lipoprotein Regulator of Clostridium difficile Spore Germination KA Fimlaid, O Jensen, ML Donnelly, MB Francis, JA Sorg, A Shen PLoS pathogens 11 (10), e1005239, 2015 | 78 | 2015 |
Secretion signal recognition by YscN, the Yersinia type III secretion ATPase JA Sorg, B Blaylock, O Schneewind Proceedings of the National Academy of Sciences 103 (44), 16490-16495, 2006 | 77 | 2006 |
Germinants and their receptors in Clostridia D Bhattacharjee, KN McAllister, JA Sorg Journal of bacteriology 198 (20), 2767-2775, 2016 | 76 | 2016 |
Both fidaxomicin and vancomycin inhibit outgrowth of Clostridium difficile spores CA Allen, F Babakhani, P Sears, L Nguyen, JA Sorg Antimicrobial agents and chemotherapy 57 (1), 664-667, 2013 | 76 | 2013 |
Muricholic Acids Inhibit Clostridium difficile Spore Germination and Growth MB Francis, CA Allen, JA Sorg PloS one 8 (9), e73653, 2013 | 72 | 2013 |
Binding of SycH Chaperone to YscM1 and YscM2 Activates Effector yop Expression in Yersinia enterocolitica ED Cambronne, JA Sorg, O Schneewind Journal of bacteriology 186 (3), 829-841, 2004 | 70 | 2004 |
Reexamining the germination phenotypes of several Clostridium difficile strains suggests another role for the CspC germinant receptor D Bhattacharjee, MB Francis, X Ding, KN McAllister, R Shrestha, JA Sorg Journal of bacteriology 198 (5), 777-786, 2016 | 68 | 2016 |
Substrate recognition of type III secretion machines–testing the RNA signal hypothesis JA Sorg, NC Miller, O Schneewind Cellular microbiology 7 (9), 1217-1225, 2005 | 66 | 2005 |