Endophytic fungi from Himalayan silver birch as potential source of plant growth enhancement and secondary metabolite production

Mountain biodiversity is under unparalleled pressure due to climate change, necessitating in-depth research on high-altitude plant’s microbial associations which are crucial for plant survival under stress conditions. Realizing that high-altitude tree line species of Himalaya are completely unexplor...

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Veröffentlicht in:	Brazilian journal of microbiology 2024-03, Vol.55 (1), p.557-570
Hauptverfasser:	Dasila, Khashti, Pandey, Anita, Sharma, Avinash, Samant, Sher S., Singh, Mithilesh
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetic acid Altitude Bacteria Betula Bioactive compounds Biodiversity Biomedical and Life Sciences Birch trees Cereal crops Climate change Endophytes Environmental Microbiology - Research Paper Extreme cold Food Microbiology Fungi Germination High altitude High-altitude environments Indoleacetic acid Inoculation Life Sciences Medical Microbiology Metabolites Microbial Ecology Microbial Genetics and Genomics Microbiology Microorganisms Mycology Phosphorus - metabolism Plant Development Plant growth Plant Roots - microbiology Seed germination Solubilization Soybeans Survival
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container_title	Brazilian journal of microbiology
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creator	Dasila, Khashti Pandey, Anita Sharma, Avinash Samant, Sher S. Singh, Mithilesh
description	Mountain biodiversity is under unparalleled pressure due to climate change, necessitating in-depth research on high-altitude plant’s microbial associations which are crucial for plant survival under stress conditions. Realizing that high-altitude tree line species of Himalaya are completely unexplored with respect to the microbial association, the present study aimed to elucidate plant growth promoting and secondary metabolite producing potential of culturable endophytic fungi of Himalayan silver birch ( Betula utilis D. Don). ITS region sequencing revealed that the fungal isolates belong to Penicillium species, Pezicula radicicola , and Paraconiothyrium archidendri . These endophytes were psychrotolerant in nature with the potential to produce extracellular lytic activities. The endophytes showed plant growth promoting (PGP) traits like phosphorus solubilization and production of siderophore, indole acetic acid (IAA), and ACC deaminase. The fungal extracts also exhibited antagonistic potential against bacterial pathogens. Furthermore, the fungal extracts were found to be a potential source of bioactive compounds including the host-specific compound—betulin. Inoculation with fungal suspension improved seed germination and biomass of soybean and maize crops under net house conditions. In vitro PGP traits of the endophytes, supported by net house experiments, indicated that fungal association may support the growth and survival of the host in extreme cold conditions.
doi_str_mv	10.1007/s42770-024-01259-4
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subjects	Acetic acid Altitude Bacteria Betula Bioactive compounds Biodiversity Biomedical and Life Sciences Birch trees Cereal crops Climate change Endophytes Environmental Microbiology - Research Paper Extreme cold Food Microbiology Fungi Germination High altitude High-altitude environments Indoleacetic acid Inoculation Life Sciences Medical Microbiology Metabolites Microbial Ecology Microbial Genetics and Genomics Microbiology Microorganisms Mycology Phosphorus - metabolism Plant Development Plant growth Plant Roots - microbiology Seed germination Solubilization Soybeans Survival
title	Endophytic fungi from Himalayan silver birch as potential source of plant growth enhancement and secondary metabolite production
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