Seed Endophyte Bacillus atrophaeus Colonizes Root and Shoot Tissues Providing Antifungal Activity During Wheat Seedling Establishment

Authors

• Anagha Wankhade, Utah State UniversityFollow
• Zhiting Xu, University of UtahFollow
• Ashlynn Clark, Utah State UniversityFollow
• David Britt, Utah State UniversityFollow

Document Type

Article

Author ORCID Identifier

Anagha Wankhade https://orcid.org/0009-0009-0957-7571

David Britt https://orcid.org/0000-0002-9753-6404

Journal/Book Title/Conference

Seeds

Volume

5

Issue

3

Publisher

MDPI AG

Publication Date

5-26-2026

Journal Article Version

Version of Record

First Page

1

Last Page

21

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Abstract

Seed-associated endophytes become active during germination, playing important roles as early colonizers of plant tissues and contributing to plant health while residing in a protective niche. In this study, we characterized a wheat-derived bacterial isolate, JunSE1L, to determine its functional traits and ecological role in the plant microbiome. The isolate was identified as Bacillus atrophaeus based on 16S rRNA analysis. JunSE1L exhibited nutrient-dependent plasticity in colony architecture, forming robust hydrophobic biofilms and pellicles under rich nutrient availability while swarming and forming thin, often dendritic colonies under defined nutrition. JunSE1L produced highly surface-active compounds that lowered the surface tension of water to 30 mN/m and released potent proteolytic and hemolytic compounds, thus equipping JunSE1L for antagonistic interactions, as examined against several fungal pathogens. JunSE1L inhibited Fusarium proliferatum and Mucor hiemalis in live-cell assays, while cell-free supernatant selectively inhibited M. hiemalis. JunSE1L was recovered from multiple plant compartments, including rhizosphere, rhizoplane, and aerial tissues, and was observed to emerge from cut plant tissues, supporting seed-endophyte mobilization upon germination to colonize distal tissues. Seed surface inoculation experiments with JunSE1L showed limited attachment at low cell densities and reduced seedling vigor at higher inoculum levels, indicating that inoculum density and native microbiome interactions influence seedling performance.

Recommended Citation

Wankhade, A.; Xu, Z.; Clark, A.; Britt, D. Seed Endophyte Bacillus atrophaeus Colonizes Root and Shoot Tissues Providing Antifungal Activity During Wheat Seedling Establishment. Seeds 2026, 5, 30. https://doi.org/10.3390/seeds5030030