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1. Commensal Bacterium Rothia aeria Degrades and Detoxifies Gluten via a Highly Effective Subtilisin Enzyme

2. Gluten Degrading Enzymes for Treatment of Celiac Disease

3. Commensal Bacterium

4. Gluten Degrading Enzymes for Treatment of Celiac Disease

5. Short-Term ONX-0914 Administration: Performance and Muscle Phenotype in Mdx Mice

6. Short-Term ONX-0914 Administration: Performance and Muscle Phenotype in

7. Identification of Rothia bacteria as gluten-degrading natural colonizers of the upper gastro-intestinal tract.

8. Pharmaceutically modified subtilisins withstand acidic conditions and effectively degrade gluten in vivo

9. Commensal Bacterium Rothia aeria Degrades and Detoxifies Gluten via a Highly Effective Subtilisin Enzyme

10. Identification of food-grade subtilisins as gluten-degrading enzymes to treat celiac disease

11. Salivary Gluten Degradation and Oral Microbial Profiles in Healthy Individuals and Celiac Disease Patients

12. Identification of Pseudolysin (lasB) as an Aciduric Gluten-Degrading Enzyme with High Therapeutic Potential for Celiac Disease

14. Human salivary MUC7 mucin peptides: effect of size, charge and cysteine residues on antifungal activity

15. Effect of Rothia mucilaginosa enzymes on gliadin (gluten) structure, deamidation, and immunogenic epitopes relevant to celiac disease

16. Experimental strategy to discover microbes with gluten-degrading enzyme activities

17. Identification of food-grade subtilisins as gluten-degrading enzymes to treat celiac disease.

19. Effect of MUC7 peptides on the growth of bacteria and on Streptococcus mutans biofilm

20. Human salivary mucin MUC7 12-mer-L and 12-mer-D peptides: antifungal activity in saliva, enhancement of activity with protease inhibitor cocktail or EDTA, and cytotoxicity to human cells

21. In vitro synergic antifungal effect of MUC7 12-mer with histatin-5 12-mer or miconazole

22. Evaluating biofilm growth of two oral pathogens

23. Identification of Rothia Bacteria as Gluten-Degrading Natural Colonizers of the Upper Gastro-Intestinal Tract

24. Isolation and Characterization of Gluten Degrading Bacteria From the Oral Cavity

25. Identification of Rothia Bacteria as Gluten-Degrading Natural Colonizers of the Upper Gastro-Intestinal Tract.

26. The cultivable human oral gluten-degrading microbiome and its potential implications in coeliac disease and gluten sensitivity

27. Factors affecting antimicrobial activity of MUC7 12-mer, a human salivary mucin-derived peptide

28. Salivary Gluten Degradation and Oral Microbial Profiles in Healthy Individuals and Celiac Disease Patients.

29. Effect of Rothia mucilaginosa enzymes on gliadin (gluten) structure, deamidation, and immunogenic epitopes relevant to celiac disease.

30. Discovery of a Novel and Rich Source of Gluten- Degrading Microbial Enzymes in the Oral Cavity.

31. Commensal Bacterium Rothia aeria Degrades and Detoxifies Gluten via a Highly Effective Subtilisin Enzyme.

33. Gluten Degrading Enzymes for Treatment of Celiac Disease.

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