31 results on '"Foley, Matthew H."'
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2. Lactobacillus bile salt hydrolase substrate specificity governs bacterial fitness and host colonization
3. Loss of Bacteroides thetaiotaomicron bile acid-altering enzymes impacts bacterial fitness and the global metabolic transcriptome
4. Clostridioides difficile exploits toxin-mediated inflammation to alter the host nutritional landscape and exclude competitors from the gut microbiota
5. Surface glycan-binding proteins are essential for cereal beta-glucan utilization by the human gut symbiont Bacteroides ovatus
6. Multiple TonB homologs are important for carbohydrate utilization by Bacteroides thetaiotaomicron
7. Using Multidimensional Separations to Distinguish Isomeric Amino Acid–Bile Acid Conjugates and Assess Their Presence and Perturbations in Model Systems
8. The microbial-derived bile acid lithocholate and its epimers inhibit Clostridioides difficile growth and pathogenicity while sparing members of the gut microbiota
9. Multiple TonB Homologs are Important for Carbohydrate Utilization byBacteroides thetaiotaomicron
10. Loss ofBacteroides thetaiotaomicronbile acid altering enzymes impact bacterial fitness and the global metabolic transcriptome
11. The microbial derived bile acid lithocholate and its epimers inhibitClostridioides difficilegrowth and pathogenicity while sparing members of the gut microbiota
12. The Sus operon: a model system for starch uptake by the human gut Bacteroidetes
13. Distinct bile salt hydrolase substrate preferences dictate C. difficile pathogenesis
14. Molecular details of a starch utilization pathway in the human gut symbiont Eubacterium rectale
15. Complete Genome Sequence of Lactobacillus johnsonii NCK2677, Isolated from Mice
16. Clostridioides difficile exploits toxin-mediated inflammation to alter the host nutritional landscape and exclude competitors from the gut microbiota
17. A cell-surface GH9 endo-glucanase coordinates with surface glycan binding proteins to mediate xyloglucan uptake in the gut symbiont Bacteroides ovatus
18. Bile salt hydrolases: Gatekeepers of bile acid metabolism and host-microbiome crosstalk in the gastrointestinal tract
19. Updates to Clostridium difficile Spore Germination
20. The Starch Utilization System Assembles around Stationary Starch-Binding Proteins
21. SusE facilitates starch uptake independent of starch binding in B. thetaiotaomicron
22. Extending Live-Cell Fluorescence Imaging to Anaerobes of the GUT Microbiome
23. Molecular details of a starch utilization pathway in the human gut symbiont Eubacterium rectale
24. Single-Molecule Fluorescence Imaging Reveals the Dynamics of Starch Catabolism Proteins in the Human Microbiome Bacterium Bacteroides Thetaiotaomicron
25. Molecular details of a starch utilization pathway in the human gut symbiont Eubacterium rectale
26. Molecular details of a starch utilization pathway in the human gut symbiont E ubacterium rectale.
27. Loss of Bacteroides thetaiotaomicron bile acid-altering enzymes impacts bacterial fitness and the global metabolic transcriptome.
28. Multiple TonB Homologs are Important for Carbohydrate Utilization by Bacteroides thetaiotaomicron .
29. Loss of Bacteroides thetaiotaomicron bile acid altering enzymes impact bacterial fitness and the global metabolic transcriptome.
30. The microbial derived bile acid lithocholate and its epimers inhibit Clostridioides difficile growth and pathogenicity while sparing members of the gut microbiota.
31. A Cell-Surface GH9 Endo-Glucanase Coordinates with Surface Glycan-Binding Proteins to Mediate Xyloglucan Uptake in the Gut Symbiont Bacteroides ovatus.
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