Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens

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Main Authors:	James M. Gamrat, Christopher L. Orme, Giulia Mancini, Sarah J. Burke, Latifah M. Alhthlol, Rebecca C. Colandrea, Bryan C. Figula, Dylan T. Tomares, Jason E. Heindl, John W. Tomsho
Format:	Article
Language:	English
Published:	American Chemical Society 2025-07-01
Series:	ACS Omega
Online Access:	https://doi.org/10.1021/acsomega.5c02701
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author	James M. Gamrat Christopher L. Orme Giulia Mancini Sarah J. Burke Latifah M. Alhthlol Rebecca C. Colandrea Bryan C. Figula Dylan T. Tomares Jason E. Heindl John W. Tomsho
author_facet	James M. Gamrat Christopher L. Orme Giulia Mancini Sarah J. Burke Latifah M. Alhthlol Rebecca C. Colandrea Bryan C. Figula Dylan T. Tomares Jason E. Heindl John W. Tomsho
author_sort	James M. Gamrat
collection	DOAJ
format	Article
id	doaj-art-ebb71401dd594f4fb9ea78337f3a4e84
institution	Kabale University
issn	2470-1343
language	English
publishDate	2025-07-01
publisher	American Chemical Society
record_format	Article
series	ACS Omega
spelling	doaj-art-ebb71401dd594f4fb9ea78337f3a4e842025-08-20T03:58:44ZengAmerican Chemical SocietyACS Omega2470-13432025-07-011029317223174010.1021/acsomega.5c02701Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant PathogensJames M. Gamrat0Christopher L. Orme1Giulia Mancini2Sarah J. Burke3Latifah M. Alhthlol4Rebecca C. Colandrea5Bryan C. Figula6Dylan T. Tomares7Jason E. Heindl8John W. Tomsho9Department of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United StatesDepartment of Biological & Biomedical Sciences, Rowan University, Glassboro, New Jersey, United StatesDepartment of Chemistry & Biochemistry, Saint Joseph’s University, University City Campus, Philadelphia, Pennsylvania, United Stateshttps://doi.org/10.1021/acsomega.5c02701
spellingShingle	James M. Gamrat Christopher L. Orme Giulia Mancini Sarah J. Burke Latifah M. Alhthlol Rebecca C. Colandrea Bryan C. Figula Dylan T. Tomares Jason E. Heindl John W. Tomsho Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens ACS Omega
title	Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens
title_full	Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens
title_fullStr	Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens
title_full_unstemmed	Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens
title_short	Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens
title_sort	boron containing analogs of fosmidomycin benzoxaborole derivatives exhibit promising activity against resistant pathogens
url	https://doi.org/10.1021/acsomega.5c02701
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Boron-Containing Analogs of Fosmidomycin: Benzoxaborole Derivatives Exhibit Promising Activity Against Resistant Pathogens

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