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<scp>d</scp> -Proline Reductase Underlies Proline-Dependent Growth of Clostridioides difficile

Michael A. Johnstone, William T. Self

2022Journal of Bacteriology24 citationsDOIOpen Access PDF

Abstract

Stickland metabolism is a core facet of C. difficile physiology that likely plays a major role in host colonization. Here, we carefully delineate the effects of each amino acid on the growth of C. difficile with respect to the selenoenzymes d-proline reductase and glycine reductase. Moreover, we report that d-proline reductase forces C. difficile to strictly depend on proline for growth. Finally, we provide evidence that proline and hydroxyproline suppress toxin production and that selenoproteins are involved in this mechanism. Our findings highlight the significance of selenium-dependent Stickland reactions and may provide insight on what occurs during host infection, especially as it relates to the decision to colonize based on proline as a nutrient.

Topics & Concepts

ProlineBiologyReductaseGlycineClostridioidesBiochemistryNitrate reductaseAmino acidMetabolismColonizationMicrobiologyEnzymeClostridium difficile and Clostridium perfringens researchGut microbiota and health
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