Your search keyword '"Huzefa A. Raja"' showing total 5 results

1. What was old is new again: Phenotypic screening of a unique fungal library yields pyridoxatin, a promising lead against extensively resistant Acinetobacter baumannii (AB5075)

Author

Heather L. Winter, Laura Flores-Bocanegra, Kristóf B. Cank, William J. Crandall, Fridah C. Rotich, Madeline N. Tillman, Daniel A. Todd, Tyler N. Graf, Huzefa A. Raja, Cedric J. Pearce, Nicholas H. Oberlies, and Nadja B. Cech

Subjects

Plant Science, Agronomy and Crop Science, Biochemistry, Biotechnology

Published

2023

2. Antimicrobial fungal endophytes from the botanical medicine goldenseal ( Hydrastis canadensis )

Author

Nadja B. Cech, Amninder Kaur, Nicholas H. Oberlies, Joseph M. Egan, Joshua J. Kellogg, and Huzefa A. Raja

Subjects

0301 basic medicine, biology, 010405 organic chemistry, Metabolite, Fungal endophyte, food and beverages, Antimicrobial compound, Ranunculaceae, Plant Science, biology.organism_classification, Antimicrobial, Alternaria, 01 natural sciences, Biochemistry, 0104 chemical sciences, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Botany, Alternariol monomethyl ether, Agronomy and Crop Science, Goldenseal, Biotechnology

Abstract

The potential of fungal endophytes to alter or contribute to plant chemistry and biology has been the topic of a great deal of recent interest. For plants that are used medicinally, it has been proposed that endophytes might play an important role in biological activity. With this study, we sought to identify antimicrobial fungal endophytes from the medicinal plant goldenseal (Hydrastis canadensis L., Ranunculaceae), a plant used in traditional medicine to treat infection. A total of 23 fungal cultures were obtained from surface-sterilized samples of H. canadensis roots, leaves and seeds. Eleven secondary metabolites were isolated from these fungal endophytes, five of which had reported antimicrobial activity. Hydrastis canadensis plant material was then analyzed for the presence of fungal metabolites using liquid chromatography coupled to high resolving power mass spectrometry. The antimicrobial compound alternariol monomethyl ether was detected both as a metabolite of the fungal endophyte Alternaria spp. isolated from H. canadensis seeds, and as a component of an extract from the H. canadensis seed material. Notably, fungi of the Alternaria genus were isolated from three separate accessions of H. canadensis plant material collected in a time period spanning 5 years. The concentration of alternariol monomethyl ether (991 mg/kg in dry seed material) was in a similar range to that previously reported for metabolites of ecologically important fungal endophytes. The seed extracts themselves, however, did not possess antimicrobial activity.

Published

2016

3. Comparison of the chemistry and diversity of endophytes isolated from wild-harvested and greenhouse-cultivated yerba mansa (Anemopsis californica)

Author

Nadja B. Cech, Nicholas H. Oberlies, Huzefa A. Raja, Joseph M. Egan, Amninder Kaur, Tamam El-Elimat, Daniel A. Todd, RO Bussey, and Tyler N. Graf

Subjects

Cylindrocarpon, Saururaceae, education.field_of_study, Natural product, biology, fungi, Population, Plant Science, Fungus, biology.organism_classification, Antimicrobial, Biochemistry, Plant use of endophytic fungi in defense, chemistry.chemical_compound, Anemopsis, chemistry, Botany, education, Agronomy and Crop Science, Biotechnology

Abstract

With this study, we explored the identity and chemistry of fungal endophytes from the roots of yerba mansa [Anemopsis californica (Nutt.) Hook. & Arn. (Saururaceae)], a botanical traditionally used to treat infection. We compared the diversity of fungal endophytes isolated from a wild-harvested A. californica population, and those from plants cultivated for one year in a greenhouse environment. The wild-harvested population yielded thirteen fungal strains (eleven unique genotypes). Of the extracts prepared from these fungi, four inhibited growth of Staphylococcus aureus by >25% at 20 µg/mL, and three inhibited growth of Pseudomonas aeruginosa by =20% at 200 µg/mL. By comparison, A. californica roots after one year of cultivation in the greenhouse produced only two unique genotypes, neither of which displayed significant antimicrobial activity. The fungus Chaetomium cupreum isolated from wild-harvested A. californica yielded a new antimicrobial spirolactone, chaetocuprum (1). An additional 14 known compounds were identified using LC–MS dereplication of the various fungal endophytes. This study provides new insights into the identity and chemistry of A. californica fungal endophytes, and demonstrates the importance of considering growing conditions when pursuing natural product drug discovery from endophytic fungi.

Published

2015

4. Antimicrobial fungal endophytes from the botanical medicine goldenseal (

Author

Joseph M, Egan, Amninder, Kaur, Huzefa A, Raja, Joshua J, Kellogg, Nicholas H, Oberlies, and Nadja B, Cech

Subjects

food and beverages, Article

Abstract

The potential of fungal endophytes to alter or contribute to plant chemistry and biology has been the topic of a great deal of recent interest. For plants that are used medicinally, it has been proposed that endophytes might play an important role in biological activity. With this study, we sought to identify antimicrobial fungal endophytes from the medicinal plant goldenseal (Hydrastis canadensis L., Ranunculaceae), a plant used in traditional medicine to treat infection. A total of 23 fungal cultures were obtained from surface-sterilized samples of H. canadensis roots, leaves and seeds. Eleven secondary metabolites were isolated from these fungal endophytes, five of which had reported antimicrobial activity. Hydrastis canadensis plant material was then analyzed for the presence of fungal metabolites using liquid chromatography coupled to high resolving power mass spectrometry. The antimicrobial compound alternariol monomethyl ether was detected both as a metabolite of the fungal endophyte Alternaria spp. isolated from H. canadensis seeds, and as a component of an extract from the H. canadensis seed material. Notably, fungi of the Alternaria genus were isolated from three separate accessions of H. canadensis plant material collected in a time period spanning 5 years. The concentration of alternariol monomethyl ether (991 mg/kg in dry seed material) was in a similar range to that previously reported for metabolites of ecologically important fungal endophytes. The seed extracts themselves, however, did not possess antimicrobial activity.

Published

2017

5. Comparison of the chemistry and diversity of endophytes isolated from wild-harvested and greenhouse-cultivated yerba mansa (

Author

Robert O, Bussey, Amninder, Kaur, Daniel A, Todd, Joseph M, Egan, Tamam, El-Elimat, Tyler N, Graf, Huzefa A, Raja, Nicholas H, Oberlies, and Nadja B, Cech

Subjects

fungi, Article

Abstract

With this study, we explored the identity and chemistry of fungal endophytes from the roots of yerba mansa [Anemopsis californica (Nutt.) Hook. & Arn. (Saururaceae)], a botanical traditionally used to treat infection. We compared the diversity of fungal endophytes isolated from a wild-harvested A. californica population, and those from plants cultivated for one year in a greenhouse environment. The wild-harvested population yielded thirteen fungal strains (eleven unique genotypes). Of the extracts prepared from these fungi, four inhibited growth of Staphylococcus aureus by >25% at 20 µg/mL, and three inhibited growth of Pseudomonas aeruginosa by ≥20% at 200 µg/mL. By comparison, A. californica roots after one year of cultivation in the greenhouse produced only two unique genotypes, neither of which displayed significant antimicrobial activity. The fungus Chaetomium cupreum isolated from wild-harvested A. californica yielded a new antimicrobial spirolactone, chaetocuprum (1). An additional fourteen known compounds were identified using LC-MS dereplication of the various fungal endophytes. This study provides new insights into the identity and chemistry of A. californica fungal endophytes, and demonstrates the importance of considering growing conditions when pursuing natural product drug discovery from endophytic fungi.

Published

2015